Sensors (Mar 2021)

Optimization-Based Resource Management Algorithms with Considerations of Client Satisfaction and High Availability in Elastic 5G Network Slices

  • Chiu-Han Hsiao,
  • Frank Yeong-Sung Lin,
  • Evana Szu-Han Fang,
  • Yu-Fang Chen,
  • Yean-Fu Wen,
  • Yennun Huang,
  • Yang-Che Su,
  • Ya-Syuan Wu,
  • Hsin-Yi Kuo

DOI
https://doi.org/10.3390/s21051882
Journal volume & issue
Vol. 21, no. 5
p. 1882

Abstract

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A combined edge and core cloud computing environment is a novel solution in 5G network slices. The clients’ high availability requirement is a challenge because it limits the possible admission control in front of the edge cloud. This work proposes an orchestrator with a mathematical programming model in a global viewpoint to solve resource management problems and satisfying the clients’ high availability requirements. The proposed Lagrangian relaxation-based approach is adopted to solve the problems at a near-optimal level for increasing the system revenue. A promising and straightforward resource management approach and several experimental cases are used to evaluate the efficiency and effectiveness. Preliminary results are presented as performance evaluations to verify the proposed approach’s suitability for edge and core cloud computing environments. The proposed orchestrator significantly enables the network slicing services and efficiently enhances the clients’ satisfaction of high availability.

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