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Unlocking Mesh Networks: Tackling Scalability in Dynamic Environments

Author(s) Abhishek Singh
Country United States
Abstract Mesh networks have emerged as a promising technology for a wide range of applications, including wireless communication, the Internet of Things, and disaster response scenarios. This is due to their ability to self-organize and provide resilient connectivity.[1] However, the scalability of mesh networks is a critical concern as the network size and complexity increase. [2]This research paper provides a comprehensive investigation into the scalability of mesh networks, focusing on the impact of various factors such as network topology, mobility patterns, and protocol design on the overall performance and scalability. The study aims to offer a thorough analysis of the factors that influence the scalability of mesh networks, enabling researchers and practitioners to design and deploy more scalable and efficient mesh network solutions that can accommodate growing demands and complex environments.
As the size and complexity of mesh networks increase, ensuring their scalability becomes a crucial challenge that requires in-depth exploration and understanding.[3] This research paper delves into a comprehensive investigation of the key factors that impact the scalability of mesh networks. The study examines the influence of network topology, node mobility patterns, and the design of underlying protocols on the overall performance and scalability of these dynamic and interconnected systems. By offering a thorough analysis of these multifaceted factors, the research aims to empower researchers and practitioners to design and deploy mesh network solutions that are more scalable and efficient, capable of meeting the growing demands and accommodating the complexities of diverse environments.
The scalability of mesh networks is a critical aspect that requires in-depth exploration and understanding. This research paper provides a comprehensive investigation into the key factors that influence the scalability of these dynamic and interconnected systems. The study aims to offer a thorough analysis of the impact of network topology, node mobility patterns, and protocol design on the overall performance and scalability of mesh networks. By delving into these multifaceted factors, the research empowers researchers and practitioners to design and deploy more scalable and efficient mesh network solutions that can accommodate growing demands and complex environments. The goal is to enable the development of mesh network technologies that can effectively meet the needs of a wide range of applications, from wireless communication to the Internet of Things and disaster response scenarios.
Keywords Mesh Network, Scalability, Dynamic Environment, Adaptive Routing Protocol, Wireless Communication, Self-Healing Networks, Latency Reduction, Network Throughput
Field Engineering
Published In Volume 12, Issue 1, January-March 2021
Published On 2021-01-06
Cite This Unlocking Mesh Networks: Tackling Scalability in Dynamic Environments - Abhishek Singh - IJSAT Volume 12, Issue 1, January-March 2021. DOI 10.5281/zenodo.14752442
DOI https://doi.org/10.5281/zenodo.14752442
Short DOI https://doi.org/g827ck
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