Enhancing Cybersecurity Measures in Critical Infrastructure: Challenges and Innovations for Resilience

Background: Traditional cybersecurity approaches, such as firewalls, intrusion detection systems, and antivirus software, are increasingly inadequate in countering sophisticated attacks that exploit emerging vulnerabilities in supply chains, industrial control systems (ICS), and operational technologies.

Aim: This review deals with challenges and innovations concerning the enhancement of cybersecurity measures taken for critical infrastructures, with a focus on energy grids, healthcare systems, and transportation networks. The study aims at identification of vulnerabilities, an assessment of advanced threat detection systems, and analysis of network protection protocols for improvements in resilience against cyber threats.

Study Design: The study is a peer literature review from 2019 to 2024 concerning cybersecurity measures in critical infrastructures. The result will therefore, involve a selection from various scholarly journals in an informed approach.

Methodology: The research uses a peer literature review methodology. The databases employed in this paper are Google Scholar, Scopus, IEEE Xplore, and the International Journal of Critical Infrastructure Protection. Articles were selected based on relevance to cybersecurity in critical infrastructure, focusing on advanced threat detection, network protection, and resilience strategies.

Results: The review identifies 25 key studies that show a growth in sophistication in cyber threats against critical infrastructure. Among the promising technologies to mitigate the risks are AI-driven threat detection, blockchain for secure data transmission, and zero-trust architectures. Case studies from the energy and healthcare sectors demonstrate how these technologies can enhance resilience. Yet, resource constraints, lack of standardized protocols, and human error remain significant barriers.

Conclusions: The study concludes that though there has been significant development in the cybersecurity measures of critical infrastructure, continuous innovation and collaboration by all stakeholders are required to overcome the challenges faced. Future research should be directed towards the development of standardized frameworks, better workforce training, and the long-term efficacy of emerging technologies. By addressing these areas, the study underscores the practical importance of advancing cybersecurity measures to safeguard critical infrastructure in energy, healthcare, and transportation sectors.