A linearizing approach to code design for generalized MSK with four symbol pulse duration

Walid Abediseid; Peter Galko; IEEE

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A linearizing approach to code design for generalized MSK with four symbol pulse duration

Walid Abediseid, Peter Galko and IEEE

2008 CANADIAN CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING, VOLS 1-4, p.757

Canadian Conference on Electrical and Computer Engineering

01/01/2008

Abstract

Computer Science

Computer Science, Hardware & Architecture

Computer Science, Theory & Methods

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

Quadruple repetition code exhibits unique properties when combined with precoded generalized minimum-shift keying signals of upto four symbol period pulse duration. It is shown that using two stages of channel encoding, the last being a quadruple repetition code, the code design for such modulation schemes simplifies. Also, it is shown that the nonlinear continuous-phase frequency-shift keying modulator can be replaced by a simple linear I-Q modulator to generate the same coded signals. The detection problem for the recovery of the symbols sequence from the decision variables is shown to be one corresponding to memoryless modulation, avoiding the use of maximum likelihood sequence detection.

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Title: A linearizing approach to code design for generalized MSK with four symbol pulse duration
Creators - without role: Walid Abediseid - University of Waterloo
Peter Galko - University of Ottawa
IEEE
Publication Details: 2008 CANADIAN CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING, VOLS 1-4, p.757
Series: Canadian Conference on Electrical and Computer Engineering
Publisher: IEEE
Number of pages: 2
Identifiers: 9941614108331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Conference proceeding