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PNNL Parking Lot 1 and 2 and Pizza sequences

 

Publications

[1] Part-based Multiple-Person Tracking with Partial Occlusion Handling Guang Shu, Afshin Dehghan, Omar Oreifej, Emily Hand, Mubarak Shah In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’12)

[2] GMMCP-Tracker:Globally Optimal Generalized Maximum Multi Clique Problem for Multiple Object Tracking Afshin Dehghan, Shayan Modiri Assari and Mubarak Shah In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’15)

Overview

PNNL_Parking lot 1 sequence is a modestly crowded scene including groups of pedestrians walking in queues. The challenges in this data set include long-term inter-objects occlusions, and similarity of appearance among the people in the scene. This sequence consists of 1,000 frames of a relatively crowded scene with up to 14 pedestrians. The frame resolution in this data set is 1920 X 1080, and the frame rate of 29 fps.

The challenges in PNNL Parking Lot 2 include long-term inter-objects occlusions, abrupt motion, and similarity of appearance among the people in the scene. This sequence consists of 1,500 frames of a relatively crowded scene with up to 13 pedestrians. The frame resolution in this data set is 1920 X 1080, and the frame rate of 30 fps.

Parking-lot Pizza contains a semi-crowded scenario with a lot of occlusions, pose variations and abrupt motions. A high-resolution surveillance camera (4000×3000) is used to record the sequence and the frame rate is 6 fps.

Data Set Details

The ground truth and detection output is provided in comma separation format (CSV).
frameNumber, personNumber, bodyLeft, bodyTop, bodyRight, bodyBottom
personNumber – A unique identifier for the individual person
frameNumber – The frame number
bodyLeft,bodyTop,bodyRight,bodyBottom – The body bounding box in pixels

Evaluations

  • Parking Lot 1
  • Parking Lot 2
  • Parking Lot Pizza

[1] Guang Shu, Afshin Dehghan, Omar Oreifej, Emily Hand and Mubarak Shah, Part-based Multiple-Person Tracking with Partial Occlusion Handling, Computer Visiona and Pattern Recognition 2012, Providence, RI, June 16-21, 2012.
[2] Multiple target tracking based on undirected hierarchical relation hypergraph. In CVPR, 2014.
[3] Tang, S., Andriluka, M., Milan, A., Schindler, K., Roth, S., Schiele, B.: Learning 765 people detectors for tracking in crowded scenes.
[4] A. Zamir, A. Dehghan, and M. Shah. GMCP-Tracker: Global Multi-object Tracking Using Generalized Minimum Clique Graphs.ECCV, 2012.
[5] Afshin Dehghan, Yicong Tian, Philip. H. S. Torr and Mubarak Shah, Target Identity-aware Network Flow for Online Multiple Target Tracking IEEE International Conference on Computer Vision and Pattern Recognition, 2015. [6] Ergys Ristani, Carlo Tomasi . Tracking Multiple People Online and in Real Time, ACCV2014.
[7] Afshin Dehghan, Shayan Modiri Assari and Mubarak Shah, GMMCP-Tracker:Globally Optimal Generalized Maximum Multi Clique Problem for Multiple Object Tracking.
[8] Subgraph Decomposition for Multi-Target Tracking, Siyu Tang1 Bjoern Andres1 Mykhaylo Andriluka1,2 Bernt Schiele1, CVPR15.

Related Publications

[1] GMMCP-Tracker:Globally Optimal Generalized Maximum Multi Clique Problem for Multiple Object Tracking, Afshin Dehghan, Shayan Modiri Assari and Mubarak Shah, In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’15)

[2] Target Identity-aware Network Flow for Online Multiple Target Tracking, Afshin Dehghan, Yicong Tian, Philip. H. S. Torr and Mubarak Shah, In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’15)

[3] Part-based Multiple-Person Tracking with Partial Occlusion Handling, Guang Shu, Afshin Dehghan, Omar Oreifej, Emily Hand, Mubarak Shah, In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’12)

[4] GMCP-Tracker: Global Multi-object Tracking Using Generalized Minimum Clique Graphs, Amir Roshan Zamir, Afshin Dehghan and Mubarak Shah, In proceedings of European Conference on Computer Vision 2012 (ECCV’12)

[5] Improving an Object Detector and Extracting Regions using Superpixels Guang Shu, Afshin Dehghan and Mubarak Shah, In proceedings of IEEE Conference on Computer Vision and Pattern Recognition (CVPR’13)

Acknowledgment

This data set is provided by the Pacific Northwest National Laboratory (PNNL) in Richland, Washington.