Open Access
An Intelligent Framework For Enhancing Reliability And Security In Distributed Multi-Cloud Computing Environments
4
Department of Software Systems Oceanview National University
Abstract
Distributed multi-cloud computing environments have emerged as a critical paradigm for supporting scalable, resilient, and flexible enterprise applications. Organizations increasingly deploy workloads across heterogeneous cloud infrastructures to avoid vendor lock-in, improve availability, strengthen disaster recovery capabilities, and optimize operational performance. However, the distributed nature of multi-cloud ecosystems introduces substantial challenges related to reliability, interoperability, governance, dynamic resource allocation, fault tolerance, and cybersecurity. This research presents an intelligent framework for enhancing reliability and security in distributed multi-cloud computing environments through integrated monitoring, adaptive orchestration, predictive analytics, policy-driven governance, and resilient service management. The proposed framework synthesizes concepts from cloud resilience engineering, quality-of-service optimization, intelligent resource management, intercloud security architectures, and enterprise governance models. The study critically evaluates existing literature related to cloud reliability, adaptive multi-cloud orchestration, risk management, scalability, and security integration. Based on the identified research gaps, the paper proposes a layered framework capable of supporting intelligent workload distribution, automated threat detection, adaptive failover mechanisms, zero-trust security enforcement, and QoS-aware service deployment. The findings demonstrate that intelligent orchestration and integrated security governance significantly improve service continuity, scalability, and operational efficiency in distributed multi-cloud systems. The paper further discusses implementation challenges, trade-offs, and future research directions involving AI-driven orchestration, edge-cloud integration, and autonomous cyber-resilient cloud architectures.
Keywords
Multi-cloud computing,
distributed cloud environments,
cloud security,
cloud reliability
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