Cyber-Physical Internet (CPI): Sending and receiving Manufactured Products just like sending and receiving instant messages

2023.06.20

投稿:沈洁部门:管理学院浏览次数:

活动信息

上海管理论坛第498

题目:Cyber-Physical Internet (CPI):Sending and receiving Manufactured Products just like sending and receiving instant messages

演讲人:Prof.George Q. Huang,香港理工大学

主持人:镇璐教授,8188威尼斯娱人城管理学院

时间:2023年6月19日(周一),上午10:00

地点:8188威尼斯娱人城校本部东区管理学院420会议室

主办单位:8188威尼斯娱人城管理学院、8188威尼斯娱人城管理学院青年教师联谊会



演讲人简介:

George is Chair Professor of Smart Manufacturing at Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University. He gained BEng and PhD in Mechanical Engineering from Southeast University (China) and Cardiff University (UK) respectively. He has conducted research projects in areas of Smart Manufacturing, Logistics, and Construction Systems Analytics through IoT-enabled Cyber-Physical Internet with substantial government and industrial grants exceeding HK$120M. He collaborated closely with industries through joint projects and start-up companies. He has published extensively and his works have been widely cited by research communities. He serves as associate editors and editorial members for several international journals. He is Chartered Engineer (CEng), Fellow of ASME, CILT, HKIE, IET, and IISE.



演讲内容简介:

The talk is about a major research project on Cyber-Physical Internet (CPI) recently initiated in Hong Kong. Its vision is to establish a new paradigm for sending and receiving manufactured goods just like sending and receiving instant messages over the internet using online chatting platforms. Four innovations are critical to achieve this ultimate vision: (1) digitization architecture for entangling the flows of information and materials into one flow of cyber-physical objects for manufacturing and logistics operations; (2) network services for configuring local aera network (LAN), wide area network (WAN) and catchment area network (CAN); (3) value mechanisms to motivate and facilitate participation and collaboration between multiple stakeholders including shippers, carriers, forwarders; and (4) decision analytics for synchronized logistics planning, scheduling and execution. These innovations are based upon some fundamental breakthroughs of CPI routers and TCP/PIP (Transmission Control Protocol / Physical Internet Protocol) protocols that are yet to be developed.

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