Wing Kwan Ng D, Duong TQ, Zhong C, Schober R (2019)
Publication Language: English
Publication Type: Book chapter / Article in edited volumes
Publication year: 2019
Edited Volumes: Wireless Information and Power Transfer: Theory and Practice
Pages Range: 17-37
ISBN: 9781119476863
DOI: 10.1002/9781119476863.ch2
Standardized wireless communication systems based on radio frequency (RF) radiation are one of the important technologies in the modern societies. The emergence of low‐power autonomous wireless devices, such as ubiquitous sensing through wireless sensor networks (WSN) or an Internet‐of‐Things (IoT), has made the powering of such devices another challenge for the next generation 5G mobile networks. This chapter provides an overview of a wireless power transfer (WPT) architecture and the latest advances in the field of signal design for WPT and sequence wireless information power transfer (SWIPT). In order to demonstrate the feasibility of the proposed signal and system designs for WPT, prototyping and experimentation are required. Utilizing the WPT waveform designs shows that the rectifier nonlinearity has a significant impact on the performance of a SWIPT system.
APA:
Wing Kwan Ng, D., Duong, T.Q., Zhong, C., & Schober, R. (2019). Fundamentals of Signal Design for WPT and SWIPT. In Wiley Telecom (Eds.), Wireless Information and Power Transfer: Theory and Practice. (pp. 17-37).
MLA:
Wing Kwan Ng, Derrick, et al. "Fundamentals of Signal Design for WPT and SWIPT." Wireless Information and Power Transfer: Theory and Practice. Ed. Wiley Telecom, 2019. 17-37.
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