Computation Offloading and Resource Allocation in Vehicular Networks Based on Dual-Side Cost Minimization

The proliferation of smart vehicular terminals (VTs) and their resource hungry applications impose serious challenges to the processing capabilities of VTs and the delivery of vehicular services. Mobile Edge Computing (MEC) offers a promising paradigm to solve this problem by offloading VT applicati...

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Published in	IEEE transactions on vehicular technology Vol. 68; no. 2; pp. 1079 - 1092
Main Authors	Du, Jianbo, Yu, F. Richard, Chu, Xiaoli, Feng, Jie, Lu, Guangyue
Format	Journal Article
Language	English
Published	New York IEEE 01.02.2019 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Ad hoc networks Computation offloading Computer simulation Cost engineering Design optimization Edge computing Energy consumption Iterative algorithms Iterative methods Minimization Mobile computing mobile edge computing Optimization Power management Provisioning Resource allocation Resource management Servers stochastic optimization Task analysis Vehicles vehicular networks Wireless communication
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Abstract	The proliferation of smart vehicular terminals (VTs) and their resource hungry applications impose serious challenges to the processing capabilities of VTs and the delivery of vehicular services. Mobile Edge Computing (MEC) offers a promising paradigm to solve this problem by offloading VT applications to proximal MEC servers, while TV white space (TVWS) bands can be used to supplement the bandwidth for computation offloading. In this paper, we consider a cognitive vehicular network that uses the TVWS band, and formulate a dual-side optimization problem, to minimize the cost of VTs and that of the MEC server at the same time. Specifically, the dual-side cost minimization is achieved by jointly optimizing the offloading decision and local CPU frequency on the VT side, and the radio resource allocation and server provisioning on the server side, while guaranteeing network stability. Based on Lyapunov optimization, we design an algorithm called DDORV to tackle the joint optimization problem, where only current system states, such as channel states and traffic arrivals, are needed. The closed-form solution to the VT-side problem is obtained easily by derivation and comparing two values. For MEC server side optimization, we first obtain server provisioning independently, and then devise a continuous relaxation and Lagrangian dual decomposition based iterative algorithm for joint radio resource and power allocation. Simulation results demonstrate that DDORV converges fast, can balance the cost-delay tradeoff flexibly, and can obtain more performance gains in cost reduction as compared with existing schemes.
AbstractList	The proliferation of smart vehicular terminals (VTs) and their resource hungry applications impose serious challenges to the processing capabilities of VTs and the delivery of vehicular services. Mobile Edge Computing (MEC) offers a promising paradigm to solve this problem by offloading VT applications to proximal MEC servers, while TV white space (TVWS) bands can be used to supplement the bandwidth for computation offloading. In this paper, we consider a cognitive vehicular network that uses the TVWS band, and formulate a dual-side optimization problem, to minimize the cost of VTs and that of the MEC server at the same time. Specifically, the dual-side cost minimization is achieved by jointly optimizing the offloading decision and local CPU frequency on the VT side, and the radio resource allocation and server provisioning on the server side, while guaranteeing network stability. Based on Lyapunov optimization, we design an algorithm called DDORV to tackle the joint optimization problem, where only current system states, such as channel states and traffic arrivals, are needed. The closed-form solution to the VT-side problem is obtained easily by derivation and comparing two values. For MEC server side optimization, we first obtain server provisioning independently, and then devise a continuous relaxation and Lagrangian dual decomposition based iterative algorithm for joint radio resource and power allocation. Simulation results demonstrate that DDORV converges fast, can balance the cost-delay tradeoff flexibly, and can obtain more performance gains in cost reduction as compared with existing schemes.
Author	Du, Jianbo Chu, Xiaoli Feng, Jie Lu, Guangyue Yu, F. Richard
Author_xml	– sequence: 1 givenname: Jianbo orcidid: 0000-0002-0845-4942 surname: Du fullname: Du, Jianbo email: dujianboo@163.com organization: Shaanxi Key Laboratory of Information Communication Network and Security, Xi'an University of Posts and Telecommunications, Xi'an, China – sequence: 2 givenname: F. Richard orcidid: 0000-0003-1006-7594 surname: Yu fullname: Yu, F. Richard email: Richard.Yu@carleton.ca organization: Systems and Computer Engineering, Carleton University, Ottawa, ON, Canada – sequence: 3 givenname: Xiaoli orcidid: 0000-0003-1863-6149 surname: Chu fullname: Chu, Xiaoli email: x.chu@sheffield.ac.uk organization: Department of Electronic and Electrical Engineering, The University of Sheffield, Sheffield, UK – sequence: 4 givenname: Jie orcidid: 0000-0002-5474-3286 surname: Feng fullname: Feng, Jie email: jiefengcl@163.com organization: State Key Laboratory of ISN, Xidian University, No.2 Taibainan-lu, Xi'an, China – sequence: 5 givenname: Guangyue orcidid: 0000-0002-3938-9207 surname: Lu fullname: Lu, Guangyue email: tonylugy@163.com organization: Shaanxi Key Laboratory of Information Communication Network and Security, Xi'an University of Posts and Telecommunications, Xi'an, China
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SubjectTerms	Ad hoc networks Computation offloading Computer simulation Cost engineering Design optimization Edge computing Energy consumption Iterative algorithms Iterative methods Minimization Mobile computing mobile edge computing Optimization Power management Provisioning Resource allocation Resource management Servers stochastic optimization Task analysis Vehicles vehicular networks Wireless communication
Title	Computation Offloading and Resource Allocation in Vehicular Networks Based on Dual-Side Cost Minimization
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