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Datasets:
DannyJun
/
real_deluxe_v2

Tasks:
Robotics
Visual Question Answering
Modalities:
Image
Text
Formats:
parquet
Size:
10K - 100K
Tags:
robot-manipulation
trajectory-prediction
embodied-ai
Libraries:
Datasets
Dask
Polars
License:
Dataset card Data Studio Files
xet
Community
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imagewidth (px)
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wrist
imagewidth (px)
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{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[139, 0], [146, 11], [146, 58], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðŁħ¢, à½ħ, ï®ı, ðĿĵ¹, á¨ģ, áłĤ, ðŁİij], [ë±IJ, ⼤, ë¡ij, ãĦ§, ê³Ĥ, ìĦIJ, ðŁİij], [âļĹ, Ѩ, á½Ŀ, âĢ´, íĵ», êĻĭ, ðŁİij], [⤦, ðŁķŀ, ðŁĶ¤, â½Ĺ, ðĿĻ°, á½Ŀ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[141, 0], [144, 18], [146, 58], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ë±IJ, ⼤, ë¡ij, ãĦ§, ê³Ĥ, ìĦIJ, ðŁİij], [âļĹ, Ѩ, á½Ŀ, âĢ´, íĵ», êĻĭ, ðŁİij], [⤦, ðŁķŀ, ðŁĶ¤, â½Ĺ, ðĿĻ°, á½Ŀ, ðŁİij], [íĥĻ, ðŁķŀ, ðŁĵŁ, â½Ĺ, áĽħ, ⼤, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 0], [143, 24], [146, 61], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[âļĹ, Ѩ, á½Ŀ, âĢ´, íĵ», êĻĭ, ðŁİij], [⤦, ðŁķŀ, ðŁĶ¤, â½Ĺ, ðĿĻ°, á½Ŀ, ðŁİij], [íĥĻ, ðŁķŀ, ðŁĵŁ, â½Ĺ, áĽħ, ⼤, ðŁİij], [Ȳ, á½Ŀ, Úİ, âŀ¶, ðĿĵķ, ìŁĻ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 0], [143, 24], [146, 61], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[⤦, ðŁķŀ, ðŁĶ¤, â½Ĺ, ðĿĻ°, á½Ŀ, ðŁİij], [íĥĻ, ðŁķŀ, ðŁĵŁ, â½Ĺ, áĽħ, ⼤, ðŁİij], [Ȳ, á½Ŀ, Úİ, âŀ¶, ðĿĵķ, ìŁĻ, ðŁİij], [âļ£, ìł°, íĬŃ, ðIJ°¼, ë±IJ, ðIJ¤Ķ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 0], [143, 29], [146, 64], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[íĥĻ, ðŁķŀ, ðŁĵŁ, â½Ĺ, áĽħ, ⼤, ðŁİij], [Ȳ, á½Ŀ, Úİ, âŀ¶, ðĿĵķ, ìŁĻ, ðŁİij], [âļ£, ìł°, íĬŃ, ðIJ°¼, ë±IJ, ðIJ¤Ķ, ðŁİij], [ðĿĺļ, Ḱ, ðŁĸij, áĮ½, áĶŃ, áĮĦ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 1], [144, 33], [146, 64], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[Ȳ, á½Ŀ, Úİ, âŀ¶, ðĿĵķ, ìŁĻ, ðŁİij], [âļ£, ìł°, íĬŃ, ðIJ°¼, ë±IJ, ðIJ¤Ķ, ðŁİij], [ðĿĺļ, Ḱ, ðŁĸij, áĮ½, áĶŃ, áĮĦ, ðŁİij], [ðĿĻ¼, âĦ¬, ðŁķŀ, êĻĭ, ë¯ij, íĵ», ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_125><DEPTH_75><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 7], [144, 40], [146, 67], [146, 78], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[âļ£, ìł°, íĬŃ, ðIJ°¼, ë±IJ, ðIJ¤Ķ, ðŁİij], [ðĿĺļ, Ḱ, ðŁĸij, áĮ½, áĶŃ, áĮĦ, ðŁİij], [ðĿĻ¼, âĦ¬, ðŁķŀ, êĻĭ, ë¯ij, íĵ», ðŁİij], [ãĪª, ìĿ¿, á½Ŀ, ðŁĵª, ðŁİij, ðĿĻ®, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 11], [144, 40], [146, 67], [146, 78], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðĿĺļ, Ḱ, ðŁĸij, áĮ½, áĶŃ, áĮĦ, ðŁİij], [ðĿĻ¼, âĦ¬, ðŁķŀ, êĻĭ, ë¯ij, íĵ», ðŁİij], [ãĪª, ìĿ¿, á½Ŀ, ðŁĵª, ðŁİij, ðĿĻ®, ðŁİij], [ìľ¾, ì¥ī, ðŁķł, ì¥ī, ðŁĶ©, ðĿij³, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_69><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 18], [146, 47], [146, 69], [146, 78], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðĿĻ¼, âĦ¬, ðŁķŀ, êĻĭ, ë¯ij, íĵ», ðŁİij], [ãĪª, ìĿ¿, á½Ŀ, ðŁĵª, ðŁİij, ðĿĻ®, ðŁİij], [ìľ¾, ì¥ī, ðŁķł, ì¥ī, ðŁĶ©, ðĿij³, ðŁİij], [ëĸ°, ðŁĸ¶, ðŁİij, ê²Ļ, ⤦, à°³, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 24], [146, 53], [146, 69], [146, 78], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ãĪª, ìĿ¿, á½Ŀ, ðŁĵª, ðŁİij, ðĿĻ®, ðŁİij], [ìľ¾, ì¥ī, ðŁķł, ì¥ī, ðŁĶ©, ðĿij³, ðŁİij], [ëĸ°, ðŁĸ¶, ðŁİij, ê²Ļ, ⤦, à°³, ðŁİij], [ᨸ, ðŁķ³, ðŁİij, ï¤Ĩ, á½Ŀ, ïŃ², ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_101><DEPTH_8><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 29], [146, 58], [146, 