Performance Enhancement of Optimized Link State Routing Protocol by Parameter Configuration for UANET

The growing need for wireless communication has resulted in the widespread usage of unmanned aerial vehicles (UAVs) in a variety of applications. Designing a routing protocol for UAVs is paramount as well as challenging due to its dynamic attributes. The difficulty stems from features other than mobile ad hoc networks (MANET), such as aerial mobility in 3D space and frequently changing topology. This paper analyzes the performance of four topology-based routing protocols, dynamic source routing (DSR), ad hoc on-demand distance vector (AODV), geographic routing protocol (GRP), and optimized link state routing (OLSR), by using practical simulation software OPNET 14.5. Performance evaluation carries out various metrics such as throughput, delay, and data drop rate. Moreover, the performance of the OLSR routing protocol is enhanced and named E-OLSR by tuning parameters and reducing holding time. The optimized E-OLSR settings provide better performance than the conventional request for comments (RFC 3626) in the experiment, making it suitable for use in UAV ad hoc network (UANET) environments. Simulation results indicate the proposed E-OLSR outperforms the existing OLSR and achieves supremacy over other protocols mentioned in this paper.

Automated summary

This paper analyzes the performance of four topology-based routing protocols for unmanned aerial vehicles (UAVs) and proposes an enhanced version of the optimized link state routing (OLSR) protocol, named E-OLSR. The results show that E-OLSR outperforms the existing OLSR and other mentioned protocols, making it suitable for use in UAV ad hoc network (UANET) environments.