原文链接:RGB-D
This is an incomplete list of datasets which were captured using a Kinect or similar devices. I initially began it to keep track of semantically labelled datasets, but I have now also included some camera tracking and object pose estimation datasets. I ultimately aim to keep track of all Kinect-style datasets available for researchers to use.
Where possible links have been added to project or personal pages. Where I have not been able to find these I have used a direct link to the data
Please send suggestions for additions and corrections to me at m.firman
This page is automatically generated from a YAML file, and was last updated on 26 November, 2014.
These datasets capture objects under fairly controlled conditions. Bigbird is the most advanced in terms of quality of image data and camera poses, while the RGB-D object dataset is the most extensive.
Introduced: ICRA 2011
Device: Kinect v1
Description: 300 instances of household objects, in 51 categories. 250,000 frames in total
Labelling: Category and instance labelling. Includes auto-generated masks, but no exact 6DOF pose information.
Download: Project page
Introduced: ICRA 2014
Device: Kinect v1 and DSLR
Description: 100 household objects
Labelling: Instance labelling. Masks, ground truth poses, registered mesh.
Download: Project page
These datasets include objects arranged in controlled conditions. Clutter may be present. CAD or meshed models of the objects may or may not be provided. Most provide 6DOF ground truth pose for each object.
Introduced: IROS 2012
Device: Kinect v1
Description: 111 RGBD images of stacked and occluding objects on table.
Labelling: Per-pixel segmentation into objects.
Download: Project page
Introduced: 2011
Device: Kinect v1
Description: Around 160 frames of household objects on a board in controlled environment.
Labelling: 6DOF pose for each object, taken from board calibration. Per-pixel labelling.
Download: Project page
Introduced: IJCV 2009
Device: Minolta Vivid 910 (only depth, no RGB!)
Description: 50 frames depicting five objects in various occluding poses. No background clutter in any image.
Labelling: Pose and per-point labelling information. 3D mesh models of each of the 5 objects.
Download: Project page
Introduced: ECCV 2012
Device: Kinect v1
Description: 50 Kinect frames, library of 35 objects
Labelling: 6DOF GT of each object (unsure how this was gathered). No per-pixel labelling.
Download: Direct link
Introduced: ACCV 2012
Device: Kinect v1
Description: 18,000 Kinect images, library of 15 objects.
Labelling: 6DOF pose for each object in each image. No per-pixel labelling.
Download: Project page
Introduced: ICRA 2011
Device: Kinect v1
Description: Real indoor scenes, featuring objects from the RGBD object dataset 'arranged' on tables, countertops etc. Video sequences of 8 scenes.
Labelling: Per-frame bounding boxes for objects from RGBD object dataset. Other objects not labelled.
Download: Project page
Introduced: ICRA 2014
Device: Kinect v1
Description: A second set of real indoor scenes featuring objects from the RGBD object dataset. Video sequences of 14 scenes, together with stitched point clouds and camera pose estimations.
Labelling: Labelling of points in stitched cloud into one of 9 classes (objects and furniture), plus background.
Download: Project page
Introduced: IROS 2012
Device: Kinect v1
Description: Three datasets: Small, with still images. Medium, video data from an office environement. Large, video over several rooms. Large dataset has 7 unique objects seen in 397 frames. Data is in ROS bag format.
Labelling: Ground truth object segmentations.
Download: Project page
Introduced: ICRA 2014
Device: Kinect v1
Description: KinFu meshes of 58 very cluttered indoor scenes.
Labelling: Ground truth binary labelling (object/not object) performed on segments proposed by the algorithm, with no labelling on the mesh.
Download: Project page
Introduced: NIPS 2011
Device: Kinect v1
Description: Multiple RGBD frames from 52 indoor scenes. Stitched point clouds (using RGBDSLAM).
Labelling: Per-point object-level labelling on the stitched clouds.
