Server Hazard Risk Awareness User Allocation in Urban-Scale Edges
IEEE Transactions on Services Computing(2023)
摘要
Edge computing deploys edges close to end-users to provide highly accessible resources and latency-sensitive services. It is invaluable for urban crowd/hazard management services, e.g., real-time dynamic route planning and hazard monitoring/analysis, etc. However, in such scenarios, various types of urban hazards jeopardize the usability of edge servers. Worsely, these hazards could be integrated, like gas fires caused by urban earthquakes. In this regard, the formulation of usability risks that servers face is intractable due to the complexity, incomplete real-time data and insufficient expert knowledge of these integrated hazards. Therefore, we innovatively define the usability risks as
Server Hazard Risk
model from the view of the spatial data field by utilizing
Information Diffusion technique
which can overcome the adverse conditions above. Then we involve it to formulate the
Server Hazard Risk User Allocation
(SR-UA) problem, and analyze three typical solutions from the perspective of optimality and efficiency, which are the Lexicographic Goal Programming approach (SR-UA-LGP), the Approximation approach (SR-UA-A) and the Particle Swarm Optimization-based approach (SR-UA-PSO). The extensive experiments based on two real-world datasets illustrate the superior performance of our model and solutions.
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关键词
Public safety,edge computing,edge user allocation,server hazard risk
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