71], [146, 80], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ìľ¾, ì¥ī, ðŁķł, ì¥ī, ðŁĶ©, ðĿij³, ðŁİij], [ëĸ°, ðŁĸ¶, ðŁİij, ê²Ļ, ⤦, à°³, ðŁİij], [ᨸ, ðŁķ³, ðŁİij, ï¤Ĩ, á½Ŀ, ïŃ², ðŁİij], [ðIJ°¼, á¼®, ðŁİij, áģ¼, âļĹ, 䶵, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 33], [146, 58], [146, 71], [146, 80], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ëĸ°, ðŁĸ¶, ðŁİij, ê²Ļ, ⤦, à°³, ðŁİij], [ᨸ, ðŁķ³, ðŁİij, ï¤Ĩ, á½Ŀ, ïŃ², ðŁİij], [ðIJ°¼, á¼®, ðŁİij, áģ¼, âļĹ, 䶵, ðŁİij], [áłĦ, ë»ħ, ðŁĴ¹, ðĿĺı, ê³Ĥ, ï¨Ĥ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_32><DEPTH_9><DEPTH_26><DEPTH_26><DEPTH_84><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 40], [146, 61], [146, 73], [146, 80], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ᨸ, ðŁķ³, ðŁİij, ï¤Ĩ, á½Ŀ, ïŃ², ðŁİij], [ðIJ°¼, á¼®, ðŁİij, áģ¼, âļĹ, 䶵, ðŁİij], [áłĦ, ë»ħ, ðŁĴ¹, ðĿĺı, ê³Ĥ, ï¨Ĥ, ðŁİij], [áłĦ, áĪĬ, á¼®, â²¢, áĢı, ðŁıĩ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 47], [146, 64], [146, 73], [146, 80], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðIJ°¼, á¼®, ðŁİij, áģ¼, âļĹ, 䶵, ðŁİij], [áłĦ, ë»ħ, ðŁĴ¹, ðĿĺı, ê³Ĥ, ï¨Ĥ, ðŁİij], [áłĦ, áĪĬ, á¼®, â²¢, áĢı, ðŁıĩ, ðŁİij], [áĶħ, áĨº, Ḱ, áģ¼, ðĿĵŀ, áĢı, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_69><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 53], [146, 67], [148, 74], [146, 82], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, ë»ħ, ðŁĴ¹, ðĿĺı, ê³Ĥ, ï¨Ĥ, ðŁİij], [áłĦ, áĪĬ, á¼®, â²¢, áĢı, ðŁıĩ, ðŁİij], [áĶħ, áĨº, Ḱ, áģ¼, ðĿĵŀ, áĢı, ðŁİij], [áĶħ, Õĥ, Ѩ, ðŁıĩ, íģ», áłĦ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_32><DEPTH_26><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_8><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_125><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 58], [146, 67], [148, 74], [146, 82], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, áĪĬ, á¼®, â²¢, áĢı, ðŁıĩ, ðŁİij], [áĶħ, áĨº, Ḱ, áģ¼, ðĿĵŀ, áĢı, ðŁİij], [áĶħ, Õĥ, Ѩ, ðŁıĩ, íģ», áłĦ, ðŁİij], [áĶħ, áĮĥ, 㳬, ðĿļģ, íĥĻ, áĴĮ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 61], [146, 69], [148, 76], [146, 82], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, áĨº, Ḱ, áģ¼, ðĿĵŀ, áĢı, ðŁİij], [áĶħ, Õĥ, Ѩ, ðŁıĩ, íģ», áłĦ, ðŁİij], [áĶħ, áĮĥ, 㳬, ðĿļģ, íĥĻ, áĴĮ, ðŁİij], [áĴĮ, á¾Ķ, ìī¡, ï¦ĥ, ë±IJ, áĶĬ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 64], [146, 71], [148, 76], [146, 82], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, Õĥ, Ѩ, ðŁıĩ, íģ», áłĦ, ðŁİij], [áĶħ, áĮĥ, 㳬, ðĿļģ, íĥĻ, áĴĮ, ðŁİij], [áĴĮ, á¾Ķ, ìī¡, ï¦ĥ, ë±IJ, áĶĬ, ðŁİij], [à°³, â¡¢, ìı±, Ý¥, ï¦ĥ, áī¨, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_30><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 67], [146, 73], [146, 78], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, áĮĥ, 㳬, ðĿļģ, íĥĻ, áĴĮ, ðŁİij], [áĴĮ, á¾Ķ, ìī¡, ï¦ĥ, ë±IJ, áĶĬ, ðŁİij], [à°³, â¡¢, ìı±, Ý¥, ï¦ĥ, áī¨, ðŁİij], [íģ», íĥĻ, ìĿ¿, 里, âļĤ, âļ£, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_103><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 69], [146, 73], [146, 78], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĴĮ, á¾Ķ, ìī¡, ï¦ĥ, ë±IJ, áĶĬ, ðŁİij], [à°³, â¡¢, ìı±, Ý¥, ï¦ĥ, áī¨, ðŁİij], [íģ», íĥĻ, ìĿ¿, 里, âļĤ, âļ£, ðŁİij], [Ôij, á©ĭ, 㳬, áĢı, ðIJ¤Ķ, áĭ©, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_103><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 71], [148, 74], [146, 80], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[à°³, â¡¢, ìı±, Ý¥, ï¦ĥ, áī¨, ðŁİij], [íģ», íĥĻ, ìĿ¿, 里, âļĤ, âļ£, ðŁİij], [Ôij, á©ĭ, 㳬, áĢı, ðIJ¤Ķ, áĭ©, ðŁİij], [íĵ¬, à´´, 㳬, á¸ĥ, áĢı, Ȳ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_125><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_69><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 