An Improved Delay Resistant Adaptive Multicasting Strategy for High Definition Video Delivery in Wireless Overlay Network

An Improved Delay Resistant Adaptive Multicasting Strategy for High Definition Video Delivery in Wireless Overlay Network

The Multimedia based application services have been getting attention in recent years in various fields. These services require a stringent delay resistant protocol in order to provide the best Quality of Service to end users. Existing protocols are predominantly designed using load balancing, tree,...

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Bibliographic Details
Published in:Wireless personal communications Vol. 109; no. 1; pp. 61 - 75
Main Authors: Balasubramanian, Uma Maheswari, Shetty, T. K. Ramesh
Format: Journal Article
Language:English
Published: New York Springer US 01-11-2019
Springer Nature B.V
Subjects:
Channel noise
Communications Engineering
Computer Communication Networks
Computer simulation
Delay
End users
Engineering
Error correction
Error correction & detection
Finite element method
High definition
Multicasting
Multimedia
Networks
Protocol (computers)
Signal,Image and Speech Processing
Wireless networks
Arbitrary multicasting
Video streaming
Selective multicasting
Wireless overlay network
Sub-packetization
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Summary:The Multimedia based application services have been getting attention in recent years in various fields. These services require a stringent delay resistant protocol in order to provide the best Quality of Service to end users. Existing protocols are predominantly designed using load balancing, tree, multi-tree and mesh based mechanisms. These mechanisms suffer in the presence of channel noise and incur more delay due to improper multicasting techniques adopted. Overlay network using hybrid (tree over mesh) structure along with multicasting strategies are used to address this issue. In this paper, an Improved Delay Resistant Adaptive Multicasting (IDRAM) model which adopts hybrid overlay creation, sub-packet based multi path transmission technique and error correction based on Forward Error Correction along with arbitrary IDRAM-A and selective IDRAM-S multicasting techniques are proposed and evaluated. Simulation is conducted to calculate frame success ratio, throughput, number of packet retransmission and transmission delay. The results obtained prove that IDRAM-S outperforms better than IDRAM-A and existing sub packet based multi path techniques. The number of retransmission requests made by IDRAM-S is reduced compared to the existing model. This reduction in the number of retransmission enables in minimizing end to end delay and thereby achieve stringent delay constraints associated with multimedia data delivery.
ISSN:0929-6212
1572-834X
DOI:10.1007/s11277-019-06550-4