VISAL | Video, Image, and Sound Analysis Lab

About

Welcome to the Video, Image, and Sound Analysis Lab (VISAL) at the City University of Hong Kong! The lab is directed by Prof. Antoni Chan in the Department of Computer Science.

Our main research activities include:

Computer Vision, Surveillance
Machine Learning, Pattern Recognition
Computer Audition, Music Information Retrieval
Eye Gaze Analysis

For more information about our current research, please visit the projects and publication pages.

Opportunities for graduate students and research assistants – if you are interested in joining the lab, please check this information.

Latest News [more]

[Jun 16, 2023]
Congratulations to Hui for defending her thesis!
[Jan 19, 2023]
Congratulations to Xueying for defending her thesis!
[Dec 9, 2022]

Congratulations to Ziquan for defending his thesis!
[Nov 30, 2022]
Call for Papers: Special Issue on “Applications of artificial intelligence, computer vision, physics and econometrics modelling methods in pedestrian traffic modelling and crowd safety” in Transportation Research Part C: Emerging Technologies. Deadline April 30th, 2023.

Recent Publications [more]

Gradient-based Instance-Specific Visual Explanations for Object Specification and Object Discrimination.
Chenyang Zhao, Janet H. Hsiao, and Antoni B. Chan,
IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), to appear 2024.
A Fixed-Point Approach to Unified Prompt-Based Counting.
Wei Lin and Antoni B. Chan,
In: AAAI Conference on Artificial Intelligence (AAAI), Vancouver, Feb 2024.
Multi-view People Detection in Large Scenes via Supervised View-wise Contribution Weighting.
Qi Zhang, Yunfei Gong, Daijie Chen, Antoni B. Chan, and Hui Huang,
In: AAAI Conference on Artificial Intelligence (AAAI), Feb 2024. [project]
Retrieval-Augmented Multiple Instance Learning.
Yufei Cui, Ziquan Liu, Yixin Chen, Yuchen Lu, Xinyue Yu, Xue Liu, Tei-Wei Kuo, Miguel RD Rodrigues, Chun Jason Xue, and Antoni B. Chan,
In: Neural Information Processing Systems (NeurIPS), New Orleans, Dec 2023.
Single-Frame-Based Deep View Synchronization for Unsynchronized Multicamera Surveillance.
Qi Zhang and Antoni B. Chan,
IEEE Trans. on Neural Networks and Learning Systems (TNNLS), 34(12):10653-10667, Dec 2023. [code&dataset]
Towards the next generation explainable AI that promotes AI-human mutual understanding.
Janet H. Hsiao and Antoni B. Chan,
In: NeurIPS workshop on XAI in Action: Past, Present, and Future Applications, New Orleans, Dec 2023.
Generalized Characteristic Function Loss for Crowd Analysis in the Frequency Domain.
Weibo Shu, Jia Wan, and Antoni B. Chan,
IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), to appear 2023. [supplemental]
Scalable Video Object Segmentation with Simplified Framework.
Qiangqiang Wu, Tianyu Yang, Wei Wu, and Antoni B. Chan,
In: International Conf. Computer Vision (ICCV), Paris, Oct 2023. [code]
Modeling Noisy Annotations for Point-Wise Supervision.
Jia Wan, Qiangqiang Wu, and Antoni B. Chan,
IEEE Trans. Pattern Analysis and Machine Intelligence (TPAMI), to appear 2023.
Variational Nested Dropout.
Yufei Cui, Yu Mao, Ziquan Liu, Qiao Li, Antoni B. Chan, Xue Liu, Tei-Wei Kuo, and Xue Chun,
IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), 45(8):10519-10534, Aug 2023 (online Feb 2023).

Recent Project Pages [more]

Pareto Optimization for Active Learning under Out-of-Distribution Data Scenarios

We propose a batch-mode Pareto Optimization Active Learning (POAL) framework for Active Learning under Out-of-Distribution data scenarios.

Xueying Zhan, Zeyu Dai, Qingzhong Wang, Qing Li, Haoyi Xiong, Dejing Dou, and Antoni B. Chan, "Pareto Optimization for Active Learning under Out-of-Distribution Data Scenarios." Transactions on Machine Learning Research (TMLR), June 2023.

