Zheng Peng

Assistant Professor
Computer Science

Underwater Wireless Networks

Wireless Sensor Networks

Network Optimization and Protocol Design

Embedded Systems and Operating Systems

NSF grant awarded (#1344264)

This NSF INSPIRE award is partially funded by the Arctic Natural Sciences Program in the Division of Polar Programs in the Directorate for Geosciences, the Communications, Circuits and Sensing Systems Program in the Division of Electrical, Communications and Cyber Systems in the Directorate for Engineering,and the Division of Computer and network Systems in the Directorate for Computer and Information Science and Engineering.

The PIs propose to design and develop an integrated underwater acoustic sensor network for ice-covered seas. It will transmit data wirelessly through acoustic waves from sub-surface ocean sensors to a receiving array with a surface connection to satellites and the Internet. The PIs will expand the limits and capabilities of underwater communication networks in the transition zone where sea ice changes from 1) smooth land-fast ice to 2) ridged mobile ice to 3) open water. This transition zone evolves in both time and space within the 30-50 km foot-print of the proposed networked sensor and communication network array. This goal requires integration of both existing knowledge from a set of diverse disciplines and intellectual innovations within each discipline. It will modify underwater communication network theory, coastal acoustic propagation and scattering, and experimental design of oceanography. Providing long-term, long-range acoustic connectivity, the PI team will address three major new research challenges: 1) Mid-frequency (1-5 kHz), mid-range (10 km) acoustic wave propagation in the transition zone; 2) Data telemetry in the new communication environment; and 3) Resilient sensor networks that cope with and harness complex dynamics of the transition zone. The multi-disciplinary team will implement reliable modem hardware, integrate it with resilient network protocol, and optimize the system design for Arctic deployment to support an ocean experiment off Thule, Greenland.

The sensor and communication network will support 1) long-term, intelligent distributed Arctic observing systems, 2) assimilation of remote-sensing and in-situ under-ice measurements, and 3) regional and global climate modeling with real-time measurements. Such a network holds the promise to revolutionize under-ice ocean sampling in polar regions. Data will be broadly disseminated via the web and archived for public access. Planned outreach includes participation in the field program of Greenlandic residents from the Inupiat village of Qaanaaq and meaningful classroom involvement from the elementary to community college levels. The PIs are also committed to outreach through their global print, radio, TV, and electronic media contacts.

NSF grant awarded (#1331851)

Environmental awareness is a key to sustainable ocean monitoring and exploration. To meet the ever growing requirements of the ocean monitoring and exploration applications, and to preserve a sustainable blue ocean for next generations, a cognitive acoustic underwater network (CAUNet) that is aware of the coexistence of multiple underwater acoustic systems will be designed. The project goals include investigating acoustic spectrum usage via data collection and analysis, designing algorithms, software and hardware for acoustic spectrum sensing and spectrum management, and evaluating the feasibility and performance of the proposed work via simulations, and lab and field experiments.

This project will make significant contributions to the underwater network research community by improving the efficiency of UANs while making them more environmentally friendly. The research activities in this project also provide a rich environment and platform that can facilitate educating and training students from high school to graduate level and inspire students in underrepresented groups to pursue research in science and engineering. Moreover, this project will motivate and enable a wide range of research and outreach activities within the underwater communications, networking, engineering, and marine science communities, and promote progress towards practical solutions in diverse aquatic applications.</p?

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Opening Remarks of WUWNet'18
December 02 2018
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