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Predictable, Real-Time Communication for Wireless Networked Sensing and Control Hongwei Zhang  Hongwei.

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Presentation on theme: "Predictable, Real-Time Communication for Wireless Networked Sensing and Control Hongwei Zhang  Hongwei."— Presentation transcript:

1 Predictable, Real-Time Communication for Wireless Networked Sensing and Control Hongwei Zhang hongwei@wayne.edu http://www.cs.wayne.edu/~hzhang  Hongwei Zhang, Wayne State University, Feb. 26, 2013

2 Wireless networked, closed-loop, real-time sensing and control Sensing, networking, and computing tightly coupled with the physical process  Connected vehicles IEEE 802.11p/DSRC, WAVE  Smart grid IEEE 802.15.4g, NIST  Industrial monitoring and control WirelessHART, ISA SP100.11a Wireless networks as carriers of mission- critical sensing and control information  Stringent requirements on predictable QoS such as reliability and timeliness Sponsors: NSF (CAREER, CPS, GENI), Ford Research, GM Research

3 From passive to active safety: lane departure warning, collision avoidance; From single-vehicle control to platoon control & integrated infrastructure- vehicle control: networked fuel economy and emission control From wired intra-vehicle networks to wireless intra-vehicle networks  Multiple controller-area-networks (CANs) inside vehicles 50+ kg of wires  increased, reduced fuel efficiency Lack of scalability: hundreds of sensors, controllers, and actuators Wiring unreliability: warranty cost, reduced safety Connected vehicles: inter- and Intra-vehicle sensing and control

4 Systems research Sensor network testbeds: NetEye, KanseiGenie SDR-based connected-vehicle research platform GENI WiMAX research network GENI Racks for cloud computing

5 Hongwei Zhang Associate Professor of Computer Science Wayne State University, Detroit, Michigan, USA hongwei@wayne.edu, http://www.cs.wayne.edu/~hzhang

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