Download: Project page
Introduced: ICCV 2011 Workshop on 3D Representation and Recognition
Device: Kinect v1
Description: Around 51,000 RGBD frames from indoor scenes such as bedrooms and living rooms. Note that the updated NYU v2 dataset is typically used instead of this earlier version.
Labelling: Dense multi-class labelling for 2283 frames.
Download: Project page
Introduced: ECCV 2012
Device: Kinect v1
Description: ~408,000 RGBD images from 464 indoor scenes, of a somewhat larger diversity than NYU v1. Per-frame accelerometer data.
Labelling: Dense labelling of objects at a class and instance level for 1449 frames. Instance labelling is not carried across scenes. This 1449 subset is the dataset typically used in experiments.
Download: Project page
Introduced: Eurographics 2014
Device: Faro Lidar scanner
Description: Faro lidar scans of ~40 academic offices, with 2-3 scans per office. Each scan is 0.25GB-2GB. Scans include depth and RGB.
Labelling: No labelling present. The labelling shown in the exemplar image is their algorithm output.
Download: Project page
Introduced: ICCV 2013
Device: Kinect v1
Description: Videos of indoor scenes, registered into point clouds.
Labelling: Polygons of semantic class and instance labels on frames propagated through video.
Download: Project page
Introduced: ICCV Workshop on Consumer Depth Cameras in Computer Vision 2011
Device: Kinect v1
Description: Aim is to crowdsource collection of Kinect data, to be included in future releases. Version 1 has 849 images, from 75 scenes.
Labelling: Bounding box labelling at a class level.
Download: Project page
Introduced: IROS 2012
Device: Kinect v1
Description: Many different scenes and scenarios for tracking and mapping, including reconstruction, robot kidnap etc.
Labelling: 6DOF ground truth from motion capture system with 10 cameras.
Download: Project page
Introduced: CVPR 2013
Device: Kinect v1
Description: Kinect video from 7 indoor scenes.
Labelling: 6DOF 'ground truth' from Kinect Fusion.
Download: Project page
Introduced: IROS 2011
Device: Kinect v1
Description: Lab-based setup. The aim seems to be to track the motion of camera.
Labelling: 6DOF ground truth from Vicon system
Download: Project page
Introduced: Workshop on Color-Depth Camera Fusion in Robotics, IROS 2012
Device: Kinect v1
Description: A set of 57 scenes, captured from natural environments and from artificial shapes. Each scene has a 3D mesh, volumetric data and registered depth maps.
Labelling: Frame-to-frame transformations as computed from KinectFusion. The 'office' and 'statue' scenes have LiDAR ground truth.
Download: Project page
Introduced: ICPR 2012
Device: Kinect v1
Description: A few short sequences of different planar scenes captured under various camera motions. Used to demonstrate repeatability of feature points under transformations.
Labelling: Camera motion type. 2D homographies between the planar scene in different images.
Download: Project page
Introduced: ICRA 2014
Device: Kinect v1 (synthesised)
Description: Eight synthetic RGBD video sequences: four from a office scene and four from a living room scene. Simulated camera trajectories are taken from a Kintinuous output from a sensor being moved around a real-world room.
Labelling: Camera trajectories for each video. Geometry of the living room scene as an .obj file.
Download: Project page
Introduced: ICCV 2013
Device: RGBD Laser scanner
Description: Several laser scans taken from each of a European church, city and castle scenes.
Labelling: Results of the authors' registration algorithm.
Download: Project page
Introduced: SIGGRAPH 2013
Device: Xtion Pro Live (Kinect v1 equivalent)
Description: RGBD videos of six indoor and outdoor scenes, together with a dense reconstruction of each scene.
Labelling: Estimated camera pose for each frame. No ground truth pose, so not ideal for quantitative evaluation.
Download: Project page
See also some of the human datasets for body and face tracking.
Introduced: ICCV 2013
Device: Kinect v1
Description: 100 RGBD videos of moving objects such as humans, balls and cars.
Labelling: Per-frame bounding box covering target object only.
