Reliability-Latency Performance of Frameless ALOHA with and without Feedback

Francisco Lazaro; Cedomir Stefanovic; Petar Popovski

doi:10.1109/TCOMM.2020.3007793

Reliability-Latency Performance of Frameless ALOHA with and without Feedback

Francisco Lazaro, Cedomir Stefanovic, Petar Popovski

Research output: Contribution to journal › Journal article › Research › peer-review

12 Citations (Scopus)

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Abstract

This paper presents a finite length analysis of multi-slot type frameless ALOHA based on a dynamic programming approach. The analysis is exact, but its evaluation is only feasible for moderate number of users due to the computational complexity. The analysis is then extended to derive continuous approximations of its key parameters, which, apart from providing an insight into the decoding process, make it possible to estimate the packet error rate with very low computational complexity. Finally, a feedback scheme is presented in which the slot access scheme is dynamically adapted according to the approximate analysis in order to minimize the packet error rate. The results indicate that the introduction of feedback can substantially improve the performance of frameless ALOHA.

Original language	English
Article number	9134817
Journal	I E E E Transactions on Communications
Volume	68
Issue number	10
Pages (from-to)	6302-6316
Number of pages	15
ISSN	0090-6778
DOIs	https://doi.org/10.1109/TCOMM.2020.3007793
Publication status	Published - Oct 2020

Keywords

Access protocols
Machine-to-machine communications
dynamic programming
interference cancellation
iterative decoding

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title = "Reliability-Latency Performance of Frameless ALOHA with and without Feedback",

abstract = "This paper presents a finite length analysis of multi-slot type frameless ALOHA based on a dynamic programming approach. The analysis is exact, but its evaluation is only feasible for moderate number of users due to the computational complexity. The analysis is then extended to derive continuous approximations of its key parameters, which, apart from providing an insight into the decoding process, make it possible to estimate the packet error rate with very low computational complexity. Finally, a feedback scheme is presented in which the slot access scheme is dynamically adapted according to the approximate analysis in order to minimize the packet error rate. The results indicate that the introduction of feedback can substantially improve the performance of frameless ALOHA. ",

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AU - Stefanovic, Cedomir

AU - Popovski, Petar

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N2 - This paper presents a finite length analysis of multi-slot type frameless ALOHA based on a dynamic programming approach. The analysis is exact, but its evaluation is only feasible for moderate number of users due to the computational complexity. The analysis is then extended to derive continuous approximations of its key parameters, which, apart from providing an insight into the decoding process, make it possible to estimate the packet error rate with very low computational complexity. Finally, a feedback scheme is presented in which the slot access scheme is dynamically adapted according to the approximate analysis in order to minimize the packet error rate. The results indicate that the introduction of feedback can substantially improve the performance of frameless ALOHA.

AB - This paper presents a finite length analysis of multi-slot type frameless ALOHA based on a dynamic programming approach. The analysis is exact, but its evaluation is only feasible for moderate number of users due to the computational complexity. The analysis is then extended to derive continuous approximations of its key parameters, which, apart from providing an insight into the decoding process, make it possible to estimate the packet error rate with very low computational complexity. Finally, a feedback scheme is presented in which the slot access scheme is dynamically adapted according to the approximate analysis in order to minimize the packet error rate. The results indicate that the introduction of feedback can substantially improve the performance of frameless ALOHA.

KW - Access protocols

KW - Machine-to-machine communications

KW - dynamic programming

KW - interference cancellation

KW - iterative decoding

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JO - I E E E Transactions on Communications

JF - I E E E Transactions on Communications

IS - 10

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ER -

Reliability-Latency Performance of Frameless ALOHA with and without Feedback

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