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Bridging Connectivity Gaps with Dynamic and Self-Organizing Communication in Ad-Hoc Wireless Networks
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Ad-hoc wireless networks are characterized by their dynamic and self-organizing nature, making them suitable for scenarios where traditional infrastructure-based networks are impractical or unavailable. However, the inherent mobility and decentralized nature of ad-hoc networks pose significant challenges in maintaining reliable connectivity. This paper proposes a novel approach to address these challenges by leveraging the Zone Routing Protocol (ZRP) to facilitate dynamic and self-organizing communication in ad-hoc wireless networks. The ZRP divides the network into overlapping zones, with each node responsible for routing within its respective zone. By dynamically adjusting zone boundaries based on network topology changes, ZRP enables efficient routing while minimizing overhead. This adaptability is crucial in ad-hoc environments where node mobility and network topology fluctuations are common. The evaluation results demonstrate significant improvements in connectivity, reduced routing overhead, and enhanced resilience to network dynamics compared to traditional routing protocols.
Keywords
Ad-Hoc Wireless Networks, Connectivity Gaps, Zone Routing Protocol, Dynamic Communication, Self-Organization.
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