Dataset Viewer
id
int64 0
7.21k
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stringclasses 2
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stringclasses 2
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stringclasses 20
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3
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1.38k
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0 |
single_view
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fill
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depth_prediction_oc
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scannet
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The camera coordinates show the towel (red point) at 1.0 meters depth. What is the depth of the towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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0.9
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1 |
single_view
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fill
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depth_prediction_oc
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scannet
|
If the center of the chair (red point) is 3.7 meters deep, what is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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3.5
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2 |
single_view
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fill
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depth_prediction_oc
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scannet
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Knowing that the center of chair (red point) is 1.8 meters deep, estimate the depth of bed (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.
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1.6
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3 |
single_view
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fill
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depth_prediction_oc
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scannet
|
Given that toilet paper (red point) is at 1.6 meters, predict the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
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1.5
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4 |
single_view
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fill
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depth_prediction_oc
|
scannet
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The dresser (red point) is placed at a depth of 3.0 meters along the Z-axis(camera coordinate system). Estimate the depth of laundry basket (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.
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2.1
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5 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
Using the chair (red point) depth of 3.4 meters, determine the depth of tv (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.
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3.0
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6 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
The depth of the cabinet (red point) at its center is measured as 1.6 meters. Estimate the depth of the computer tower (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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1.4
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7 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
The range hood (red point) is placed at a depth of 1.8 meters along the Z-axis(camera coordinate system). Estimate the depth of picture (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
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1.9
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8 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
Using sink (red point) at 1.6 meters as a guide, determine the depth of trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.
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1.9
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9 |
single_view
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fill
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depth_prediction_oc
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scannet
|
With trash can (red point) at 1.6 meters, calculate the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.
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1.3
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10 |
single_view
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fill
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depth_prediction_oc
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scannet
|
The monitor (red point) is positioned at 1.6 meters depth. Predict the depth of the keyboard (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.
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1.5
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11 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
If the pillow (red point) is positioned at 2.3 meters, estimate the depth of the armchair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.
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3.1
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12 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
The depth of the towel (red point) is given as 1.2 meters. Use this to estimate the depth of toilet paper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
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1.8
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13 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
If the box (red point) is positioned at 1.6 meters, estimate the depth of the box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.
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1.7
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14 |
single_view
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fill
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depth_prediction_oc
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scannet
|
The shower curtain (red point) lies at 1.3 meters depth. Can you estimate the depth of toilet paper holder (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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2.8
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15 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
Knowing the depth of the sink (red point) at 1.1 meters, predict the depth of the bag (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
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1.0
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16 |
single_view
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fill
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depth_prediction_oc
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scannet
|
Knowing the depth of the column (red point) at 2.9 meters, predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.
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3.5
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17 |
single_view
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fill
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depth_prediction_oc
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scannet
|
If the window (red point) is 3.1 meters deep, how deep is the fire extinguisher (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
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2.9
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18 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
With box (red point) at 3.7 meters, calculate the depth of cart (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
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5.4
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19 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
With the picture (red point) depth measured at 2.4 meters, determine the depth of picture (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
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3.4
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20 |
single_view
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fill
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depth_prediction_oc
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scannet
|
If stool (red point) has a depth of 2.2 meters, how deep is the curtain (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.
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2.1
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21 |
single_view
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fill
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depth_prediction_oc
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scannet
|
The bottle (red point) is positioned at 1.2 meters depth. Predict the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
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1.6
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22 |
single_view
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fill
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depth_prediction_oc
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scannet
|
The computer tower (red point) is 2.0 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.
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2.2
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23 |
single_view
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fill
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depth_prediction_oc
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scannet
|
If the center of the cabinet (red point) is 5.1 meters deep, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
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3.0
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24 |
single_view
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fill
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depth_prediction_oc
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scannet
|
Based on the fact that the chair (red point) has a depth of 2.5 meters, what is the depth of the window (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
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6.8
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25 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
If the table (red point) is positioned at 2.6 meters, estimate the depth of the clothes (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
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1.5
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26 |
single_view
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fill
|
depth_prediction_oc
|
scannet
|
If paper bag (red point) has a depth of 1.2 meters, how deep is the bag (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
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1.4
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27 |
single_view
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fill
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depth_prediction_oc
|
scannet
|
With the trash can (red point) having a depth of 3.4 meters, determine the depth of desk (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.
