Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems

M. A.N.S. Raghavendra; G. D.Goutham Simha; U. Shripathi Acharya

doi:10.1109/ECS.2017.8067842

Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems

M. A.N.S. Raghavendra
, G. D.Goutham Simha
, U. Shripathi Acharya

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

In this work we present a full rank Space Time Block Codes with Non-orthogonal designs designated as NSTBCs constructed from cyclic codes over GF(q^m). Rank-Preserving Eisenstein-Jacobi map is employed to map the codewords over finite field to codewords over complex field. A generalized procedure for designing NSTBCs for MIMO system containing N_t Transmit antennas and N_r receive antennas is obtained. The computational complexity of the MIMO system employing the presented NSTBC with ML detection has been derived and an upper bound on the average probability of error is presented. It is shown that under quasi-static Rayleigh flat fading channel conditions at an ABER of 10^-4 the proposed NSTBC MIMO system provides a gain of approximately 3 dB in compared with C (4,2,4) code.

Original language	English
Title of host publication	Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	83-87
Number of pages	5
ISBN (Electronic)	9781509033553
DOIs	https://doi.org/10.1109/ECS.2017.8067842
Publication status	Published - 13-10-2017
Event	4th International Conference on Electronics and Communication Systems, ICECS 2017 - Coimbatore, India Duration: 24-02-2017 → 25-02-2017

Publication series

Name	Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017

Conference

Conference	4th International Conference on Electronics and Communication Systems, ICECS 2017
Country/Territory	India
City	Coimbatore
Period	24-02-17 → 25-02-17

All Science Journal Classification (ASJC) codes

Computer Networks and Communications
Electrical and Electronic Engineering
Safety, Risk, Reliability and Quality

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10.1109/ECS.2017.8067842

Cite this

Raghavendra, M. A. N. S., Simha, G. D. G., & Acharya, U. S. (2017). Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems. In Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017 (pp. 83-87). Article 8067842 (Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ECS.2017.8067842

Raghavendra, M. A.N.S. ; Simha, G. D.Goutham ; Acharya, U. Shripathi. / Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems. Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 83-87 (Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017).

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title = "Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems",

abstract = "In this work we present a full rank Space Time Block Codes with Non-orthogonal designs designated as NSTBCs constructed from cyclic codes over GF(qm). Rank-Preserving Eisenstein-Jacobi map is employed to map the codewords over finite field to codewords over complex field. A generalized procedure for designing NSTBCs for MIMO system containing Nt Transmit antennas and Nr receive antennas is obtained. The computational complexity of the MIMO system employing the presented NSTBC with ML detection has been derived and an upper bound on the average probability of error is presented. It is shown that under quasi-static Rayleigh flat fading channel conditions at an ABER of 10-4 the proposed NSTBC MIMO system provides a gain of approximately 3 dB in compared with C (4,2,4) code.",

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note = "Publisher Copyright: {\textcopyright} 2017 IEEE.; 4th International Conference on Electronics and Communication Systems, ICECS 2017 ; Conference date: 24-02-2017 Through 25-02-2017",

year = "2017",

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doi = "10.1109/ECS.2017.8067842",

language = "English",

series = "Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017",

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Raghavendra, MANS, Simha, GDG & Acharya, US 2017, Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems. in Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017., 8067842, Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017, Institute of Electrical and Electronics Engineers Inc., pp. 83-87, 4th International Conference on Electronics and Communication Systems, ICECS 2017, Coimbatore, India, 24-02-17. https://doi.org/10.1109/ECS.2017.8067842

Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems. / Raghavendra, M. A.N.S.; Simha, G. D.Goutham; Acharya, U. Shripathi.
Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 83-87 8067842 (Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems

AU - Raghavendra, M. A.N.S.

AU - Simha, G. D.Goutham

AU - Acharya, U. Shripathi

PY - 2017/10/13

Y1 - 2017/10/13

N2 - In this work we present a full rank Space Time Block Codes with Non-orthogonal designs designated as NSTBCs constructed from cyclic codes over GF(qm). Rank-Preserving Eisenstein-Jacobi map is employed to map the codewords over finite field to codewords over complex field. A generalized procedure for designing NSTBCs for MIMO system containing Nt Transmit antennas and Nr receive antennas is obtained. The computational complexity of the MIMO system employing the presented NSTBC with ML detection has been derived and an upper bound on the average probability of error is presented. It is shown that under quasi-static Rayleigh flat fading channel conditions at an ABER of 10-4 the proposed NSTBC MIMO system provides a gain of approximately 3 dB in compared with C (4,2,4) code.

AB - In this work we present a full rank Space Time Block Codes with Non-orthogonal designs designated as NSTBCs constructed from cyclic codes over GF(qm). Rank-Preserving Eisenstein-Jacobi map is employed to map the codewords over finite field to codewords over complex field. A generalized procedure for designing NSTBCs for MIMO system containing Nt Transmit antennas and Nr receive antennas is obtained. The computational complexity of the MIMO system employing the presented NSTBC with ML detection has been derived and an upper bound on the average probability of error is presented. It is shown that under quasi-static Rayleigh flat fading channel conditions at an ABER of 10-4 the proposed NSTBC MIMO system provides a gain of approximately 3 dB in compared with C (4,2,4) code.

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Raghavendra MANS, Simha GDG, Acharya US. Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems. In Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 83-87. 8067842. (Proceedings of 2017 4th International Conference on Electronics and Communication Systems, ICECS 2017). doi: 10.1109/ECS.2017.8067842

Non-orthogonal full rank space-time block codes over Eisenstein-Jacobi integers for MIMO systems

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