ODAM: Gradient-based Instance-specific Visual Explanation for Object Detection

We propose the gradient-weighted Object Detector Activation Maps (ODAM), a visualized explanation technique for interpreting the predictions of object detectors, including class score and bounding box coordinates.

Chenyang Zhao and Antoni B. Chan, "ODAM: Gradient-based Instance-Specific Visual Explanations for Object Detection." In: Intl. Conf. on Learning Representations (ICLR), Rwanda, May 2023. [code]
Chenyang Zhao, Janet H. Hsiao, and Antoni B. Chan, "Gradient-based Instance-Specific Visual Explanations for Object Specification and Object Discrimination." IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), to appear 2024.

A Comparative Survey of Deep Active Learning

We present a comprehensive comparative survey of 19 Deep Active Learning approaches for classification tasks.

Xueying Zhan, Qingzhong Wang, Kuan-hao Huang, Haoyi Xiong, Dejing Dou, and Antoni B. Chan, A Comparative Survey of Deep Active Learning. arXiv:2203.13450, Mar 2023.

A Comparative Survey: Benchmarking for Pool-based Active Learning

We introduce an active learning benchmark comprising 35 public datasets and experiment protocols, and evaluate 17 pool-based AL methods.

Xueying Zhan, Huan Liu, Qing Li, and Antoni B. Chan, "A Comparative Survey: Benchmarking for Pool-based Active Learning." In: International Joint Conf. on Artificial Intelligence (IJCAI), Survey Track, Aug 2021.

Calibration-free Multi-view Crowd Counting

We propose a calibration-free multi-view crowd counting (CF-MVCC) method, which obtains the scene-level count as a weighted summation over the predicted density maps from the camera-views, without needing camera calibration parameters.

Qi Zhang and Antoni B. Chan, "Calibration-free Multi-view Crowd Counting." In: European Conference on Computer Vision (ECCV), Tel Aviv, Oct 2022. [supplemental]

Recent Datasets and Code [more]

Modeling Eye Movements with Deep Neural Networks and Hidden Markov Models (DNN+HMM)

This is the toolbox for modeling eye movements and feature learning with deep neural networks and hidden Markov models (DNN+HMM).

Files: download here
Project page
If you use this toolbox please cite:

Understanding the role of eye movement consistency in face recognition and autism through integrating deep neural networks and hidden Markov models.
Janet H. Hsiao, Jeehye An, Veronica Kit Sum Hui, Yueyuan Zheng, and Antoni B. Chan,
npj Science of Learning, 7:28, Oct 2022.

Dolphin-14k: Chinese White Dolphin detection dataset

A dataset consisting of Chinese White Dolphin (CWD) and distractors for detection tasks.

Files: Google Drive, Readme
Project page
If you use this dataset please cite:

Chinese White Dolphin Detection in the Wild.
Hao Zhang, Qi Zhang, Phuong Anh Nguyen, Victor Lee, and Antoni B. Chan,
In: ACM Multimedia Asia (MMAsia), Gold Coast, Australia, Dec 2021.

Crowd counting: Zero-shot cross-domain counting

Generalized loss function for crowd counting.

Files: github
Project page
If you use this toolbox please cite:

Dynamic Momentum Adaptation for Zero-Shot Cross-Domain Crowd Counting.
Qiangqiang Wu, Jia Wan, and Antoni B. Chan,
In: ACM Multimedia (MM), Oct 2021.

CVCS: Cross-View Cross-Scene Multi-View Crowd Counting Dataset

Synthetic dataset for cross-view cross-scene multi-view counting. The dataset contains 31 scenes, each with about ~100 camera views. For each scene, we capture 100 multi-view images of crowds.

Files: Google Drive
Project page
If you use this dataset please cite:

Cross-View Cross-Scene Multi-View Crowd Counting.
Qi Zhang, Wei Lin, and Antoni B. Chan,
In: IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR):557-567, Jun 2021.

Crowd counting: Generalized loss function

Generalized loss function for crowd counting.

Files: github
Project page
If you use this toolbox please cite:

A Generalized Loss Function for Crowd Counting and Localization.
Jia Wan, Ziquan Liu, and Antoni B. Chan,
In: IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), Jun 2021.