73], [148, 76], [146, 80], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[íģ», íĥĻ, ìĿ¿, 里, âļĤ, âļ£, ðŁİij], [Ôij, á©ĭ, 㳬, áĢı, ðIJ¤Ķ, áĭ©, ðŁİij], [íĵ¬, à´´, 㳬, á¸ĥ, áĢı, Ȳ, ðŁİij], [ì¼ĩ, áĮĥ, ë¼Ŀ, áĭ©, Ý¥, Ôij, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_125><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_8><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 74], [146, 78], [146, 82], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[Ôij, á©ĭ, 㳬, áĢı, ðIJ¤Ķ, áĭ©, ðŁİij], [íĵ¬, à´´, 㳬, á¸ĥ, áĢı, Ȳ, ðŁİij], [ì¼ĩ, áĮĥ, ë¼Ŀ, áĭ©, Ý¥, Ôij, ðŁİij], [ì¼ĩ, áłĤ, ìŤ, áĬĴ, Ý¥, ÔĪ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_26><DEPTH_84><DEPTH_8><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 76], [146, 78], [146, 82], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[íĵ¬, à´´, 㳬, á¸ĥ, áĢı, Ȳ, ðŁİij], [ì¼ĩ, áĮĥ, ë¼Ŀ, áĭ©, Ý¥, Ôij, ðŁİij], [ì¼ĩ, áłĤ, ìŤ, áĬĴ, Ý¥, ÔĪ, ðŁİij], [â²¢, ìľ¾, áĶŃ, à°µ, Ý¥, ðĿĵŀ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 78], [146, 80], [146, 83], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ì¼ĩ, áĮĥ, ë¼Ŀ, áĭ©, Ý¥, Ôij, ðŁİij], [ì¼ĩ, áłĤ, ìŤ, áĬĴ, Ý¥, ÔĪ, ðŁİij], [â²¢, ìľ¾, áĶŃ, à°µ, Ý¥, ðĿĵŀ, ðŁİij], [áĶħ, ðĿĵŀ, ëĸ°, 里, 里, Ýĵ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 80], [146, 82], [146, 83], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ì¼ĩ, áłĤ, ìŤ, áĬĴ, Ý¥, ÔĪ, ðŁİij], [â²¢, ìľ¾, áĶŃ, à°µ, Ý¥, ðĿĵŀ, ðŁİij], [áĶħ, ðĿĵŀ, ëĸ°, 里, 里, Ýĵ, ðŁİij], [áĶĬ, ðĿĵŀ, ëĸ°, ðIJ¤Ķ, ï¨Ĥ, Ôij, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_69><DEPTH_8><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 82], [146, 83], [146, 83], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[â²¢, ìľ¾, áĶŃ, à°µ, Ý¥, ðĿĵŀ, ðŁİij], [áĶħ, ðĿĵŀ, ëĸ°, 里, 里, Ýĵ, ðŁİij], [áĶĬ, ðĿĵŀ, ëĸ°, ðIJ¤Ķ, ï¨Ĥ, Ôij, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJŃĵ, ÔĪ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_69><DEPTH_69><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 83], [146, 83], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, ðĿĵŀ, ëĸ°, 里, 里, Ýĵ, ðŁİij], [áĶĬ, ðĿĵŀ, ëĸ°, ðIJ¤Ķ, ï¨Ĥ, Ôij, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJŃĵ, ÔĪ, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJ°¼, ÔĪ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_69><DEPTH_69><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 83], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶĬ, ðĿĵŀ, ëĸ°, ðIJ¤Ķ, ï¨Ĥ, Ôij, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJŃĵ, ÔĪ, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJ°¼, ÔĪ, Ý¥], [ðĿĵŀ, íĭį, áģ¼, ë¼Ŀ, íĬŃ, â²¢, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_69><DEPTH_69><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJŃĵ, ÔĪ, ðŁİij], [áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJ°¼, ÔĪ, Ý¥], [ðĿĵŀ, íĭį, áģ¼, ë¼Ŀ, íĬŃ, â²¢, Ý¥], [ë¤Ĥ, áĻ³, ðĿij³, ðŁİij, ðŁĶĤ, ðĿĵķ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_69><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, ðĿĵŀ, ⤦, ðIJ°¼, ðIJ°¼, ÔĪ, Ý¥], [ðĿĵŀ, íĭį, áģ¼, ë¼Ŀ, íĬŃ, â²¢, Ý¥], [ë¤Ĥ, áĻ³, ðĿij³, ðŁİij, ðŁĶĤ, ðĿĵķ, Ý¥], [ë±ĭ, àºĤ, ðĿĻ¸, ðŁİij, ðŁı©, ðĿĺIJ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_69><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 81], [152, 69], [155, 46], [157, 18], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðĿĵŀ, íĭį, áģ¼, ë¼Ŀ, íĬŃ, â²¢, Ý¥], [ë¤Ĥ, áĻ³, ðĿij³, ðŁİij, ðŁĶĤ, ðĿĵķ, Ý¥], [ë±ĭ, àºĤ, ðĿĻ¸, ðŁİij, ðŁı©, ðĿĺIJ, Ý¥], [à¬ī, â°ij, ðĿĺı, ðŁİij, ì¥ī, ðĿĵķ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 79], [152, 69], [155, 46], [157, 18], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ë¤Ĥ, áĻ³, ðĿij³, ðŁİij, ðŁĶĤ, ðĿĵķ, Ý¥], [ë±ĭ, àºĤ, ðĿĻ¸, ðŁİij, ðŁı©, ðĿĺIJ, Ý¥], [à¬ī, â°ij, ðĿĺı, ðŁİij, ì¥ī, ðĿĵķ, Ý¥], [áĭ©, â°ij, ðŁħĵ, áĨº, áĴĮ, ðĿĵ°, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_26><DEPTH_84><DEPTH_125><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[150, 74], [152, 62], [155, 36], [157, 18], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ë±ĭ, àºĤ, ðĿĻ¸, ðŁİij, ðŁı©, ðĿĺIJ, Ý¥], [à¬ī, â°ij, ðĿĺı, ðŁİij, ì¥ī, ðĿĵķ, Ý¥], [áĭ©, â°ij, ðŁħĵ, áĨº, áĴĮ, ðĿĵ°, Ý¥], [里, â½Ĺ, âĨ¤, ðŁħ¢, 臘, âĻĻ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[152, 69], [153, 55], [155, 36], [157, 18], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[à¬ī, â°ij, ðĿĺı, ðŁİij, ì¥ī, ðĿĵķ, Ý¥], [áĭ©, â°ij, ðŁħĵ, áĨº, áĴĮ, ðĿĵ°, Ý¥], [里, â½Ĺ, âĨ¤, ðŁħ¢, 臘, âĻĻ, Ý¥], [ÔĪ, â½Ĺ, âĩŀ, áĶĬ, ðĿĻ½, áĮ½, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_30><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[152, 62], [155, 46], [157, 27], [157, 9], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĭ©, â°ij, ðŁħĵ, áĨº, áĴĮ, ðĿĵ°, Ý¥], [里, â½Ĺ, âĨ¤, ðŁħ¢, 臘, âĻĻ, Ý¥], [ÔĪ, â½Ĺ, âĩŀ, áĶĬ, ðĿĻ½, áĮ½, Ý¥], [áĶĬ, â½Ĺ, áĽħ, ðIJ¤Ķ, ðĿķį, ï¦ĥ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_8><DEPTH_75><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[153, 55], [155, 46], [157, 27], [157, 9], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[里, â½Ĺ, âĨ¤, ðŁħ¢, 臘, âĻĻ, Ý¥], [ÔĪ, â½Ĺ, âĩŀ, áĶĬ, ðĿĻ½, áĮ½, Ý¥], [áĶĬ, â½Ĺ, áĽħ, ðIJ¤Ķ, ðĿķį, ï¦ĥ, Ý¥], [롼, â°IJ, ðĿĻ¸, áĮĥ, áĴĮ, áĬĴ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_26><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[155, 46], [155, 36], [157, 18], [157, 9], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ÔĪ, â½Ĺ, âĩŀ, áĶĬ, ðĿĻ½, áĮ½, Ý¥], [áĶĬ, â½Ĺ, áĽħ, ðIJ¤Ķ, ðĿķį, ï¦ĥ, Ý¥], [롼, â°IJ, ðĿĻ¸, áĮĥ, áĴĮ, áĬĴ, Ý¥], [íĵ¬, âĩŀ, ðĿĻ°, áīIJ, à¤ij, áĮĦ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_32><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_75><DEPTH_26><DEPTH_84><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[155, 36], [157, 27], [157, 18], [157, 9], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶĬ, â½Ĺ, áĽħ, ðIJ¤Ķ, ðĿķį, ï¦ĥ, Ý¥], [롼, â°IJ, ðĿĻ¸, áĮĥ, áĴĮ, áĬĴ, Ý¥], [íĵ¬, âĩŀ, ðĿĻ°, áīIJ, à¤ij, áĮĦ, Ý¥], [áĶĬ, ãĦį, ðĿĻ°, áĨº, ì³ħ, áIJ§, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_8><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[157, 27], [157, 18], [157, 9], [157, 1], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[롼, â°IJ, ðĿĻ¸, áĮĥ, áĴĮ, áĬĴ, Ý¥], [íĵ¬, âĩŀ, ðĿĻ°, áīIJ, à¤ij, áĮĦ, Ý¥], [áĶĬ, ãĦį, ðĿĻ°, áĨº, ì³ħ, áIJ§, Ý¥], [Ôij, ðĿĻº, ðIJŃĬ, á¿ļ, ëĸ°, áģ¼, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_32><DEPTH_30><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[157, 18], [157, 9], [157, 1], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[íĵ¬, âĩŀ, ðĿĻ°, áīIJ, à¤ij, áĮĦ, Ý¥], [áĶĬ, ãĦį, ðĿĻ°, áĨº, ì³ħ, áIJ§, Ý¥], [Ôij, ðĿĻº, ðIJŃĬ, á¿ļ, ëĸ°, áģ¼, Ý¥], [áĢı, ï¥ł, âĶŀ, ʶ, ʶ, ðĿĵŀ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_69><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[157, 9], [157, 1], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶĬ, ãĦį, ðĿĻ°, áĨº, ì³ħ, áIJ§, Ý¥], [Ôij, ðĿĻº, ðIJŃĬ, á¿ļ, ëĸ°, áģ¼, Ý¥], [áĢı, ï¥ł, âĶŀ, ʶ, ʶ, ðĿĵŀ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_69><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[157, 1], [159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[Ôij, ðĿĻº, ðIJŃĬ, á¿ļ, ëĸ°, áģ¼, Ý¥], [áĢı, ï¥ł, âĶŀ, ʶ, ʶ, ðĿĵŀ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 1. The subtask goals are: pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[159, 