研究目的
Investigating the benefits of integrating failure prediction into the orchestration of 5G systems, specifically focusing on how a failure prediction module for optical links can be integrated into the recovery process of optical cloud services to improve resource efficiency and cloud service availability.
研究成果
The PPR+SR strategy significantly improves cloud service availability by proactively relocating vulnerable services before predicted failures, with minimal impact on resource efficiency. Future work will explore the effects of failure localization errors and extend the strategy to include predictions for other infrastructure elements.
研究不足
The study assumes a single link failure scenario and accurate failure location predictions. The impact of failure localization errors and predictions for other infrastructure elements are not investigated.
1:Experimental Design and Method Selection:
The study employs a simulation-based approach to evaluate the proposed Proactive Path Restoration with Service Relocation (PPR+SR) strategy against benchmark strategies (DPP, PR, PR+SR) in terms of blocking probability, availability, and the number of disrupted cloud services and relocations.
2:Sample Selection and Data Sources:
The simulation uses the NSFNET network topology with 14 nodes and 21 bidirectional links, each with 80 wavelengths, and three DCs co-located with transport nodes.
3:List of Experimental Equipment and Materials:
The simulation setup includes optical network and cloud controllers, an orchestrator, and a failure prediction module.
4:Experimental Procedures and Operational Workflow:
The simulation establishes 1 million cloud service requests, with parameters for PUs, SUs, holding time, and arrival rate defined. A single link failure scenario is assumed, with failure and repair times exponentially distributed.
5:Data Analysis Methods:
Performance metrics include average blocking probability, average availability, normalized number of disrupted cloud services, and normalized number of live relocations.
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