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To facilitate the research of vehicle re-identification (Re-Id), we build a large-scale benchmark dateset for vehicle Re-Id in the real-world urban surveillance scenario, named "VeRi". The featured properties of VeRi include:
- It contains over 50,000 images of 776 vehicles captured by 20 cameras covering an 1.0 km^2 area in 24 hours, which makes the dataset scalable enough for vehicle Re-Id and other related research.
- The images are captured in a real-world unconstrained surveillance scene and labeled with varied attributes, e.g. BBoxes, types, colors, and brands. So complicated models can be learnt and evaluated for vehicle Re-Id.
- Each vehicle is captured by 2 ∼ 18 cameras in different viewpoints, illuminations, resolutions, and occlusions, which provides high recurrence rate for vehicle Re-Id in practical surveillance environment.
- It is also labeled with sufficient license plates and spatiotemporal information, such as the BBoxes of plates, plate strings, the timestamps of vehicles, and the distances between neighbouring cameras.
Recently, we release a large-scale Multi-grained Vehiclde Parsing dataset in the wild. Please refer to MVP to download it!
To encourage related research, we will provide the dataset according to your request. Please email your full name and affiliation to the contact person (xinchenliu at bupt dot cn). We ask for your information only to make sure the dataset is used for non-commercial purposes. We will not give it to any third party or publish it publicly anywhere.
If you use the dataset, please kindly cite the following paper:
- Xinchen Liu, Wu Liu, Huadong Ma, Huiyuan Fu: Large-scale vehicle re-identification in urban surveillance videos. ICME 2016: 1-6 (Best Student Paper Award, Citation=178)
- Xinchen Liu, Wu Liu, Tao Mei, Huadong Ma: A Deep Learning-Based Approach to Progressive Vehicle Re-identification for Urban Surveillance. ECCV (2) 2016: 869-884 (Citation=126)
- Xinchen Liu, Wu Liu, Tao Mei, Huadong Ma: PROVID: Progressive and Multimodal Vehicle Reidentification for Large-Scale Urban Surveillance. IEEE Trans. Multimedia 20(3): 645-658 (2018) (Citation=102)
Now, the FastReID toolbox has supported the VeRi dataset with powerful models. Please refer to FsatReID.
Reference | Year | mAP | Rank-1 | Rank-5 |
---|---|---|---|---|
[1] | 2016 | 19.92 | 59.65 | 75.27 |
[2] | 2016 | 27.77 | 61.44 | 78.78 |
[3] | 2017 | 58.27 | 83.49 | 90.04 |
[4] | 2017 | 57.4 | 86.59 | 92.85 |
[5] | 2017 | 58.78 | 86.41 | 92.91 |
[6] | 2017 | 51.42 | 68.30 | 89.70 |
[7] | 2017 | 60.47 | 85.52 | 95.11 |
[8] | 2018 | 53.42 | 81.56 | 95.11 |
[9] | 2018 | 59.47 | 96.24 | 98.97 |
[10] | 2018 | 61.5 | 88.6 | 94 |
[11] | 2018 | 53.53 | 82.9 | 91.6 |
[12] | 2018 | 61.32 | 85.92 | 91.84 |
[13] | 2018 | 53.45 | 83.49 | 92.55 |
[14] | 2018 | 61.11 | 89.27 | 94.76 |
[15] | 2018 | 53.35 | 82.06 | 92.31 |
[16] | 2018 | 49.3 | 88.56 | - |
[17] | 2018 | 64.78 | 88.62 | 94.52 |
[18] | 2018 | 25.12 | 60.83 | 78.55 |
[19] | 2018 | 60.49 | 77.33 | 88.27 |
