Your search keyword '"Intelligent vision systems"' showing total 3 results

1. An investigation of machine learning-augmented vision systems for human action understanding

Author

Zhang, Chaolong, McCluskey, Lee, Xu, Zhijie, and Peebles, David

Subjects

Computer vision, artificial intelligence, intelligent vision systems

Abstract

Recognising and understanding the complex visual world is the ultimate goal of intelligent vision systems. Computer vision and artificial intelligence have been a long lasting research hotspot with increasing major discoveries and breakthroughs. Human action understanding is one of the crucial topics due to its potential value in both academia and industry. Various steep challenges remain due to semantically implicit and ambiguous definitions of video events and their inherent signal complexities from streamed videos ill-affected by target occlusion and variation of illumination conditions. Classic strategies and techniques for addressing these critical challenges of human action understanding have been investigated in this research. An innovative machine learning-augmented analytical framework for visual behaviour understanding has been proposed. The corresponding operational pipeline first integrates the discrete wavelet transform technique into the dense trajectory model to gain more defining human action features. Then the end-to-end multimodality neural networks are deployed for automatic feature learning and action classification. Performance enhancement has been achieved through the innovation of an efficient two-stream aggregation network by adopting optical flow-guided features and spatial-temporal fusion blocks in a cascaded spatial and temporal space. This research has also addressed the context-biased problem causing long aggravation to the deep-learning community when dealing with generalisation issues. A long-short-term motion encoding scheme is presented to interpret human actions based on their semantic meanings embedded in pose skeletons, which has greatly alleviated the open-set action recognition problem by introducing the Euclidean and Additive Angular Margin Loss. To facilitate the real-world implementation of the devised human action understanding models and techniques, the state-of-the-art and future trends of edge computing have also been explored. Corresponding experiments have demonstrated the viability and effectiveness of open format-based transferrable model generation for rapid and mass deployment in live.

Published

2022

2. In-plane ferroelectric-reconfigured interface towards dual-modal intelligent vision

Author

Yichen Cai, Yizhou Jiang, Xiaofei Yue, Chenxu Sheng, Yajie Qin, Shisheng Xiong, Yiqiang Zhan, Zhi-Jun Qiu, Ran Liu, Wei Chen, Zheng Liu, Laigui Hu, and Chunxiao Cong

Subjects

Two-dimensional materials, Ferroelectric/semiconductor interfaces, Memristors, Intelligent vision systems, Artificial neural networks, Molecular ferroelectrics, Technology

Abstract

With the rapid progress of intelligent vision of the Internet of Things, the gap between the resultant high-level demands and conventional silicon-based hardware architectures is continuously widening. Biomimetic artificial neural networks (ANNs) have recently been proposed to solve this problem. However, they still face the predicaments in uniformity, heterogeneous integration, and hardware implementation, etc. Here we demonstrate an intelligent vision ANN with two-dimensional material (2DM)/molecular ferroelectric (MF) bilayer electronic/optoelectronic memristors. In contrast to conventional ferroelectric transistors, in-plane ferroelectric polarization was also found to enable a simpler two-terminal structure with a lateral p/n-type doping in the adjacent 2DM layer. After a demonstration of fabricated array and board-level driving circuits, an image recognition and classification task is proposed, reaching an accuracy of 85.2%, which implies great potential towards multi-modal artificial intelligent vision systems.

Published

2024

3. In the News.

Author

Ingebretsen, Mark

Subjects

SCIENTISTS, COMPUTER vision, ROBOTS, VIDEO games, TELEVISION in security systems, ROBOTIC exoskeletons, ARTIFICIAL intelligence

Abstract

Scientists and businesses are increasingly using computer vision systems for tasks such as identifying important research results, developing highly functional robots, making videogames more realistic, and enabling surveillance cameras to recognize potential security problems. Considerable effort is now under way to add more intelligence to vision systems to make them even more effective. Other apps in the works include using AI to unravel market complexity and intelligent exoskeletons that help paraplegics walk. [ABSTRACT FROM PUBLISHER]

Published

2011