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 Dr. 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]

[May 6, 2019]
Congratulations to Di for defending his thesis!
[Nov 1, 2018]
Congratulations to Lei for defending her thesis!
[Jun 28, 2016]
Congratulations to Sijin for defending his thesis!
[Jun 25, 2016]
Congratulations to Adeel for winning a “Best Research Paper Award 2013/14” from the Higher Education Commission (HEC) of Pakistan for his TPAMI 2013 paper!

Recent Publications [more]

ButtonTips: Designing Web Buttons with Suggestions.
Dawei Liu, Ying Cao, Ryson W.H. Lau, and Antoni B. Chan,
In: IEEE International Conference on Multimedia and Expo (ICME), Shanghai, to appear Jul 2019.
Describing like Humans: on Diversity in Image Captioning.
Qingzhong Wang and Antoni B. Chan,
In: IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) , Long Beach, to appear, June 2019.
Residual Regression with Semantic Prior for Crowd Counting.
Jia Wan, Wenhan Luo, Baoyuan Wu, Antoni B. Chan, and Wei Liu,
In: IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) , Long Beach, to appear, June 2019.
Density-Preserving Hierarchical EM Algorithm: Simplifying Gaussian Mixture Models for Approximate Inference.
Lei Yu, Tianyu Yang, and Antoni B. Chan,
IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), 41(6):1323-1337, June 2019.
Beyond Counting: Comparisons of Density Maps for Crowd Analysis Tasks - Counting, Detection, and Tracking.
Di Kang, Zheng Ma, and Antoni B. Chan,
IEEE Trans. on Circuits and Systems for Video Technology (TCSVT), 29(5):1408-1422, May 2019.
Hidden Markov modelling of eye movements in social anxiety: a data-driven machine-learning approach to eye-tracking research in psychopathology.
Frederick H.F. Chan, Tom Barry, Antoni B. Chan, and Janet H. Hsiao,
In: 2019 ADAA Annual Conference, Chicago, March 2019.
Individuals with Insomnia Misrecognize Angry Faces as Fearful Faces While Missing the Eyes: An Eye-Tracking Study.
Jinxiao Zhang, Antoni B. Chan, Esther Y.Y. Lau, and Janet H. Hsiao,
SLEEP, 42(2), Feb 2019.
Eye Movement Patterns in Face Recognition are Associated with Cognitive Decline in Older Adults.
Cynthia Y.H. Chan, Antoni B. Chan, Tatia M.C. Lee, and Janet H. Hsiao,
Psychonomic Bulletin & Review, 25(6):2200-2207, Dec 2018.
Hand detection using deformable part models on an egocentric perspective.
Sergio Cruz and Antoni B. Chan,
In: Digital Image Computing: Techniques and Applications (DICTA), Canberra, Dec 2018.
Gated Hierarchical Attention for Image Captioning.
Qingzhong Wang and Antoni B. Chan,
In: Asian Conference on Computer Vision (ACCV), Perth, Dec 2018.

Recent Project Pages [more]

Simplification of Gaussian Mixture Models

An algorithm is proposed to simplify the Gaussian Mixture Models into a reduced mixture model with fewer mixture components, by maximizing a variational lower bound of the expected log-likelihood of a set of virtual samples.

Lei Yu, Tianyu Yang, and Antoni B. Chan, "Approximate Inference for Generic Likelihoods via Density-Preserving GMM Simplification." In: NIPS 2016 Workshop on Advances in Approximate Bayesian Inference, Barcelona, Dec 2016.
Lei Yu, Tianyu Yang, and Antoni B. Chan, "Density-Preserving Hierarchical EM Algorithm: Simplifying Gaussian Mixture Models for Approximate Inference." IEEE Trans. on Pattern Analysis and Machine Intelligence (TPAMI), 41(6):1323-1337, June 2019.

Convolutional Decoders for Image Captioning

RNN-based models dominate the field of image captioning, however, (1) RNNs have to be calculated step-by-step, which is not easily parallelized. (2) There is a long path between the start and end of the sentence using RNNs. Tree structures can make a shorter path, but trees require special processing. (3) RNNs only learn single-level representations at each time step, while convolutional decoders are able to learn multi-level representations of concepts, and each of them should corresponds to an image area, which should benefit word prediction.

Qingzhong Wang and Antoni B. Chan, "CNN+CNN: Convolutional Decoders for Image Captioning." In: IEEE Computer Vision and Pattern Recognition: Language and Vision Workshop, Salt Lake City, Jun 2018.
Qingzhong Wang and Antoni B. Chan, "Gated Hierarchical Attention for Image Captioning." In: Asian Conference on Computer Vision (ACCV), Perth, Dec 2018.

Beyond Counting: Comparisons of Density Maps for Crowd Analysis Tasks – Counting, Detection, and Tracking

We propose CNN-pixel and FCNN-skip to produce an original-resolution density map. In our experiments, we found that the lower-resolution density maps sometimes have better counting performance. In contrast, the original-resolution density maps improved localization tasks, such as detection and tracking, compared to bilinear upsampling the lower-resolution density maps.

Di Kang, Zheng Ma, and Antoni B. Chan, "Beyond Counting: Comparisons of Density Maps for Crowd Analysis Tasks - Counting, Detection, and Tracking." IEEE Trans. on Circuits and Systems for Video Technology (TCSVT), 29(5):1408-1422, May 2019.