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1.5
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28 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The trash bin (red point) lies at 1.4 meters depth. Can you estimate the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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1.5
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29 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With table (red point) at a depth of 2.8 meters, determine the approximate depth of shelf (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
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2.5
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|
30 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing telephone (red point) is at 1.9 meters, calculate the depth of office chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.
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1.3
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31 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the toilet (red point) depth measured at 0.9 meters, determine the depth of toilet paper (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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1.0
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32 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The box (red point) is situated at 1.9 meters in the camera's Z-axis(camera coordinate system). What is the depth of the box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
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2.1
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33 |
single_view
|
fill
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depth_prediction_oc
|
scannet
|
Knowing that chair (red point) is located at 1.5 meters, what is the depth of refrigerator (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
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5.4
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34 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given trash can (red point) is positioned at 1.6 meters, how deep is the sink (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.
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1.2
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35 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given that chair (red point) is at 4.9 meters, predict the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
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4.3
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36 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the window (red point) at 1.4 meters, determine the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
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1.4
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|
37 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The chair (red point) lies at a depth of 2.7 meters. How deep is the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
2.1
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|
38 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The camera coordinate system positions chair (red point) at a depth of 1.8 meters. Predict the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
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2.3
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|
39 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing that the center of pillow (red point) is 2.0 meters deep, estimate the depth of pillow (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.
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2.3
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40 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given toilet (red point) is positioned at 2.0 meters, how deep is the sink (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.
|
1.0
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41 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The camera coordinate system positions armchair (red point) at a depth of 1.3 meters. Predict the depth of armchair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.
|
2.7
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|
42 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Using the book (red point) depth of 1.9 meters, determine the depth of book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.
|
2.2
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43 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The center of the recycling bin (red point) is positioned at 2.3 meters. Based on this, predict the depth of the center of the stove (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.
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3.6
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44 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The monitor (red point) lies at 2.1 meters depth. Predict the depth of the office chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
|
2.6
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|
45 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing the depth of the shower walls (red point) at 1.8 meters, predict the depth of the towel (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
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1.3
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46 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing that laundry detergent (red point) is located at 1.3 meters, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.
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1.3
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47 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Using person (red point) at 1.1 meters as a guide, determine the depth of monitor (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
2.6
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|
48 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the couch (red point) center located at 2.2 meters in the camera Z-axis(camera coordinate system), determine the depth of backpack (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
|
2.6
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|
49 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The keyboard (red point) at 2.4 meters serves as a depth marker. What is the depth of the computer tower (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.
|
2.1
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50 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The cup (red point) at a depth of 1.4 meters serves as a reference. How deep is the picture (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.
|
1.9
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51 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given that towel (red point) is at 1.0 meters, predict the depth of trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.5
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|
52 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Based on the reference depth of vending machine (red point) at 3.3 meters, calculate the depth of laundry hamper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.
|
1.4
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53 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing blinds (red point) is at 3.0 meters, calculate the depth of monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
1.4
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|
54 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If microwave (red point) has a depth of 2.0 meters, how deep is the kitchen counter (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.
|
2.0
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55 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Using sink (red point) at 1.5 meters as a guide, determine the depth of trash bin (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.
|
1.4
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|
56 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The pillow (red point) lies at a depth of 2.0 meters. How deep is the center of lamp (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.
|
1.8
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|
57 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
At a depth of 2.3 meters, the chair (red point) serves as a reference. What is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
1.4
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|
58 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The camera measures computer tower (red point) at 1.9 meters depth. Predict the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.4
|
|
59 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The chair (red point) lies at a depth of 2.4 meters. How deep is the center of backpack (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.
|
3.9
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|
60 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the table (red point) at 1.3 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.
