Vehicular cloud computing (VCC) is a promising technology for the intelligent transport system. It provides a better quality of transport and vehicular services that will increase the safety and comfort of drivers and passengers. A group of vehicles creates VCC and offers vehicular services for its users in the absence of infrastructure to support the system. The vehicles having computing, storage, communication, and sensing devices can share these resources with other vehicles. VCC creates a resource pool by aggregating all the shared resources of nearby vehicles. The major challenge for VCC is to manage the resources from different vehicles in a resource pool and to allocate necessary resources to its user on‐demand. The authors propose a semi‐Markov decision process based resource allocation method for the VCC system called flexible resource allocation for vehicular cloud system to manage and allocate the resources. The proposed method finds optimal resource allocation strategies for different states of the VCC system and maximises the long‐term expected reward under different parameter settings.
FRAC: a flexible resource allocation for vehicular cloud system
IET Intelligent Transport Systems ; 14 , 14 ; 2141-2150
2020-12-01
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
VCC system , Markov processes , vehicular cloud computing , flexible resource allocation , optimal resource allocation strategies , intelligent transport system , vehicular services , resource pool , necessary resources , cloud computing , shared resources , resource allocation , nearby vehicles , optimisation , vehicular cloud system , resource allocation method