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We consider a physical-layer network coding (PNC) scheme based on *M*-ary continuous phase frequency shift keying (*M*-CPFSK) modulation for a bidirectional relay network. In this scheme, the maximum-likelihood sequence detection (MLSD) algorithm for the relay receiver over Rayleigh fading channels is discussed. Moreover, an upper bound on the minimum Euclidean distance for the superimposed signals is analyzed and the corresponding lower bound for the average symbol error rate (SER) at the relay is derived. Numerical results are also sustained by simulations which corroborate the exactness of the theoretical analysis.

- Publication
- IEICE TRANSACTIONS on Fundamentals Vol.E101-A No.6 pp.974-977

- Publication Date
- 2018/06/01

- Publicized

- Online ISSN
- 1745-1337

- DOI
- 10.1587/transfun.E101.A.974

- Type of Manuscript
- LETTER

- Category
- Communication Theory and Signals

Nan SHA

Army Engineering University of PLA

Yuanyuan GAO

Army Engineering University of PLA

Mingxi GUO

Army Engineering University of PLA

Shijie WANG

Army Engineering University of PLA

Kui XU

Army Engineering University of PLA

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Nan SHA, Yuanyuan GAO, Mingxi GUO, Shijie WANG, Kui XU, "Physical-Layer Network Coding for Fading Bidirectional Relay Channels with M-CPFSK" in IEICE TRANSACTIONS on Fundamentals,
vol. E101-A, no. 6, pp. 974-977, June 2018, doi: 10.1587/transfun.E101.A.974.

Abstract: We consider a physical-layer network coding (PNC) scheme based on *M*-ary continuous phase frequency shift keying (*M*-CPFSK) modulation for a bidirectional relay network. In this scheme, the maximum-likelihood sequence detection (MLSD) algorithm for the relay receiver over Rayleigh fading channels is discussed. Moreover, an upper bound on the minimum Euclidean distance for the superimposed signals is analyzed and the corresponding lower bound for the average symbol error rate (SER) at the relay is derived. Numerical results are also sustained by simulations which corroborate the exactness of the theoretical analysis.

URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/transfun.E101.A.974/_p

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@ARTICLE{e101-a_6_974,

author={Nan SHA, Yuanyuan GAO, Mingxi GUO, Shijie WANG, Kui XU, },

journal={IEICE TRANSACTIONS on Fundamentals},

title={Physical-Layer Network Coding for Fading Bidirectional Relay Channels with M-CPFSK},

year={2018},

volume={E101-A},

number={6},

pages={974-977},

abstract={We consider a physical-layer network coding (PNC) scheme based on *M*-ary continuous phase frequency shift keying (*M*-CPFSK) modulation for a bidirectional relay network. In this scheme, the maximum-likelihood sequence detection (MLSD) algorithm for the relay receiver over Rayleigh fading channels is discussed. Moreover, an upper bound on the minimum Euclidean distance for the superimposed signals is analyzed and the corresponding lower bound for the average symbol error rate (SER) at the relay is derived. Numerical results are also sustained by simulations which corroborate the exactness of the theoretical analysis.},

keywords={},

doi={10.1587/transfun.E101.A.974},

ISSN={1745-1337},

month={June},}

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TY - JOUR

TI - Physical-Layer Network Coding for Fading Bidirectional Relay Channels with M-CPFSK

T2 - IEICE TRANSACTIONS on Fundamentals

SP - 974

EP - 977

AU - Nan SHA

AU - Yuanyuan GAO

AU - Mingxi GUO

AU - Shijie WANG

AU - Kui XU

PY - 2018

DO - 10.1587/transfun.E101.A.974

JO - IEICE TRANSACTIONS on Fundamentals

SN - 1745-1337

VL - E101-A

IS - 6

JA - IEICE TRANSACTIONS on Fundamentals

Y1 - June 2018

AB - We consider a physical-layer network coding (PNC) scheme based on *M*-ary continuous phase frequency shift keying (*M*-CPFSK) modulation for a bidirectional relay network. In this scheme, the maximum-likelihood sequence detection (MLSD) algorithm for the relay receiver over Rayleigh fading channels is discussed. Moreover, an upper bound on the minimum Euclidean distance for the superimposed signals is analyzed and the corresponding lower bound for the average symbol error rate (SER) at the relay is derived. Numerical results are also sustained by simulations which corroborate the exactness of the theoretical analysis.

ER -