|
1.6
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|
61 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If the armchair (red point) is positioned at 2.0 meters, estimate the depth of the armchair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
|
2.3
|
|
62 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With bar (red point) at 1.7 meters, calculate the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
1.8
|
|
63 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given backpack (red point) is positioned at 1.0 meters, how deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.
|
2.4
|
|
64 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
At 1.5 meters, the backpack (red point) sets the depth reference. Calculate the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
|
2.6
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|
65 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the telephone (red point) having a depth of 0.8 meters, determine the depth of toilet paper (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.
|
1.0
|
|
66 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
At 3.2 meters, the ottoman (red point) sets the depth reference. Calculate the depth of the pillow (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
2.9
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|
67 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The chair (red point) at 2.1 meters serves as a depth reference. What is the approximate depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.
|
1.9
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|
68 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the stool (red point) center located at 4.9 meters in the camera Z-axis(camera coordinate system), determine the depth of ping pong table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
|
2.4
|
|
69 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Using bag (red point) as a reference with its center at 2.4 meters depth, calculate the depth of case of water bottles (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.
|
1.5
|
|
70 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The camera coordinate system positions bag (red point) at a depth of 2.0 meters. Predict the depth of tube (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
|
1.1
|
|
71 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing case of water bottles (red point) is at 1.6 meters, calculate the depth of bin (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
|
2.7
|
|
72 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The depth of display case (red point) is 4.1 meters. Based on this, what is the approximate depth of table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.
|
2.9
|
|
73 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The camera measures monitor (red point) at 1.9 meters depth. Predict the depth of the monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.
|
2.7
|
|
74 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The headphones (red point) is positioned at 1.6 meters depth. Predict the depth of the book (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
2.2
|
|
75 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Using monitor (red point) at 3.4 meters as a guide, determine the depth of keyboard (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
2.7
|
|
76 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
At a depth of 2.5 meters, the seating (red point) serves as a reference. What is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
|
1.7
|
|
77 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If the whiteboard (red point) lies at a depth of 3.1 meters, how deep is the center of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.
|
2.1
|
|
78 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With the window (red point) center located at 2.7 meters in the camera Z-axis(camera coordinate system), determine the depth of clothes (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.
|
2.3
|
|
79 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The table (red point) at a depth of 2.4 meters serves as a reference. How deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.
|
3.1
|
|
80 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
With book (red point) at a depth of 1.7 meters, determine the approximate depth of book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.
|
1.1
|
|
81 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If shoes (red point) has a depth of 2.4 meters, how deep is the towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.
|
2.1
|
|
82 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The cooking pan (red point) lies at 3.8 meters depth. Predict the depth of the kitchen cabinets (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.
|
2.7
|
|
83 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If the dish rack (red point) lies at a depth of 2.0 meters, how deep is the center of the kitchen cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.
|
1.6
|
|
84 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given the telephone (red point) is located at a depth of 2.5 meters in the Z-axis of the camera coordinate system, how far in depth is the chair (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
3.3
|
|
85 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
If the center of the chair (red point) is 1.3 meters deep, what is the depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.
|
2.6
|
|
86 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The center of the bottle (red point) is positioned at 1.1 meters. Based on this, predict the depth of the center of the container (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.3
|
|
87 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The depth of the chair (red point) at its center is measured as 3.1 meters. Estimate the depth of the chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
5.1
|
|
88 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The box (red point) at a depth of 2.5 meters serves as a reference. How deep is the copier (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.5
|
|
89 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The keyboard (red point) is placed at a depth of 1.1 meters along the Z-axis(camera coordinate system). Estimate the depth of monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.
|
1.1
|
|
90 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The chair (red point) is 2.7 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.9
|
|
91 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The refrigerator (red point) is placed at a depth of 3.7 meters along the Z-axis(camera coordinate system). Estimate the depth of vacuum cleaner (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.
|
2.9
|
|
92 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Knowing that shelf (red point) is located at 2.9 meters, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.
