We propose a novel spatio-temporal service composition framework for crowdsourcing multiple IoT energy services to cater to multiple energy requests. We define a new energy service model to leverage the wearable-based energy and wireless power transfer technologies. We reformulate the problem of spatio-temporal service composition to provision multiple energy requests as a matching problem. We leverage the fragmented nature of energy to offer partial services to maximize the utilization of energy services. We propose EnergyFlowComp, a modified Maximum Flow matching algorithm that efficiently provisions IoT energy services to accommodate multiple energy requests. Moreover, we propose PartialFlowComp, an extension of the EnergyFlowComp approach that considers the partial-temporal overlap between services and requests in provisioning. We conduct an extensive set of experiments to assess the effectiveness and efficiency of the proposed framework.
@article{arxiv.2308.09886,
title = {Flow-Based Energy Services Composition},
author = {Amani Abusafia and Abdallah Lakhdari and Athman Bouguettaya},
journal= {arXiv preprint arXiv:2308.09886},
year = {2023}
}
Comments
14 pages, 19 Figures, This is an accepted paper in the IEEE Transactions on Services Computing (IEEE TSC)