International Journal of Science, Engineering and TechnologyAuthors: Avinash Singh, Dr. Ankur Pandey
Abstract: FANET UAVs temporarily connect to other UAVs to transfer data. UAVs have limited memory and capability. In dynamic networks, UAV routing and packet transfer pose security issues. UAVs are subject to assaults and have variable speeds. FANET attacks vary. The malicious nodes isolation or Syble attacker is a packet-dropping assault that steals other nodes' unique identity (ID) and exploits it for network attacks. This paper provided two modules: attacker confirmation and detection and prevention. FANET's first Route and Data Security for Hostile Behaviour Prevention (RDSBP) method for Sybil attacker. Implement a base station device behavior analysis route security mechanism to detect this type of malicious conduct. The attacker node alters the routing table to choose a bogus path and diverts the route by altering the routing packet's next hop address. The main purpose of RDSPB is to identify the attacker. Comparing RDSBP to LOAD and LPAR, innovative security solution performs better. The attacker detection and prevention approach calculates UAV trust based on network function in the second module. The Trust & Energy Aware Secure Routing (TEASR) solution isolates FANET Sybil malicious nodes. Due of its limited energy, UAVs cannot replace batteries instantly. Attackers created retransmission potential, affecting energy. The attacker targets many real UAVs. Novel TEASR outperforms secure and trusted AODV. Secure AODV outperforms Trusted AODV and pure AODV routing. RDSBP and TEASR have the highest PDR and use less energy while routing.
DOI: http://doi.org/10.5281/zenodo.20536728
