Computation Task Offloading for Minimizing Energy Consumption with Mobile Edge Computing

Mobile edge computing (MEC) has been envisaged as one of the most promising technologies in the fifth generation (5G) mobile networks. It allows mobile devices to offload their computation-demanding and latency-critical tasks to the resource-rich MEC servers. Accordingly, MEC can significantly improve the latency performance and reduce energy consumption for mobile devices. Nonetheless, privacy leakage may occur during the task offloading process. Most existing works ignored these issues or just investigated the system-level solution for MEC. Privacy-aware and user-level task offloading optimization problems receive much less attention. In order to tackle these challenges, a privacy-preserving and device-managed task offloading scheme is proposed in this paper for MEC. This scheme can achieve near-optimal latency and energy performance while protecting the location privacy and usage pattern privacy of users. Firstly, we formulate the joint optimization problem of task offloading and privacy preservation as a semiparametric contextual multi-armed bandit (MAB) problem, which has a relaxed reward model. Then, we propose a privacy-aware online task offloading (PAOTO) algorithm based on the transformed Thompson sampling (TS) architecture, through which we can (1) receive the best possible delay and energy consumption performance, (2) achieve the goal of preserving privacy, and (3) obtain an online device-managed task offloading policy without requiring any system-level information. Simulation results demonstrate that the proposed scheme outperforms the existing methods in terms of minimizing the system cost and preserving the privacy of users.

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Collaborative Task Offloading with Computation Result Reusing for Mobile Edge Computing

The Computer Journal ◽

10.1093/comjnl/bxz027 ◽

2019 ◽

Vol 62 (10) ◽

pp. 1450-1462 ◽

Cited By ~ 3

Author(s):

Zikai Zhang ◽

Jigang Wu ◽

Long Chen ◽

Guiyuan Jiang ◽

Siew-Kei Lam

Keyword(s):

Energy Consumption ◽

Real Time ◽

Online Algorithm ◽

Computation Time ◽

Edge Computing ◽

Mobile Edge Computing ◽

Delay Constraint ◽

Programming Technique ◽

System Environment ◽

Task Offloading

AbstractThe task offloading problem, which aims to balance the energy consumption and latency for Mobile Edge Computing (MEC), is still a challenging problem due to the dynamic changing system environment. To reduce energy while guaranteeing delay constraint for mobile applications, we propose an access control management architecture for 5G heterogeneous network by making full use of Base Station’s storage capability and reusing repetitive computational resource for tasks. For applications that rely on real-time information, we propose two algorithms to offload tasks with consideration of both energy efficiency and computation time constraint. For the first scenario, i.e. the rarely changing system environment, an optimal static algorithm is proposed based on dynamic programming technique to get the exact solution. For the second scenario, i.e. the frequently changing system environment, a two-stage online algorithm is proposed to adaptively obtain the current optimal solution in real time. Simulation results demonstrate that the exact algorithm in the first scenario runs 4 times faster than the enumeration method. In the second scenario, the proposed online algorithm can reduce the energy consumption and computation time violation rate by 16.3% and 25% in comparison with existing methods.

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Task Offloading and Scheduling Strategy for Intelligent Prosthesis in Mobile Edge Computing Environment

Wireless Communications and Mobile Computing ◽

10.1155/2022/2890473 ◽

2022 ◽

Vol 2022 ◽

pp. 1-13

Author(s):

Ping Qi

Keyword(s):

Deep Learning ◽

Energy Consumption ◽

Learning Algorithm ◽

Problem Definition ◽

Edge Computing ◽

Computation Offloading ◽

Mobile Edge Computing ◽

Intent Recognition ◽

Scheduling Strategy ◽

Task Offloading

Traditional intent recognition algorithms of intelligent prosthesis often use deep learning technology. However, deep learning’s high accuracy comes at the expense of high computational and energy consumption requirements. Mobile edge computing is a viable solution to meet the high computation and real-time execution requirements of deep learning algorithm on mobile device. In this paper, we consider the computation offloading problem of multiple heterogeneous edge servers in intelligent prosthesis scenario. Firstly, we present the problem definition and the detail design of MEC-based task offloading model for deep neural network. Then, considering the mobility of amputees, the mobility-aware energy consumption model and latency model are proposed. By deploying the deep learning-based motion intent recognition algorithm on intelligent prosthesis in a real-world MEC environment, the effectiveness of the task offloading and scheduling strategy is demonstrated. The experimental results show that the proposed algorithms can always find the optimal task offloading and scheduling decision.

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Pricing-Driven Service Caching and Task Offloading in Mobile Edge Computing

IEEE Transactions on Wireless Communications ◽

10.1109/twc.2021.3059692 ◽

2021 ◽

pp. 1-1

Author(s):

Jia Yan ◽

Suzhi Bi ◽

Lingjie Duan ◽

Ying-Jun Angela Zhang

Keyword(s):

Edge Computing ◽

Mobile Edge Computing ◽

And Task ◽

Task Offloading

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Computation offloading through mobile vehicles in IoT-edge-cloud network

EURASIP Journal on Wireless Communications and Networking ◽

10.1186/s13638-020-01848-5 ◽

2020 ◽

Vol 2020 (1) ◽

Author(s):

Jun Long ◽

Yueyi Luo ◽

Xiaoyu Zhu ◽

Entao Luo ◽

Mingfeng Huang

Keyword(s):

Reinforcement Learning ◽

Energy Consumption ◽

Low Cost ◽

Computation Offloading ◽

Mobile Edge Computing ◽

Challenging Problem ◽

Learning Technique ◽

Cloud Network ◽

The City ◽

Task Offloading

AbstractWith the developing of Internet of Things (IoT) and mobile edge computing (MEC), more and more sensing devices are widely deployed in the smart city. These sensing devices generate various kinds of tasks, which need to be sent to cloud to process. Usually, the sensing devices do not equip with wireless modules, because it is neither economical nor energy saving. Thus, it is a challenging problem to find a way to offload tasks for sensing devices. However, many vehicles are moving around the city, which can communicate with sensing devices in an effective and low-cost way. In this paper, we propose a computation offloading scheme through mobile vehicles in IoT-edge-cloud network. The sensing devices generate tasks and transmit the tasks to vehicles, then the vehicles decide to compute the tasks in the local vehicle, MEC server or cloud center. The computation offloading decision is made based on the utility function of the energy consumption and transmission delay, and the deep reinforcement learning technique is adopted to make decisions. Our proposed method can make full use of the existing infrastructures to implement the task offloading of sensing devices, the experimental results show that our proposed solution can achieve the maximum reward and decrease delay.

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