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Optimized Throughput-Based Broadcasting for Next Generation Wireless Networks
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Author(s): Digvijay Pandey (Department of Technical Education, Government of Uttar Pradesh, India), Binay Kumar Pandey (Department of Information Technology, College of Technology, Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, India), Vinay Kumar Nassa (Department of Information Communication Technology, Tecnia Institute of Advanced Studies, India), Darshan A. Mahajan (NICMAR University, India), A. Shaji George (Business System Department, Almarai Company, TSM, Riyadh, Saudi Arabia)and Pankaj Dadheech (Swami Keshvanand Institute of Technology, Management, and Gramothan, India)
Copyright: 2024
Pages: 14
Source title:
Emerging Engineering Technologies and Industrial Applications
Source Author(s)/Editor(s): Younes El Kacimi (Ibn Tofail University, Morocco)and Khaoula Alaoui (Ibn Tofail University, Morocco)
DOI: 10.4018/979-8-3693-1335-0.ch018
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Abstract
Remote areas benefit from lower costs for transporting enormous amounts of data between a source node and multiple networking devices. Noise and constraints necessitated a 64 kb/s broadcaster. Bit defect rates, abnormalities, and frequent retransmission prevented data movement.This could greatly minimize channel usage. The maximum transmission unit distance was 64B. Data packet size limits exacerbated issues. Massive data traffic, connection imprecision, and changing topology affect network structure, making data dissemination from source nodes to all devices difficult.This book chapter suggests using an advanced throughput optimal broadcast in point-to-multipoint wireless networks to improve wire-less link precision by using the Mayfly optimization method, a recent swarm intelligence soft computing technique, to improve geometrical configuration of interfering terminals and forecasted per-flow throughput
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