Article contents
Safeguarding OT Networks in Biotech Manufacturing Plants
Abstract
This article presents advanced methodologies for securing operational technology networks in biotech manufacturing environments. The integration of comprehensive security approaches is essential for protecting critical systems that control the production of life-saving therapeutics. Segmented network architectures establish the foundation for defense-in-depth strategies, while zero-trust security models provide continuous verification of device identity and strict access controls. Performance optimization techniques ensure the low-latency communication required for real-time monitoring, supported by redundancy mechanisms that maintain continuous operations. Centralized monitoring systems enable early detection of anomalies through advanced analytics, facilitating proactive maintenance and regulatory compliance. Phased migration strategies allow for seamless transitions from legacy to modern architectures while maintaining production continuity. The article addresses contemporary challenges including legacy system integration and evolving cyber threats, while exploring future directions such as AI-driven security, edge computing, and sustainable network infrastructures. These methodologies collectively enhance security posture, operational efficiency, and regulatory compliance in highly regulated biotech manufacturing environments.
Article information
Journal
Journal of Computer Science and Technology Studies
Volume (Issue)
7 (3)
Pages
972-981
Published
Copyright
Open access

This work is licensed under a Creative Commons Attribution 4.0 International License.