Experimental Validation of Timing, Frequency and Phase Correction of Received Signals Using Software Defined Radio Testbed

Recently, almost all the wireless devices are being designed for the fast evolving technology of software-defined radios, which is a radio access technology that most of the signal processing components are implemented digitally in software rather than in hardware to redefine the functionality of co...

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Veröffentlicht in:	Wireless personal communications 2018-08, Vol.101 (4), p.2085-2103
1. Verfasser:	Reddy, Bathula Siva Kumar
Format:	Artikel
Sprache:	eng
Schlagworte:	Communications Engineering Computer Communication Networks Engineering Frequency hopping Networks Recovery Signal processing Signal,Image and Speech Processing Software radio Wireless communications
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creator	Reddy, Bathula Siva Kumar
description	Recently, almost all the wireless devices are being designed for the fast evolving technology of software-defined radios, which is a radio access technology that most of the signal processing components are implemented digitally in software rather than in hardware to redefine the functionality of components, reduce the cost and complexity of the systems. This paper presents a low cost, portable, and flexible frequency hopping signal record and playback system based on a general purpose software radio front end, the Universal Software Radio Peripheral N210 devices. Further, this paper addresses the different issues such as timing recovery, phase recovery and frequency correction. In addition to that various GNU schematics are created to show the effect of different signal processing blocks on a modulated signal and their corresponding outputs are presented in the view of time domain, frequency domain and waterfall sink.
doi_str_mv	10.1007/s11277-018-5806-2
format	Article
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title	Experimental Validation of Timing, Frequency and Phase Correction of Received Signals Using Software Defined Radio Testbed
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