Cyber-Physical Systems for Water Sustainability: Challenges and Opportunities

Abstract

Water plays a vital role in the proper functioning of the Earth’s ecosystems, and practically all human activities, such as agriculture, manufacturing, transportation, and energy production. The proliferation of industrial and agricultural activities in modern society, however, poses threats to water resources in the form of chemical, biological, and thermal pollution. On the other hand, tremendous advancement in science and technology offers valuable tools to address water sustainability challenges. Key technologies, including sensing technology, wireless communications and networking, hydrodynamic modeling, data analysis, and control, enable intelligently wireless networked water Cyber-Physical Systems (CPS) with embedded sensors, processors, and actuators that can sense and interact with the water environment. This article will provide an overview of water CPS for sustainability from four critical aspects: sensing and instrumentation, communications and networking, computing, and control, and explore opportunities and design challenges of relevant techniques.

Description

Keywords

Cyber-Physical Systems, Water Sustainability, Energy Harvesting Sensor Network, Underwater Communications

Citation

Z. Wang, H. Song, D. Watkins, K.G. Ong, P. Xue, Q. Yang, and X. Shi. "Cyber-Physical Systems for Water Sustainability: Challenges and Opportunities", IEEE Communication Magazine, 2015, In Press.
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