0]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĢı, ï¥ł, âĶŀ, ʶ, ʶ, ðĿĵŀ, Ý¥]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[139, 0], [146, 12], [146, 54], [146, 73], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðIJ°¼, ðŁħ±, ìł°, ðĿĺIJ, âĶŀ, áĪ¨, ðŁİij], [ë¤Ĥ, á½Ŀ, ëĶī, àºĤ, ìĨĬ, ë»ħ, ðŁİij], [âļĹ, ðŁĹģ, áºĢ, âĴ¡, ï¥ł, êĻĭ, ðŁİij], [ëĸ°, ðŁķŀ, ðŁĶĩ, â½Ĺ, ðĿĻ½, á½Ŀ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[141, 0], [144, 19], [146, 58], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ë¤Ĥ, á½Ŀ, ëĶī, àºĤ, ìĨĬ, ë»ħ, ðŁİij], [âļĹ, ðŁĹģ, áºĢ, âĴ¡, ï¥ł, êĻĭ, ðŁİij], [ëĸ°, ðŁķŀ, ðŁĶĩ, â½Ĺ, ðĿĻ½, á½Ŀ, ðŁİij], [íķ±, ðŁķł, ðŁĵ¼, â½Ĺ, áĻ³, 㳬, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 0], [144, 19], [146, 58], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[âļĹ, ðŁĹģ, áºĢ, âĴ¡, ï¥ł, êĻĭ, ðŁİij], [ëĸ°, ðŁķŀ, ðŁĶĩ, â½Ĺ, ðĿĻ½, á½Ŀ, ðŁİij], [íķ±, ðŁķł, ðŁĵ¼, â½Ĺ, áĻ³, 㳬, ðŁİij], [Ýĵ, êĻĭ, âĦ¬, ãĦį, íĵ¶, ðŁĨĴ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 0], [143, 25], [146, 61], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ëĸ°, ðŁķŀ, ðŁĶĩ, â½Ĺ, ðĿĻ½, á½Ŀ, ðŁİij], [íķ±, ðŁķł, ðŁĵ¼, â½Ĺ, áĻ³, 㳬, ðŁİij], [Ýĵ, êĻĭ, âĦ¬, ãĦį, íĵ¶, ðŁĨĴ, ðŁİij], [ê³Ĥ, ìĿ¿, ìł°, íĵĸ, â¡¢, ðĿĻľ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 0], [143, 29], [146, 61], [148, 74], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[íķ±, ðŁķł, ðŁĵ¼, â½Ĺ, áĻ³, 㳬, ðŁİij], [Ýĵ, êĻĭ, âĦ¬, ãĦį, íĵ¶, ðŁĨĴ, ðŁİij], [ê³Ĥ, ìĿ¿, ìł°, íĵĸ, â¡¢, ðĿĻľ, ðŁİij], [ðĿĻ°, Ḱ, ðŁķ¢, à´´, áĨº, áłĦ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 2], [144, 34], [146, 64], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[Ýĵ, êĻĭ, âĦ¬, ãĦį, íĵ¶, ðŁĨĴ, ðŁİij], [ê³Ĥ, ìĿ¿, ìł°, íĵĸ, â¡¢, ðĿĻľ, ðŁİij], [ðĿĻ°, Ḱ, ðŁķ¢, à´´, áĨº, áłĦ, ðŁİij], [ðĿĻ¸, ⼤, ðŁķł, âļ§, ê¸ij, ï¥ł, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_125><DEPTH_75><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 8], [144, 34], [146, 64], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ê³Ĥ, ìĿ¿, ìł°, íĵĸ, â¡¢, ðĿĻľ, ðŁİij], [ðĿĻ°, Ḱ, ðŁķ¢, à´´, áĨº, áłĦ, ðŁİij], [ðĿĻ¸, ⼤, ðŁķł, âļ§, ê¸ij, ï¥ł, ðŁİij], [áĶħ, ì¥ī, âļ§, ðŁĴº, ðŁİij, ðĿĻº, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_75><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 12], [146, 42], [146, 67], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðĿĻ°, Ḱ, ðŁķ¢, à´´, áĨº, áłĦ, ðŁİij], [ðĿĻ¸, ⼤, ðŁķł, âļ§, ê¸ij, ï¥ł, ðŁİij], [áĶħ, ì¥ī, âļ§, ðŁĴº, ðŁİij, ðĿĻº, ðŁİij], [맳, ìĿ¿, ðŁĶ©, ᨸ, áºĢ, íĵ¶, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_32><DEPTH_8><DEPTH_75><DEPTH_56><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 19], [146, 48], [146, 67], [148, 76], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ðĿĻ¸, ⼤, ðŁķł, âļ§, ê¸ij, ï¥ł, ðŁİij], [áĶħ, ì¥ī, âļ§, ðŁĴº, ðŁİij, ðĿĻº, ðŁİij], [맳, ìĿ¿, ðŁĶ©, ᨸ, áºĢ, íĵ¶, ðŁİij], [â¡¢, ðŁķ¢, ðŁİij, ãĪª, á¿ļ, áĢı, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_8><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_8><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 25], [146, 54], [146, 70], [146, 79], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, ì¥ī, âļ§, ðŁĴº, ðŁİij, ðĿĻº, ðŁİij], [맳, ìĿ¿, ðŁĶ©, ᨸ, áºĢ, íĵ¶, ðŁİij], [â¡¢, ðŁķ¢, ðŁİij, ãĪª, á¿ļ, áĢı, ðŁİij], [á©ĭ, ðŁĸij, ðŁİij, íĥĻ, Úİ, ðĿij³, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_56><DEPTH_69><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[143, 29], [146, 54], [146, 70], [146, 79], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[맳, ìĿ¿, ðŁĶ©, ᨸ, áºĢ, íĵ¶, ðŁİij], [â¡¢, ðŁķ¢, ðŁİij, ãĪª, á¿ļ, áĢı, ðŁİij], [á©ĭ, ðŁĸij, ðŁİij, íĥĻ, Úİ, ðĿij³, ðŁİij], [ÔĪ, á½Ŀ, ðŁİij, âļ£, 里, áĴĮ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_9><DEPTH_75><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_75><DEPTH_8><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[144, 