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Optimal Z-complementary Code Set From Generalized Reed-Muller Codes

Sarkar, Palash, Majhi, Sudhan and Liu, Zilong (2019) Optimal Z-complementary Code Set From Generalized Reed-Muller Codes IEEE Transactions on Communications, 67 (3). pp. 1783-1796.

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Z-complementary code set (ZCCS), an extension of perfect CCs, refers to a set of 2-D matrices having zero correlation zone properties. ZCCS can be used in various multi-channel systems to support, for example, quasi-synchronous interference-free multicarrier code-division multiple access communication and optimal channel estimation in multiple-input multiple-output systems. Traditional constructions of ZCCS heavily rely on a series of sequence operations which may not be feasible for rapid hardware generation particularly for long ZCCSs. In this paper, we propose a direct construction of ZCCS using the second-order Reed–Muller codes with efficient graphical representation. Our proposed construction, valid for any number of isolated vertices present in the graph, is capable of generating optimal ZCCS meeting the set size upper bound.

Item Type: Article
Divisions : Faculty of Engineering and Physical Sciences > Electronic Engineering
Authors :
Sarkar, Palash
Majhi, Sudhan
Date : 15 March 2019
DOI : 10.1109/TCOMM.2018.2883469
Copyright Disclaimer : Copyright 2018 IEEE
Uncontrolled Keywords : Complementary code (CC); Code division multiple access (CDMA); Generalized Boolean function (GBF); Multiple-input multiple-output (MIMO); Reed-Muller (RM) codes; Z-complementary code set (ZCCS); Zero correlation zone (ZCZ)
Depositing User : Diane Maxfield
Date Deposited : 07 Jun 2019 15:05
Last Modified : 07 Jun 2019 15:05

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