Scaling Cloud-Native Security: Defending Against DDoS attacks in Distributed Infrastructure

Thakare, Shrikant (2025) Scaling Cloud-Native Security: Defending Against DDoS attacks in Distributed Infrastructure. World Journal of Advanced Engineering Technology and Sciences, 15 (3). pp. 486-493. ISSN 2582-8266

This technical article explores the evolution of cloud-native security strategies for defending against increasingly sophisticated Distributed Denial of Service (DDoS) attacks in modern distributed infrastructure environments. It examines how the fundamental principles of cloud-native architecture distribution, resilience, and elasticity provide inherent advantages in DDoS defense compared to traditional perimeter-based approaches. The article details a multi-layered defense blueprint incorporating auto-scaled rate-limiting layers, event-driven serverless defenses, service mesh integration, and edge computing capabilities. Special attention is given to innovative security patterns such as Kubernetes honeypots that enable proactive threat intelligence gathering without compromising production workloads. Through analysis of implementation across various industry sectors, the article demonstrates how these architectural approaches transform security from a static perimeter model to an adaptive, distributed system that scales with infrastructure. By integrating security into the fabric of cloud-native components, organizations can leverage the same distributed principles that make attacks effective to create resilient defensive postures that evolve alongside emerging threats.