Get fast, custom help from our academic experts, any time of day.
Place your order now for a similar assignment and have exceptional work written by our team of experts.
Secure Original On Schedule
My paper is considering the Security of UAV Networks in Adversarial Environments. When UAV networks operate in hostile environments, they are subject to various attacks. Specifically, I would like you to focus on Node Capture Attack Resilience. Typically, researchers propose to countermeasure node capture attacks through (1) regular key rotation and credential refreshment, (2) physical security measures, or (3) decentralization and redundancy. This paper will be using the number 3 option by proposing a novel reputation-based Practical Byzantine Fault Tolerance (PBFT) algorithm that will mitigate Sybil attacks on UAV nodes. PBFT is an algorithm designed to protect distributed systems and networks from the Byzantine Generals Problem, a situation where components of a system fail and there is imperfect information on whether an element has failed. The algorithm is particularly relevant in systems where nodes must agree on a common state, which is critical in blockchain technology, distributed databases, and network consensus protocols. In the context of UAV networks, incorporating PBFT can address various security and reliability concerns, but it also introduces specific challenges and complexities.
Before accepting this order, please ensure you are skilled in computer algorithms as you will have to develop an algorithm to counter these attacks, simulate, and compare your methodology with existing framworks (zero plagiarism). To make it faster, I will be working on the rest of the paper so I will want you to only focus on chapter 3 (methodology), and for us to be on the same page, we will be in constant communication, and I will be receiving a draft copy from you every Wednesday.
I will always be willing and open to any discussion you have around this as to aid the process.
Get fast, custom help from our academic experts, any time of day.
Secure Original On Schedule