|
2.8
|
|
93 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given shelf (red point) is positioned at 1.8 meters, how deep is the compost bin (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.9
|
|
94 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The chair (red point) is 2.4 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
1.1
|
|
95 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The towel (red point) is situated at 2.1 meters in the camera's Z-axis(camera coordinate system). What is the depth of the shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.
|
2.3
|
|
96 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given kitchen cabinet (red point) is positioned at 3.2 meters, how deep is the kitchen island (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.
|
1.9
|
|
97 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
Given that picture (red point) is at 2.8 meters, predict the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.
|
3.3
|
|
98 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The vending machine (red point) is placed at a depth of 4.6 meters along the Z-axis(camera coordinate system). Estimate the depth of laundry hamper (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.
|
2.4
|
|
99 |
single_view
|
fill
|
depth_prediction_oc
|
scannet
|
The soap dish (red point) lies at a depth of 1.1 meters. How deep is the center of ledge (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.
|
1.1
|
End of preview. Expand
in Data Studio
🎯 Spatial Perception And Reasoning Benchmark (SPAR-Bench)
A benchmark to evaluate spatial perception and reasoning in vision-language models (VLMs), with high-quality QA across 20 diverse tasks.
SPAR-Bench is a high-quality benchmark for evaluating spatial perception and reasoning in vision-language models (VLMs). It covers 20 diverse spatial tasks across single-view, multi-view, and video settings, with a total of 7,207 manually verified QA pairs.
SPAR-Bench is derived from the large-scale SPAR-7M dataset, and specifically designed to support zero-shot evaluation and task-specific analysis
📌 SPAR-Bench at a glance:
- ✅ 7,207 manually verified QA pairs
- 🧠 20 spatial tasks (depth, distance, relation, imagination, etc.)
- 🎥 Supports single-view, multi-view inputs
- 📏 Two evaluation metrics: Accuracy & MRA
- 📷 Available in RGB-only and RGB-D versions
🧱 Available Variants
We provide four versions of SPAR-Bench, covering both RGB-only and RGB-D settings, as well as full-size and lightweight variants:
| Dataset Name | Description |
|---|---|
SPAR-Bench |
Full benchmark (7,207 QA) with RGB images |
SPAR-Bench-RGBD |
Full benchmark with depths, camera pose and intrinsics |
SPAR-Bench-Tiny |
1,000-sample subset (50 QA per task), for fast evaluation or APIs |
SPAR-Bench-Tiny-RGBD |
Tiny version with RGBD inputs |
🔎 Tiny versions are designed for quick evaluation (e.g., APIs, human studies).
💡 RGBD versions include depths, poses, and intrinsics, suitable for 3D-aware models.
To load a different version via datasets, simply change the dataset name:
from datasets import load_dataset
spar = load_dataset("jasonzhango/SPAR-Bench")
spar_rgbd = load_dataset("jasonzhango/SPAR-Bench-RGBD")
spar_tiny = load_dataset("jasonzhango/SPAR-Bench-Tiny")
spar_tiny_rgbd = load_dataset("jasonzhango/SPAR-Bench-Tiny-RGBD")
🕹️ Evaluation
SPAR-Bench supports two evaluation metrics, depending on the question type:
- Accuracy – for multiple-choice questions (exact match)
- Mean Relative Accuracy (MRA) – for numerical-answer questions (e.g., depth, distance)
🧠 The MRA metric is inspired by the design in Thinking in Space, and is tailored for spatial reasoning tasks involving quantities like distance and depth.
We provide an evaluation pipeline in our GitHub repository, built on top of lmms-eval.
📚 Bibtex
If you find this project or dataset helpful, please consider citing our paper:
@article{zhang2025from,
title={From Flatland to Space: Teaching Vision-Language Models to Perceive and Reason in 3D},
author={Zhang, Jiahui and Chen, Yurui and Zhou, Yanpeng and Xu, Yueming and Huang, Ze and Mei, Jilin and Chen, Junhui and Yuan, Yujie and Cai, Xinyue and Huang, Guowei and Quan, Xingyue and Xu, Hang and Zhang, Li},
year={2025},
journal={arXiv preprint arXiv:2503.22976},
}
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