This book provides a concise overview of intelligent technologies for vision and sensing, with a particular focus on their applications in various multispectral configurations, including safety monitoring in rural areas. Within the realm of intelligent perception and contemporary healthcare, the book emphasizes the real-time monitoring, analysis, and prediction of vital signals using biomedical optical sensors. This approach aims to offer more adaptable and personalized services within the medical health management domain. Furthermore, the book delves into the comprehensive comprehension of physiological signals and additional data sources, such as environmental and motion data. The goal is to enhance the breadth and depth of data analysis, providing more integrated support for the life and health sector. Additionally, the book explores the implementation of edge intelligence algorithms at the sensor level to enable real-time analysis, enhancing the efficiency of sensor data processing and utilization. Detailed explanations of the configuration and deployment of an active vision camera system featuring an integrated edge algorithm are provided to elucidate the coordination and communication mechanisms of edge intelligence technology across multiple edge devices. A specific application case is then presentedthe universal camera jamming systemwhich underscores the benefits of intelligent sensing fusion for tasks such as attitude and position recognition, as well as self-feedback excitation jamming.

The book underscores the pervasive and seamless integration of smart sensing in both current and future lifestyles, spanning from active vision cameras to diverse applications across multiple spectrums. Its insights are poised to stimulate innovation and application within the realms of smart vision and sensing, including a comprehensive analysis of future healthcare paradigms.

Presents the current applications of intelligent vision and sensing, especially in multispectral applications Provides implementation and configuration details of the active vision camera system Describes realization of biomedical optical sensors in the field of healthcare

Autorentext

Xiaoming Tao is currently a Full Professor with the Department of Electronic Engineering, Tsinghua University. Her research focuses on semantic coding and computing communications for multimedia. In the related areas, she has published over 60 journals and conference papers in addition to over 40 granted patents. She was a recipient of the National Science Foundation for Outstanding Youth from 2017 to 2019 and many national awards, such as the 2017 China Young Women Scientists Award, the 2017 Top Ten Outstanding Scientists and Technologists from the China Institute of Electronics, the 2017 First Prize of the Wu Wen Jun A. I. Science and Technology Award, the 2016 National Award for Technological Invention Progress, and the 2015 Science and Technology Award of the China Institute of Communications. She served as the Workshop General Co-Chair for the IEEE INFOCOM 2015, the Organization Co-Chair for the IEEE ICCI*CC 2015/2020, and the Volunteer Leader for IEEE ICIP 2017. She is currently an Editor of IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, China Communications, and Pattern Recognition, and the Scientific Editor of Chinese Journal of Electronics. Yiping Duan received the Ph.D. degree from the School of Computer Science and Technology, Xidian University, Xi'an, China, in 2016. She is currently an Associate Research Fellow with the Department of Electronic Engineering, Tsinghua University. Her current research interests include multimedia communications, video codecs, and multimedia signal processing. Zhijin Qin is currently an Associate Professor with the Department of Electronic Engineering, Tsinghua University, Beijing, China. She was with Imperial College London, Lancaster University, and Queen Mary University of London, UK, from 2016 to 2022. Her research interests include semantic communications and sparse signal processing. She was a recipient of several awards, such as the 2017 IEEE GLOBECOM Best Paper Award, the 2018 IEEE Signal Processing Society (SPS) Young Author Best Paper Award, the 2021 IEEE Communications Society (ComSoc) Signal Processing for Communications Committee Early Achievement Award, the 2022 IEEE Communications Society Fred W. Ellersick Prize, the 2023 IEEE ICC Best Paper Award, the 2023 IEEE ComSoc SPCC Best Paper Award, and the 2023 IEEE SPS Best Paper Award. She served as a Guest Editor for IEEE Journal on Selected Areas in Communications (JSAC) Special Issue on Semantic Communications and an Area Editor for IEEE Journal on Selected Areas in Communications Series. She also served as the Symposium Co-Chair for IEEE GLOBECOM 2020 and 2021. She is serving as an Associate Editor for IEEE Transactions on Communications and IEEE Transactions on Cognitive Networking, as well as the Area Editor of IEEE Communications Letters. Danlan Huang received the Ph.D. degree from Tsinghua University, Beijing, China, in 2020. Since 2022, she has been with the School of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing, China. Her research interests include semantic coding for multimedia communications, semantic communications, and computer vision. She won the fellowship of China National Postdoctoral Program for Innovative Talents in 2020. Liting Wang received her Ph.D. degree from Tsinghua University, Beijing, China. She is currently a Lecturer at Tsinghua University, Beijing, China. Her research interest is the pattern recognition, signal processing, and edge computing.

Inhalt

Multi-spectral sensors in multi-field applications.- Active visual camera system.- Universal camera jammer system.- Biomedical optical sensors.- Healthcare Perfect realization of intelligent optical sensors.