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A Digital Phase Locked Loop based Signal and Symbol Recovery System for Wireless ChannelModulation Techniques and Signal Processing

A Digital Phase Locked Loop based Signal and Symbol Recovery System for Wireless Channel:... [Electrical communication transmitter and receiver techniques strive toward obtaining reliable communication at low cost, with maximum utilization of the channel resources. The information transmitted by the source is received by the destination via a physical medium called a channel. This physical medium, which may be wired or wireless, introduces distortion, noise, and interference in the transmitted information bearing signal. To counteract these effects is one of the requirements while designing a transmitter and receiver end technique. The other requirements are power and bandwidth efficiency at low implementation complexity.] http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png

A Digital Phase Locked Loop based Signal and Symbol Recovery System for Wireless ChannelModulation Techniques and Signal Processing

Part of the Signals and Communication Technology Book Series
Purkayastha, Basab Bijoy; Sarma, Kandarpa Kumar
Springer Journals — Jan 30, 2015
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39 pages

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Publisher
Springer India
Copyright
© Springer India 2015
ISBN
978-81-322-2040-4
Pages
49 –87
DOI
10.1007/978-81-322-2041-1_3
Publisher site
See Chapter on Publisher Site

Abstract

[Electrical communication transmitter and receiver techniques strive toward obtaining reliable communication at low cost, with maximum utilization of the channel resources. The information transmitted by the source is received by the destination via a physical medium called a channel. This physical medium, which may be wired or wireless, introduces distortion, noise, and interference in the transmitted information bearing signal. To counteract these effects is one of the requirements while designing a transmitter and receiver end technique. The other requirements are power and bandwidth efficiency at low implementation complexity.]

Published: Jan 30, 2015

Keywords: Ask; Fsk; Msk; GMSK; Pulse shaping; Nyquist pulse; Raised cosine roll-off filtering; Line coding Rayleigh fading Rician fading Nakagami-m fading; Sum-of-sinusoids-based Nakagami-m channel modeling; Clarkes Rayleigh fading model; Pop-Beaulieu simulator

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