[20] | 2019 | 62.62 | 90.58 | 97.14 |
[21] | 2019 | 57.44 | 84.39 | 94.05 |
[22] | 2019 | 67.55 | 90.23 | 96.42 |
[23] | 2019 | 61.83 | 88.5 | 94.46 |
[24] | 2019 | 67.6 | 90.2 | - |
[25] | 2019 | 55.49 | 84.27 | 92.43 |
[26] | 2019 | 74.3 | 94.3 | 98.7 |
[27] | 2019 | 72.5 | 93.3 | 97.1 |
[28] | 2019 | 71.88 | 92.86 | 96.97 |
[29] | 2019 | 66.34 | 89.78 | 95.99 |
[30] | 2019 | 66.35 | 90.17 | 94.34 |
[31] | 2019 | 61.7 | 89.4 | 95.0 |
[32] | 2020 | 75.9 | 95.8 | - |
[33] | 2020 | 79.5 | 95.6 | 98.4 |
[34] | 2020 | 68.9 | 94.0 | 97.6 |
[35] | 2020 | 79.6 | 96.4 | 98.6 |
[36] | 2020 | 78.6 | 95.4 | 98.4 |
[37]* | 2020 | 83.41 | 96.78 | - |
Ours | 2020 | 81.9 | 97.9 | 99.0 |
[38] | 2021 | 79.5 | 96.0 | 98.5 |
[39]** | 2021 | 82.0 | 97.1 | - |
[40] | 2021 | 81.0 | 96.7 | 98.6 |
* This method [37] uses large additional data from other datasets.
** This method [39] uses 384x128 input, camera labels, and viewpoint labels.
[1] Liu, Xinchen, et al. "Large-scale vehicle re-identification in urban surveillance videos." ICME 2016.
[2] Liu, Xinchen, et al. "A deep learning-based approach to progressive vehicle re-identification for urban surveillance." ECCV 2016.
[3] Liu, Wu, et al. "Beyond human-level license plate super-resolution with progressive vehicle search and domain priori GAN." ACMMM 2017.
[4] Shen, Yantao, et al. "Learning deep neural networks for vehicle re-id with visual-spatio-temporal path proposals." ICCV 2017.
[5] Zhang, Yiheng, Dong Liu, and Zheng-Jun Zha. "Improving triplet-wise training of convolutional neural network for vehicle re-identification." ICME 2017.
[6] Wang, Zhongdao, et al. "Orientation invariant feature embedding and spatial temporal regularization for vehicle re-identification." ICCV 2017.
[7] Tang, Yi, et al. "Multi-modal metric learning for vehicle re-identification in traffic surveillance environment." ICIP 2017.
[8] Liu, Xinchen, et al. "PROVID: Progressive and multimodal vehicle reidentification for large-scale urban surveillance." IEEE TMM 20.3 (2018): 645-658.
[9] Bai, Yan, et al. "Group-Sensitive Triplet Embedding for Vehicle Reidentification." IEEE TMM 20.9 (2018): 2385-2399.
[10] Liu, Xiaobin, et al. "Ram: a region-aware deep model for vehicle re-identification." ICME 2018.
[11] Zhu, Jianqing, et al. "Joint feature and similarity deep learning for vehicle re-identification." IEEE Access 6 (2018): 43724-43731.
[12] Zhou, Yi, and Ling Shao. "Aware attentive multi-view inference for vehicle re-identification." CVPR 2018.
[13] Zhu, Jianqing, et al. "A shortly and densely connected convolutional neural network for vehicle re-identification." ICPR 2018.
[14] Jiang, Na, et al. "Multi-Attribute Driven Vehicle Re-Identification with Spatial-Temporal Re-Ranking." ICIP 2018.
[15] Wu, Chih-Wei, et al. "Vehicle re-identification with the space-time prior." CVPRW 2018.
[16] Kanaci, Aytac, Xiatian Zhu, and Shaogang Gong. "Vehicle Re-Identification in Context." arXiv preprint arXiv:1809.09409(2018).
[17] Wu, Fangyu, et al. "Joint Semi-supervised Learning and Re-ranking for Vehicle Re-identification." ICPR 2018.