34], [146, 58], [146, 71], [146, 79], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[â¡¢, ðŁķ¢, ðŁİij, ãĪª, á¿ļ, áĢı, ðŁİij], [á©ĭ, ðŁĸij, ðŁİij, íĥĻ, Úİ, ðĿij³, ðŁİij], [ÔĪ, á½Ŀ, ðŁİij, âļ£, 里, áĴĮ, ðŁİij], [áłĦ, ìı±, ðŁĶĥ, ðĿĶĵ, ãĪª, ðIJ¤Ķ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_56><DEPTH_8><DEPTH_75><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_9><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_75><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 42], [146, 61], [146, 71], [146, 79], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[á©ĭ, ðŁĸij, ðŁİij, íĥĻ, Úİ, ðĿij³, ðŁİij], [ÔĪ, á½Ŀ, ðŁİij, âļ£, 里, áĴĮ, ðŁİij], [áłĦ, ìı±, ðŁĶĥ, ðĿĶĵ, ãĪª, ðIJ¤Ķ, ðŁİij], [áłĦ, áĪ¨, âĦ¬, âĺµ, à²Ł, Ȳ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_69><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 48], [146, 64], [146, 73], [146, 81], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ÔĪ, á½Ŀ, ðŁİij, âļ£, 里, áĴĮ, ðŁİij], [áłĦ, ìı±, ðŁĶĥ, ðĿĶĵ, ãĪª, ðIJ¤Ķ, ðŁİij], [áłĦ, áĪ¨, âĦ¬, âĺµ, à²Ł, Ȳ, ðŁİij], [áĴĮ, à½ħ, á¡Į, à²Ł, ðIJ¤Ķ, áī¨, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_32><DEPTH_8><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 54], [146, 64], [146, 73], [146, 81], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, ìı±, ðŁĶĥ, ðĿĶĵ, ãĪª, ðIJ¤Ķ, ðŁİij], [áłĦ, áĪ¨, âĦ¬, âĺµ, à²Ł, Ȳ, ðŁİij], [áĴĮ, à½ħ, á¡Į, à²Ł, ðIJ¤Ķ, áī¨, ðŁİij], [áĶħ, Õĥ, Ѩ, Ȳ, íģ», áĶĬ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_8><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 58], [146, 67], [148, 74], [146, 81], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áłĦ, áĪ¨, âĦ¬, âĺµ, à²Ł, Ȳ, ðŁİij], [áĴĮ, à½ħ, á¡Į, à²Ł, ðIJ¤Ķ, áī¨, ðŁİij], [áĶħ, Õĥ, Ѩ, Ȳ, íģ», áĶĬ, ðŁİij], [áĴĮ, áĶŃ, ê¸ij, ðĿĵŀ, ì³ħ, áĶĬ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_28><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 61], [146, 70], [148, 74], [146, 81], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĴĮ, à½ħ, á¡Į, à²Ł, ðIJ¤Ķ, áī¨, ðŁİij], [áĶħ, Õĥ, Ѩ, Ȳ, íģ», áĶĬ, ðŁİij], [áĴĮ, áĶŃ, ê¸ij, ðĿĵŀ, ì³ħ, áĶĬ, ðŁİij], [áĴĮ, á¿IJ, ìĭ², ï¨Ĥ, ìľ¾, áĶħ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_75><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_26><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_30><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 64], [146, 71], [148, 76], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĶħ, Õĥ, Ѩ, Ȳ, íģ», áĶĬ, ðŁİij], [áĴĮ, áĶŃ, ê¸ij, ðĿĵŀ, ì³ħ, áĶĬ, ðŁİij], [áĴĮ, á¿IJ, ìĭ², ï¨Ĥ, ìľ¾, áĶħ, ðŁİij], [Ýĵ, ⤦, ìı±, Ýĵ, ï¤Ĩ, áĬĴ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_56><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_26><DEPTH_30><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 67], [146, 71], [148, 76], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĴĮ, áĶŃ, ê¸ij, ðĿĵŀ, ì³ħ, áĶĬ, ðŁİij], [áĴĮ, á¿IJ, ìĭ², ï¨Ĥ, ìľ¾, áĶħ, ðŁİij], [Ýĵ, ⤦, ìı±, Ýĵ, ï¤Ĩ, áĬĴ, ðŁİij], [ì»ģ, íģ», ìı±, ðIJ¤Ķ, â¡¢, âļ£, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_103><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_75><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 70], [146, 73], [146, 79], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[áĴĮ, á¿IJ, ìĭ², ï¨Ĥ, ìľ¾, áĶħ, ðŁİij], [Ýĵ, ⤦, ìı±, Ýĵ, ï¤Ĩ, áĬĴ, ðŁİij], [ì»ģ, íģ», ìı±, ðIJ¤Ķ, â¡¢, âļ£, ðŁİij], [à²Ł, áłĤ, ⼤, áĬĴ, ðĿĵ°, áģ¼, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_69><DEPTH_56><DEPTH_75><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_75><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_26><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_9><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 