Design of a dynamic and self adapting system, supported with artificial intelligence, machine learning and real time intelligence for predictive cyber risk analytics in extreme environments, cyber risk in the colonisation of Mars

TL;DR

This paper proposes a novel mathematical framework integrating AI, machine learning, and edge computing to enable real-time, predictive cyber risk analytics for Mars colonisation infrastructure, enhancing security and resilience.

Contribution

It introduces a new mathematical approach for integrating cognition engine design with edge AI and machine learning for anomaly detection in IoT networks.

Findings

Developed a mathematical model for anomaly detection at the edge.

Enhanced real-time cyber risk analytics capabilities.

Facilitated systematic understanding of edge AI deployment risks.

Abstract

Multiple governmental agencies and private organisations have made commitments for the colonisation of Mars. Such colonisation requires complex systems and infrastructure that could be very costly to repair or replace in cases of cyber attacks. This paper surveys deep learning algorithms, IoT cyber security and risk models, and established mathematical formulas to identify the best approach for developing a dynamic and self adapting system for predictive cyber risk analytics supported with Artificial Intelligence and Machine Learning and real time intelligence in edge computing. The paper presents a new mathematical approach for integrating concepts for cognition engine design, edge computing and Artificial Intelligence and Machine Learning to automate anomaly detection. This engine instigates a step change by applying Artificial Intelligence and Machine Learning embedded at the edge of IoT networks, to deliver safe and functional real time intelligence for predictive cyber risk analytics. This will enhance capacities for risk analytics and assists in the creation of a comprehensive and systematic understanding of the opportunities and threats that arise when edge computing nodes are deployed, and when Artificial Intelligence and Machine Learning technologies are migrated to the periphery of the internet and into local IoT networks.