[18] Zhou, Yi, Li Liu, and Ling Shao. "Vehicle re-identification by deep hidden multi-view inference." IEEE TIP 27.7 (2018): 3275-3287.
[19] Zhou, Yi, and Ling Shao. "Vehicle Re-Identification by Adversarial Bi-Directional LSTM Network." WACV 2018.
[20] Liu, Xinchen, et al. "PVSS: A Progressive Vehicle Search System for Video Surveillance Networks." arXiv preprint arXiv:1901.03062 (2019).
[21] Lou, Yihang, et al. "Embedding Adversarial Learning for Vehicle Re-Identification." IEEE TIP (2019).
[22] Kumar, Ratnesh, et al. "Vehicle Re-Identification: an Efficient Baseline Using Triplet Embedding." arXiv preprint arXiv:1901.01015 (2019).
[23] Zhu, Jianqing, et al. "Vehicle Re-Identification Using Quadruple Directional Deep Learning Features." IEEE TITS (2019).
[24] Tang, Zheng, et al. "CityFlow: A City-Scale Benchmark for Multi-Target Multi-Camera Vehicle Tracking and Re-Identification." CVPR (2019).
[25] Lou, Yihang, et al. "VERI-Wild: A Large Dataset and a New Method for Vehicle Re-Identification in the Wild." IEEE CVPR (2019).
[26] He, Bing, et al. "Part-regularized Near-duplicate Vehicle Re-identification." IEEE CVPR (2019).
[27] Qian, Jingjing, et al. "Stripe-based and Attribute-aware Network: A Two-Branch Deep Model for Vehicle Re-identification." arXiv (2019).
[28] Tang, Zheng, et al. "PAMTRI: Pose-Aware Multi-Task Learning for Vehicle Re-Identification Using Highly Randomized Synthetic Data." IEEE ICCV (2019).
[29] Chu, Ruihang, et al. "Vehicle Re-identification with Viewpoint-aware Metric Learning." IEEE ICCV (2019).
[30] Pirazh Khorramshahi et al. "A Dual-Path Model With Adaptive Attention For Vehicle Re-Identification." IEEE ICCV (2019).
[31] Xiaobin Liu, Shiliang Zhang, Xiaoyu Wang, Richang Hong, Qi Tian: Group-Group Loss-Based Global-Regional Feature Learning for Vehicle Re-Identification. IEEE TIP (2020).
[32] Xin Jin, Cuiling Lan, Wenjun Zeng, Zhibo Chen: Uncertainty-Aware Multi-Shot Knowledge Distillation for Image-Based Object Re-Identification. AAAI 2020: 11165-11172
[33] Dechao Meng, et al. Parsing-based View-aware Embedding Network for Vehicle Re-Identification. IEEE CVPR (2020).
[34] Tsai-Shien Chen, et al. Orientation-aware Vehicle Re-identification with Semantics-guided Part Attention Network. ECCV (2020).
[35] Pirazh Khorramshahi, et al. The Devil is in the Details: Self-Supervised Attention for Vehicle Re-Identification. ECCV (2020).
[36] Xinchen Liu, et al. Beyond the Parts: Learning Multi-view Cross-part Correlation for Vehicle Re-identification. ACM MM (2020).
[37] Zhedong Zheng, et al. VehicleNet: Learning Robust Visual Representation for Vehicle Re-identification. IEEE Trans. Multimedia (2020).
[38] Wei Sun, et al. TBE-Net: A Three-Branch Embedding Network With Part-Aware Ability and Feature Complementary Learning for Vehicle Re-Identification . IEEE Transactions on Intelligent Transportation Systems (2021).
[39] Shuting He, et al. TransReID: Transformer-based Object Re-Identification. ICCV (2021).
[40] Ming Li, et al. Self-supervised Geometric Features Discovery via Interpretable Attention for Vehicle Re-Identification and Beyond. ICCV (2021).
Last modified in Dec, 2021