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PUBLICATIONS

Software-defined Radio Based Measurement Platform for Wireless Networks

Published

Author(s)

I-Chun Chao, Kang B. Lee, Rick Candell, Frederick M. Proctor, Chien-Chung Shen

Abstract

There has been a dramatic push to adopting wireless networking technologies and protocols (such as 802.11, ZigBee, WirelessHART, Bluetooth, ISA100.11a, etc.) into time-critical networks. End-to-end latency is critical to many distributed applications and services that are based on computer networks. Examples of such applications include telecommunications, power utility, financial services, and industrial automation. While performance measurement of wired networks has been extensively studied, measuring and quantifying the performance of wireless networks face new challenges and demand different approaches and techniques. In this paper, we describe a measurement platform based on the technologies of software-defined radio (SDR) and IEEE 1588 Precision Time Protocol (PTP) for measuring and evaluating the performance of wireless networks (including wireless sensor networks). By evaluating the performance metrics described in the paper, application behaviors based on robust time synchronization could be better quantified and evaluated.
Proceedings Title
Proceedings of the 2015 International IEEE Symposium on Precision Clock Synchronization for Measurement, Control and Communication
Conference Dates
October 11-16, 2015
Conference Location
Beijing, CN
Pub Type
Conferences

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Keywords

Software-defined Radio, IEEE 1588 Precision Time Protocol, end-to-end latency, hardware time-stamp, out-of-bandmethod
Wireless (RF), Factory communications and Advanced communications

Citation

Chao, I. , Lee, K. , Candell, R. , Proctor, F. and Shen, C. (2015), Software-defined Radio Based Measurement Platform for Wireless Networks, Proceedings of the 2015 International IEEE Symposium on Precision Clock Synchronization for Measurement, Control and Communication, Beijing, CN, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=918707 (Accessed April 16, 2024)

Created October 15, 2015, Updated April 1, 2022