Prof. Ting Yang, doctoral supervisor, is a discipline leader in the School of Electrical and Information Engineering, Tianjin University. He is the deputy director of the national "distributed energy and micro grid" international science and technology cooperation base and the deputy director of Tianjin "Energy Internet” International Joint Research Center. As the largest contributor, he has won two provincial and departmental science and technology progress awards and some enterprise science and technology progress awards. He has published more than 100 SCI/EI papers, 4 monographs and 2 international invention patents in top academic journals in China and abroad. He has served as the session chair of several IEEE international conferences. He also served as the editor in chief or member of the Editorial Committee of several SCI journals. He is the special editor in chief of "Application of artificial intelligence in power system and energy Internet"(which won him the "Outstanding Special Editor Award" in 2018) of “Journal of Power System Automation”, and the special editor in chief of "Ubiquitous Power Internet of Things (UPIOT)" of “Journal of Power Construction”. He is now the deputy director of circuit and system branch of China Electronics Society, the national director of sensor sub committee of China Instrumentation Society and a member of the theoretical electrician special committee of China Electrical Engineering Society. His main research interests include energy & power, Internet of things, artificial intelligence and intelligent manufacturing.
Title: Exploration of New Methods for Advanced Smart Measurement Based on Ubiquitous Internet of Things and Signal Processing Technology
Abstract: It can be ensured that the energy system works in a safe, reliable, premium and efficient manner only if the energy system for oil, gas, electricity and heat relies on advanced sensor measuring technologies to collect data of different facilities, and communication and information processing are used to monitor, coordinate and control the system operation. Thus, advanced measuring technologies are the core of supporting the reform and intelligent development of the energy system. This report will introduce the implications of advanced smart measuring technologies and the research status at home and abroad in the context of Ubiquitous Internet of Things. Besides, it will select new application scenes of high frequency intensive inspection and focus on mixed signal and big data processing. Additionally, it will also introduce new methods for harmonic detection, methods for blind signal separation and their application in energy development.