Download: Project page
Introduced: PAIR 2011/IJRR 2013
Device: Kinect v1
Description: Videos of humans performing activities
Labelling: Each video given at least one label, such as eating, opening or working on computer. Skeleton joint position and orientation labelled on each frame.
Download: Project page
Introduced: First International Workshop on Re-Identification 2012
Device: Kinect v1
Description: Front and back poses of 79 people walking forward in different poses.
Labelling: In addition to the per-person label, the dataset provides foreground masks, skeletons, 3D meshes and an estimate of the floor.
Download: Project page
Introduced: IJCAI 2013
Device: Kinect v1
Description: Total of 1080 Kinect videos of six people performing one of 10 hand gesture sequences, such as 'triangle' or 'comehere'. Sequences captured under a variety of illumination and background conditions.
Labelling: The gesture being performed in each sequence.
Download: Project page
Introduced: IROS 2011
Device: Kinect v1
Description: 3000+ frames of people walking and standing in a university hallway, captured from three Kinects.
Labelling: Per-frame bounding box annotations of individual people, together with a `visibility' measure.
Download: Project page
Introduced: UbiComp 2013
Device: Kinect v1
Description: Over 4 hours of video of 25 people preparing 2 mixed salads each
Labelling: Accelerometer data from sensors attached to cooking utensils, and labelling of steps in the recipes.
Download: Project page
Introduced: CHI 2012
Device: Kinect v1
Description: 594 sequences and 719,359 frames of 30 people performing 12 gestures.
Labelling: Gesture performed in each video sequence, plus motion tracking of human joint locations.
Download: Project page
Introduced: Computer Vision Theory and Applications 2014
Device: Kinect v1
Description: Videos of people falling over. Consists of 60 sequences recorded with two Kinects.
Labelling: Accelerometer data from device attached to subject.
Download: Project page
Introduced: ICCV Workshops 2011
Device: Kinect v1
Description: 30 different humans each performing the same 12 activities, e.g. 'eat a meal'. Also include a random 'background' activity. All performed in a lab environment. Around 5,000,000 frames in total.
Labelling: Which activity being performed in each sequence.
Download: Project page
Introduced: PAMI 2014
Device: SwissRanger time-of-flight (+ 2D cameras)
Description: 11 different humans performing 17 different activities. Data comes from four calibrated video cameras, 1 time-of-flight camera and (static) 3D laser scans of the actors.
Labelling: 2D and 3D human joint positions, obtained from a Vicon motion capture system.
Download: Project page
Introduced: IJCV 2013
Device: Kinect v1
Description: 15K images of 20 different people moving their heads in different directions.
Labelling: 3D position of the head and its rotation, acquired using 'faceshift' software.
Download: Project page
Introduced: ACCV Workshop on Computer Vision with Local Binary Pattern Variants 2012
Device: Kinect v1
Description: Images of faces captured under laboritory conditions, with different levels of occlusion and illumination, and with different facial expressions.
Labelling: In addition to occlusion and expression type, each image is manually labelled with the position of six facial landmarks.
Download: Project page
Introduced: Biometrics: Theory, Applications and Systems 2013
Device: Kinect v1
Description: 76500 frames of 17 different people, facing the camera against a plain background. Two sets of the data are captured on the real subjects two weeks apart, while the final set consists of a single person wearing a fake face mask of the 17 different people.
Labelling: Which user is in each frame. Which images are real and which are spoofed. Manually labelled eye positions.
Download: Project page
Introduced: IEEE Transactions on Multimedia 2010
Device: Custom active stereo setup
Description: Simultaneous audio and visual recordings of 1109 sentences spoken by 14 different people. Each sentence spoken neutrally and with an emotion. Depth images converted to 3D mesh.
Labelling: Perceived emotions for each recording. Audio labelled with phonemes.
Download: Project page
Introduced: CVPR 2008
Device: Custom active stereo setup
Description: 10,545 images of 20 different people turning their head.
Labelling: Nose potition and coordinate frame at the nose.
Download: Project page