Offloading Energy Efficiency with Delay Constraint for Cooperative Mobile Edge Computing Networks

We propose a novel edge computing network architecture that enables edge nodes to cooperate in sharing computing and radio resources to minimize the total energy consumption of mobile users while meeting their delay requirements. To find the optimal task offloading decisions for mobile users, we fir...

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Veröffentlicht in:	arXiv.org
Hauptverfasser:	Vu, Thai T, Nguyen Van Huynh, Dinh Thai Hoang, Nguyen, Diep N, Dutkiewicz, Eryk
Format:	Paper
Sprache:	Englisch
Veröffentlicht:	Ithaca Cornell University Library, arXiv.org 30.11.2018
Schlagworte:	Computation offloading Decisions Delay Edge computing Energy conservation Energy consumption Linear programming Mixed integer Mobile computing Nonlinear programming Optimization Real variables Resource allocation User requirements Wireless networks
ISSN:	2331-8422
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Abstract	We propose a novel edge computing network architecture that enables edge nodes to cooperate in sharing computing and radio resources to minimize the total energy consumption of mobile users while meeting their delay requirements. To find the optimal task offloading decisions for mobile users, we first formulate the joint task offloading and resource allocation optimization problem as a mixed integer non-linear programming (MINLP). The optimization involves both binary (offloading decisions) and real variables (resource allocations), making it an NP-hard and computational intractable problem. To circumvent, we relax the binary decision variables to transform the MINLP to a relaxed optimization problem with real variables. After proving that the relaxed problem is a convex one, we propose two solutions namely ROP and IBBA. ROP is adopted from the interior point method and IBBA is developed from the branch and bound algorithm. Through the numerical results, we show that our proposed approaches allow minimizing the total energy consumption and meet all delay requirements for mobile users.
AbstractList	We propose a novel edge computing network architecture that enables edge nodes to cooperate in sharing computing and radio resources to minimize the total energy consumption of mobile users while meeting their delay requirements. To find the optimal task offloading decisions for mobile users, we first formulate the joint task offloading and resource allocation optimization problem as a mixed integer non-linear programming (MINLP). The optimization involves both binary (offloading decisions) and real variables (resource allocations), making it an NP-hard and computational intractable problem. To circumvent, we relax the binary decision variables to transform the MINLP to a relaxed optimization problem with real variables. After proving that the relaxed problem is a convex one, we propose two solutions namely ROP and IBBA. ROP is adopted from the interior point method and IBBA is developed from the branch and bound algorithm. Through the numerical results, we show that our proposed approaches allow minimizing the total energy consumption and meet all delay requirements for mobile users.
Author	Nguyen, Diep N Dinh Thai Hoang Dutkiewicz, Eryk Nguyen Van Huynh Vu, Thai T
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DOI	10.48550/arxiv.1811.12686
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SubjectTerms	Computation offloading Decisions Delay Edge computing Energy conservation Energy consumption Linear programming Mixed integer Mobile computing Nonlinear programming Optimization Real variables Resource allocation User requirements Wireless networks
Title	Offloading Energy Efficiency with Delay Constraint for Cooperative Mobile Edge Computing Networks
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