71], [148, 74], [146, 79], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[Ýĵ, ⤦, ìı±, Ýĵ, ï¤Ĩ, áĬĴ, ðŁİij], [ì»ģ, íģ», ìı±, ðIJ¤Ķ, â¡¢, âļ£, ðŁİij], [à²Ł, áłĤ, ⼤, áĬĴ, ðĿĵ°, áģ¼, ðŁİij], [íĵ®, à´´, êĻĭ, á¸ĥ, áĢı, Ȳ, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_75><DEPTH_8><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_30><DEPTH_8><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_69><DEPTH_56><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_26><DEPTH_26><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_26><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_8><DEPTH_75><DEPTH_32><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_26><DEPTH_32><DEPTH_28><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_28><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[146, 73], [148, 76], [146, 81], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[ì»ģ, íģ», ìı±, ðIJ¤Ķ, â¡¢, âļ£, ðŁİij], [à²Ł, áłĤ, ⼤, áĬĴ, ðĿĵ°, áģ¼, ðŁİij], [íĵ®, à´´, êĻĭ, á¸ĥ, áĢı, Ȳ, ðŁİij], [ìĨĬ, áĮ½, ìī¡, áĢı, ÔĪ, Ý¥, ðŁİij]]." ] }
null
{ "from": [ "human", "gpt" ], "value": [ "The task is pick up the yellow cup. What is the action that the robot should take. To figure out the action that the robot should take to pick up the yellow cup, let's think through it step by step. First, what is the depth map for the first image? Second, how many subtasks are needed to complete this task, what is the semantic description of each subtask, and what are the goal positions for each subtask? Third, what is the trajectory of the end effector in the first image to reach the next subtask goal? Based on the depth map of the first image, the semantic description and goal position of each subtask, the trajectory of the end effector in the first image, along with other images from different camera views as additional information, what is the action that the robot should take?", "The depth map of the first image is <DEPTH_START><DEPTH_26><DEPTH_8><DEPTH_56><DEPTH_75><DEPTH_84><DEPTH_125><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_103><DEPTH_8><DEPTH_8><DEPTH_101><DEPTH_101><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_32><DEPTH_101><DEPTH_56><DEPTH_32><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_75><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_84><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_101><DEPTH_32><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_26><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_8><DEPTH_26><DEPTH_75><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_8><DEPTH_32><DEPTH_75><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_56><DEPTH_56><DEPTH_101><DEPTH_101><DEPTH_32><DEPTH_26><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_101><DEPTH_56><DEPTH_101><DEPTH_56><DEPTH_75><DEPTH_32><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_25><DEPTH_25><DEPTH_116><DEPTH_25><DEPTH_8><DEPTH_30><DEPTH_30><DEPTH_END>. The number of subtasks is 2. The subtask goals are: approach and grasp the yellow cup at [146, 83] and pick up the yellow cup at [159, 0]. The trajectory of the end effector in the first image is [[148, 74], [148, 76], [146, 81], [146, 83], [146, 83]]. Based on these information, along with other images from different camera views as additional information, the action that the robot should take is [[à²Ł, áłĤ, ⼤, áĬĴ, ðĿĵ°, áģ¼, ðŁİij], [íĵ®, à´´, êĻĭ, á¸ĥ, áĢı, Ȳ, ðŁİij], [ìĨĬ, áĮ½, ìī¡, áĢı, ÔĪ, Ý¥, ðŁİij], [íĭį, áłĤ, ìĿ©, áĴĮ, à²Ł, ðĿļģ, ðŁİij]]." ] }
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Robot Manipulation Dataset with Trajectory Annotations (Deluxe Edition)

