Deployment of efficient MANET testbed using aggregation based archive population optimization

• Published in: Biomedical signal processing and control Vol. 96; p. 106556
• Main Authors: Janani, R.S., Asokan, R.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.10.2024
• Subjects: Aggregation; Homogenous; MANETs; Mobility; Self-organizing; Sensor nodes; Topology; Aggregation; Self-organizing; MANETs; Mobility; Homogenous; Topology; Sensor nodes
• ISSN: 1746-8094
• DOI: 10.1016/j.bspc.2024.106556

•In MANET, self-organizing mobile nodes collaborate to build a flexible network architecture. With a MANET, data must transit through numerous intermediate nodes even before reaches its destination node. Local link connectivity is essential for the establishment and preservation of routes.•To decrease energy usage, these findings suggest the Aggregation-based Archive Population Optimization(AAPO) along with Ad-hoc On-demand Distance Vector (AODV) Routing Protocol. For both local and global optimal routes, the proposed optimized modelgives top priority. There existtwo different types of rules used by AAPO to evaluate the quality of a route before using it for data transmission.•Instead of relying on just one path for transmitting data, AAPO leverages many paths. Also, it minimizes the issue of the network nodes being suddenly inaccessible, which eliminates interruptions in transmissions.•However, the suggested optimal routing system considers mobility and energy availability when responding to queries, resulting in significant performance improvements, utilizing 42.69 % of the scenario’s power and functioning at 208.6 kbps with an average PDR of 87.1 %. Also, detailed simulations are conducted using the Matlab (R2021b)software to assess the suggested approach. Furthermore, the suggested protocol outperforms the current methods in terms of effectiveness. In today’s 6G era, Mobile ad hoc networks (MANETs) have been enhanced by rapid technological advancement in the wireless communication industry to better support a wide range of domains, including military operations, emergency operations, urban settings, and natural crisesmanagement. In MANET, self-organizing mobile nodes collaborate to build a flexible network architecture. With a MANET, data must transit through numerous intermediate nodes even before reaches its destination node. Local link connectivity is essential for the establishment and preservation of routes. To decrease energy usage, these findings suggest the Aggregation-based Archive Population Optimization(AAPO) along with Ad-hoc On-demand Distance Vector (AODV) Routing Protocol. For both local and global optimal routes, the proposed optimized modelgives top priority. There existtwo different types of rules used by AAPO to evaluate the quality of a route before using it for data transmission. Instead of relying on just one path for transmitting data, AAPO leverages many paths. Also, it minimizes the issue of the network nodes being suddenly inaccessible, which eliminates interruptions in transmissions. However, the suggested optimal routing system considers mobility and energy availability when responding to queries, resulting in significant performance improvements, utilizing 42.69 % of the scenario’s power and functioning at 208.6 kbps with an average PDR of 87.1 %. Also, detailed simulations are conducted using the Matlab (R2021b)software to assess the suggested approach. Furthermore, the suggested protocol outperforms the current methods in terms of effectiveness.