Litcius/Paper detail

Market-Based Resource Allocation of Distributed Cloud Computing Services: Virtual Energy Storage Systems

Yuechuan Tao, Jing Qiu, Shuying Lai, Xianzhuo Sun, Junhua Zhao

2022IEEE Internet of Things Journal15 citationsDOI

Abstract

The cloud-based application is a major developing feature of smart grids. Apart from centralized Internet data centers (IDCs), distributed cloud resources (CRs) can also provide cloud computing services with low latency and high reliability. For the distributed cloud computing, CRs aggregators (CRAs) will integrate the distributed idle computing resources, which are dispersed energy consumers in the system, to form virtual IDCs. This article presents a market-based computing resource allocation method for distributed cloud computing services. The computing resource allocation refers to the approach to allocating the computing workloads to different CRs. First, the batch workload scheduling (BWS)-based virtual energy storage system (VESS) model and thermal inertia (TI)-based VESS model are proposed to help CRAs better aggregate the distributed CRs and characterize the energy consumption flexibility of the virtual IDCs. Then, the energy trading behavior of the CRAs in the transactive energy market is modeled in the resource allocation process. Case studies are conducted on a 55-bus electricity system. It can be found that energy consumption costs can be reduced by applying the proposed methodology, and revenues from providing cloud computing services can be increased.

Topics & Concepts

Cloud computingComputer scienceDistributed computingEnergy consumptionUtility computingVirtual machineResource allocationScheduling (production processes)Computer networkCloud computing securityOperating systemEngineeringOperations managementElectrical engineeringCloud Computing and Resource ManagementSmart Grid Energy ManagementDistributed and Parallel Computing Systems