Dataset Description

This enhanced dataset contains robot manipulation demonstrations with:

  • Image observations: RGB images from robot camera
  • Wrist camera views: End-effector perspective images
  • Rich conversations: Task descriptions with semantic subtask annotations
  • Trajectory annotations: Visual grounding through trajectory points
  • Reverse trajectories: Return-to-initial-position augmented data

Dataset Structure

Fields

  • image: Primary camera RGB image
  • wrist: Wrist/end-effector camera image
  • conversations: Structured task dialogue
    • Task description with semantic subtask decomposition
    • Depth map information
    • Trajectory predictions
    • Action token sequences
  • annotation: Trajectory coordinates (null for standard frames, populated for annotated frames)

Data Composition

This dataset combines:

  1. Forward task data: Complete task demonstrations with semantic descriptions
  2. Reverse trajectory data: Return-to-initial-position augmentation (shifted indices)

Total samples: ~42K+ (21K+ forward + 21K+ reverse)

Usage 

from datasets import load_dataset

# Load the dataset
dataset = load_dataset("DannyJun/real_deluxe_v2")
train_data = dataset['train']

# Access sample
sample = train_data[0]
print("Task:", sample['conversations']['value'][0])
print("Annotation:", sample['annotation'])

Example Conversation Format

Human: The task is pick up the book and place it in the back compartment of the caddy. What is the action that the robot should take? To figure out the action that the robot should take, let's think through it step by step...

Assistant: The depth map of the first image is .... The number of subtasks is 2. The subtask goals are: pick up the book at [116, 49] and place the book in the back compartment of the caddy at [128, 71]. The trajectory of the end effector in the first image is [[116, 49], [120, 55], [128, 71]]...

Tasks Included

  • Object placement and manipulation
  • Container operations (microwave, drawer, cabinet)
  • Multi-object coordination
  • Sequential manipulation tasks
  • Reverse trajectory tasks (return to initial position)

Citation 

@dataset{robot_manipulation_deluxe,
  title={Robot Manipulation Dataset with Trajectory Annotations (Deluxe Edition)},
  year={2024},
  publisher={Hugging Face},
  url={https://huggingface.co/datasets/DannyJun/real_deluxe_v2}
}

License

MIT License

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