High-throughput reliable multicast in multi-hop wireless mesh networks

High-throughput reliable multicast in multi-hop wireless mesh networks

This paper presents a cross-layer approach for enabling high-throughput reliable multicast in multi-hop wireless mesh networks. The building block of our approach is a multicast routing metric, called the expected multicast transmission count (EMTX). EMTX is designed to capture the combined effects...

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Bibliographic Details
Main Authors: ZHAO, Xin, GUO, Jun, CHOU, Chun Tung, MISRA, Archan, JHA, Sanjay K.
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2015
Subjects:
Wireless mesh network
multicast algorithm
routing metric
cross-layer design
Computer Sciences
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/3256
https://ink.library.smu.edu.sg/context/sis_research/article/4258/viewcontent/High_ThroughputReliableMulticast_2015.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:This paper presents a cross-layer approach for enabling high-throughput reliable multicast in multi-hop wireless mesh networks. The building block of our approach is a multicast routing metric, called the expected multicast transmission count (EMTX). EMTX is designed to capture the combined effects of MAC-layer retransmission-based reliability, wireless broadcast advantage, and link quality awareness. The EMTX of single-hop transmission of a multicast packet from a sender is the expected number of multicast transmissions (including retransmissions) required for its next-hop recipients to receive the packet successfully. We formulate the EMTX-based multicast problem with the objective of minimizing the sum of EMTX over all forwarding nodes in the multicast tree, aiming to reduce network bandwidth consumption while ensure high end-to-end packet delivery ratio for the multicast traffic. We provide rigorous mathematical formulations and methods to find near-optimal solutions of the problem computationally efficiently. We present centralized and distributed algorithms, and demonstrate their effectiveness in tackling the EMTX-based multicast problem with a combination of theoretical and numerical results. Simulation experiments show that, in comparison with two baseline approaches, EMTX-based multicast routing reduces the number of hop-by-hop transmissions per packet by up to 40 percent and yet improves the multicast throughput by up to 24 percent.

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