ANALYSIS OF A SIMULATION FRAMEWORK FOR A SELF-REGULATING VIRTUAL PRIVATE COMMUNICATION NETWORK
Keywords:
The expansion of cloud platforms, distributed computing environments, and mobile data ecosystems has intensified the demand for robust secure communication channels.Abstract
This work develops and evaluates a simulation framework for a self-regulating virtual private communication network (SOVPCN) built on distributed cooperation, adaptive route reconstruction, and encrypted data transmission. Unlike conventional VPN systems that rely on centralized oversight, the proposed configuration delegates operating logic to each network participant, enabling autonomous routing recovery, balanced traffic distribution, and improved resilience against unauthorized access. The experimental results reveal marked enhancement in reliability, scalability, and security performance, demonstrating the practical value of autonomous organization in advanced secure communication systems.
References
D. Komosny, “Ad Hoc Secure Routing Mechanisms in Distributed Networks,” IEEE Transactions on Communications, vol. 69, no. 4, pp. 1982–1995, 2022.
M. Fazio and A. Celesti, “Virtual Network Isolation and Security Control Architectures,” Journal of Network and Computer Applications, vol. 198, pp. 1–14, 2021.
L. Chen and S. Zheng, “Self-Organizing Mesh Technologies for Encrypted Systems,” Computer Networks, vol. 187, pp. 65–82, 2021.
J. Park, “Dynamic Key Exchange for Mobile-VPN Systems,” IEEE Access, vol. 9, pp. 73114–73128, 2021.
N. Kothari, “Decentralized Trust Management Algorithms,” ACM Computing Surveys, vol. 53, no. 6, pp. 1–29, 2020.
A. R. Rahimov, “Autonomous Virtual Private Routing Models,” International Journal of Secure Systems, vol. 15, no. 2, pp. 55–73, 2022.
Downloads
Published
Versions
- 2025-12-19 (2)
- 2025-12-01 (1)