Enhanced frameless slotted ALOHA protocol with Markov chains analysis

Dai Jia; Zesong Fei; Ming Xiao; Congzhe Cao; Jingming Kuang

doi:10.1007/s11432-017-9296-6

Enhanced frameless slotted ALOHA protocol with Markov chains analysis

Dai Jia
, Zesong Fei^*
, Ming Xiao
, Congzhe Cao
, Jingming Kuang

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology
KTH Royal Institute of Technology
University of Alberta

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

In this paper, we propose a novel approach to enhance the performance of frameless slotted ALOHA (SA) protocol. We employ signature codes to help the receiver identify the packets contained in collisions, and use successive interference cancellation (SIC) for packet recovery. We model the proposed scheme as a two-state Markov model represented by a uni-partite graph. We evaluate the throughput, expected delay and average memory size of the proposed scheme, and optimize the proposed scheme to maximize the throughput. We show that the theoretical analysis matches well with simulation results. The throughput and expected delay of the proposed protocol outperform the conventional slotted ALOHA protocol significantly.

Original language	English
Article number	102304
Journal	Science China Information Sciences
Volume	61
Issue number	10
DOIs	https://doi.org/10.1007/s11432-017-9296-6
Publication status	Published - 1 Oct 2018

Keywords

Markov chain
SIC
delay
slotted ALOHA
throughput
uni-partite graph

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10.1007/s11432-017-9296-6

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abstract = "In this paper, we propose a novel approach to enhance the performance of frameless slotted ALOHA (SA) protocol. We employ signature codes to help the receiver identify the packets contained in collisions, and use successive interference cancellation (SIC) for packet recovery. We model the proposed scheme as a two-state Markov model represented by a uni-partite graph. We evaluate the throughput, expected delay and average memory size of the proposed scheme, and optimize the proposed scheme to maximize the throughput. We show that the theoretical analysis matches well with simulation results. The throughput and expected delay of the proposed protocol outperform the conventional slotted ALOHA protocol significantly.",

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author = "Dai Jia and Zesong Fei and Ming Xiao and Congzhe Cao and Jingming Kuang",

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AU - Jia, Dai

AU - Fei, Zesong

AU - Xiao, Ming

AU - Cao, Congzhe

AU - Kuang, Jingming

PY - 2018/10/1

Y1 - 2018/10/1

N2 - In this paper, we propose a novel approach to enhance the performance of frameless slotted ALOHA (SA) protocol. We employ signature codes to help the receiver identify the packets contained in collisions, and use successive interference cancellation (SIC) for packet recovery. We model the proposed scheme as a two-state Markov model represented by a uni-partite graph. We evaluate the throughput, expected delay and average memory size of the proposed scheme, and optimize the proposed scheme to maximize the throughput. We show that the theoretical analysis matches well with simulation results. The throughput and expected delay of the proposed protocol outperform the conventional slotted ALOHA protocol significantly.

AB - In this paper, we propose a novel approach to enhance the performance of frameless slotted ALOHA (SA) protocol. We employ signature codes to help the receiver identify the packets contained in collisions, and use successive interference cancellation (SIC) for packet recovery. We model the proposed scheme as a two-state Markov model represented by a uni-partite graph. We evaluate the throughput, expected delay and average memory size of the proposed scheme, and optimize the proposed scheme to maximize the throughput. We show that the theoretical analysis matches well with simulation results. The throughput and expected delay of the proposed protocol outperform the conventional slotted ALOHA protocol significantly.

KW - Markov chain

KW - SIC

KW - delay

KW - slotted ALOHA

KW - throughput

KW - uni-partite graph

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JO - Science China Information Sciences

JF - Science China Information Sciences

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M1 - 102304

ER -

Enhanced frameless slotted ALOHA protocol with Markov chains analysis

Abstract

Keywords

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