Differential Maximum Ratio Combining (MRC)-Based Throughput Analysis on Dual-Fading Models of Slotted-Aloha CDMA Systems

Saragih, Hoga and Santoso, F. (2014) Differential Maximum Ratio Combining (MRC)-Based Throughput Analysis on Dual-Fading Models of Slotted-Aloha CDMA Systems. International Journal of Wireless Information Networks, Vol.21 (2). pp. 154-160.

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Abstract

In this paper we investigate throughputs of Slotted-ALOHA code division multiple access systems with differential detection upon L-branch antenna by means of maximum ratio combining (MRC) diversity technique. We investigate the effects of co-channel interference by employing two different fading models (i.e. between the desired signals and its interferences.) We consider systems under Nakagami/Nakagami and Rician/Nakagami fading environments. The purpose of employing MRC diversity and differential phase shift keying with L-branch antenna is to overcome multipath fading interference in order to enhance the performance of the systems. Our research indicates that the implementation of L-branch antenna in the receiver have reasonably increased the throughputs of the systems. Furthermore, we also investigate the inverse relation between interference signal and the throughputs of the systems. We further point out that the value of Nakagami fading parameter M and Rician factor K are proportional to the achievable throughputs of the systems.

Item Type: Article
Uncontrolled Keywords: Slotted-ALOHA code division multiple access systems Maximum ratio combining Differential phase shift keying Nakagami and Rician fading models
Subjects: Computer Science > Informatics
Computer Science > Mobile Computing
Divisions: Fakultas Teknik dan Ilmu Komputer > Program Studi Informatika
Depositing User: Users 2 not found.
Date Deposited: 11 Mar 2016 02:35
Last Modified: 11 Mar 2016 02:35
URI: https://repository.bakrie.ac.id/id/eprint/53

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