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Issue No. 08 - Aug. (2015 vol. 26)
ISSN: 1045-9219
pp: 2363-2372
Hariharasudhan Viswanathan , Rutgers Discovery Informatics Institute (RDI2) and the NSF Center for Cloud and Autonomic Computing (CAC), Department of Electrical and Computer Engineering, Rutgers University?, New Brunswick, NJ
Eun Kyung Lee , Rutgers Discovery Informatics Institute (RDI2) and the NSF Center for Cloud and Autonomic Computing (CAC), Department of Electrical and Computer Engineering, Rutgers University?, New Brunswick, NJ
Ivan Rodero , Rutgers Discovery Informatics Institute (RDI2) and the NSF Center for Cloud and Autonomic Computing (CAC), Department of Electrical and Computer Engineering, Rutgers University?, New Brunswick, NJ
Dario Pompili , Rutgers Discovery Informatics Institute (RDI2) and the NSF Center for Cloud and Autonomic Computing (CAC), Department of Electrical and Computer Engineering, Rutgers University?, New Brunswick, NJ
ABSTRACT
Mobile platforms are becoming the predominant medium of access to Internet services due to the tremendous increase in their computation and communication capabilities. However, enabling applications that require real-time in-the-field data collection and processing using mobile platforms is still challenging due to i) the insufficient computing capabilities and unavailability of complete data on individual mobile devices and ii) the prohibitive communication cost and response time involved in offloading data to remote computing resources such as cloud datacenters for centralized computation. A novel resource provisioning framework for organizing the heterogeneous sensing, computing, and communication capabilities of static and mobile devices in the vicinity in order to form an elastic resource pool—a hybrid static/mobile computing grid (also called a loosely-coupled mobile device cloud)—is presented. This local computing grid can be harnessed to enable innovative data- and compute-intensive mobile applications such as ubiquitous context-aware health and wellness monitoring of the elderly, distributed rainfall and flood-risk estimation, distributed object recognition and tracking, and content-based distributed multimedia search and sharing. In order to address challenges such as the inherent uncertainty in the hybrid grid (in terms of network connectivity and device availability), the proposed role-based resource provisioning framework is imparted with autonomic capabilities, namely, self-organization, self-optimization, and self-healing. A thorough experimental analysis aimed at verifying and demonstrating the benefits brought by autonomic capabilities of the framework is also presented in detail.
INDEX TERMS
Uncertainty, Mobile communication, Resource management, Mobile handsets, Batteries, Availability, Artificial neural networks
CITATION

H. Viswanathan, E. K. Lee, I. Rodero and D. Pompili, "Uncertainty-Aware Autonomic Resource Provisioning for Mobile Cloud Computing," in IEEE Transactions on Parallel & Distributed Systems, vol. 26, no. 8, pp. 2363-2372, 2015.
doi:10.1109/TPDS.2014.2345057
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