Mobile Cloud Service Selection using Back Propagation Neural Network

Abstract: Cloud computing is a paradigm in high performance computing, focuses on provisioning ubiquitous computing with the help of Software and/or Hardware Virtualization. In Mobile Cloud Computing (MCC), mobile/portable devices access cloud resources through wireless communication(GPRS/3G/WiFi etc). MCC enhances the mobility of the cloud user which solves cloud computing issues such as Unreliability, Quality-of-Service (QoS), etc. Recently QoS has emerged as a one of the challenging issue in MCC which impact to the l… Show more

“…The most employed approaches include multicriteria decision analysis-based service selection [7,[12][13][14], reputation-aware service selection [15], adaptive learning mechanism-based service selection [8,16], economic theoretical model-based service selection [17,18], service level agreement-based service ranking [6], visualization framework for service selection [19], and trust evaluation middleware for cloud service selection [20]. Though these approaches can efficiently measure service quality, the implementation of some approaches is time-consuming and costly.…”

“…In realworld applications, QoS in MCC is referring to dynamic QoS properties (packet loss ratio, end-to-end throughput, delay, etc. ), which are affected by the user context information [8]. Context information includes location, time, resource ability (processing power, memory, or battery capacity), bandwidth, and status (online or offline).…”

Context‐Aware Cloud Service Selection Model for Mobile Cloud Computing Environments

“…The most employed approaches include multicriteria decision analysis-based service selection [7,[12][13][14], reputation-aware service selection [15], adaptive learning mechanism-based service selection [8,16], economic theoretical model-based service selection [17,18], service level agreement-based service ranking [6], visualization framework for service selection [19], and trust evaluation middleware for cloud service selection [20]. Though these approaches can efficiently measure service quality, the implementation of some approaches is time-consuming and costly.…”

“…In realworld applications, QoS in MCC is referring to dynamic QoS properties (packet loss ratio, end-to-end throughput, delay, etc. ), which are affected by the user context information [8]. Context information includes location, time, resource ability (processing power, memory, or battery capacity), bandwidth, and status (online or offline).…”

Context‐Aware Cloud Service Selection Model for Mobile Cloud Computing Environments