An Energy Aware Algorithm for Edge Task Offloading

Mobile applications are progressively becoming more sophisticated and complex, increasing their computational requirements. Traditional offloading approaches that use exclusively the Cloud infrastructure are now deemed unsuitable due to the inherent associated delay. Edge Computing can address most of the Cloud limitations at the cost of limited available resources. This bottleneck necessitates an efficient allocation of offloaded tasks from the mobile devices to the Edge. In this paper, we consider a task offloading setting with applications of different characteristics and requirements, and propose an optimal resource allocation framework leveraging the amalgamation of the edge resources. To balance the trade-off between retaining low total energy consumption, respecting end-to-end delay requirements and load balancing at the Edge, we additionally introduce a Markov Random Field based mechanism for the distribution of the excess workload. The proposed approach investigates a realistic scenario, including different categories of mobile applications, edge devices with different computational capabilities, and dynamic wireless conditions modeled by the dynamic behavior and mobility of the users. The framework is complemented with a prediction mechanism that facilitates the orchestration of the physical resources. The efficiency of the proposed scheme is evaluated via modeling and simulation and is shown to outperform a well-known task offloading solution, as well as a more recent one.

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An Energy-Aware Task Offloading Mechanism in Multiuser Mobile-Edge Cloud Computing

Mobile Information Systems ◽

10.1155/2018/7646705 ◽

2018 ◽

Vol 2018 ◽

pp. 1-12 ◽

Cited By ~ 10

Author(s):

Lan Li ◽

Xiaoyong Zhang ◽

Kaiyang Liu ◽

Fu Jiang ◽

Jun Peng

Keyword(s):

Energy Efficiency ◽

Cloud Computing ◽

Mobile Devices ◽

Access Point ◽

Mobile User ◽

Nonlinear Integer Programming ◽

Integer Programming Problem ◽

Energy Aware ◽

Energy Efficiency Improvement ◽

Task Offloading

Mobile-edge cloud computing, an emerging and prospective computing paradigm, can facilitate the complex application execution on resource-constrained mobile devices by offloading computation-intensive tasks to the mobile-edge cloud server, which is usually deployed in close proximity to the wireless access point. However, in the multichannel wireless interference environment, the competition of mobile users for communication resources is not conducive to the energy efficiency of task offloading. Therefore, how to make the offloading decision for each mobile user and select its suitable channel become critical issues. In this paper, the problem of the offloading decision is formulated as a 0-1 nonlinear integer programming problem under the constraints of channel interference threshold and the time deadline. Through the classification and priority determination for the mobile devices, a reverse auction-based offloading method is proposed to solve this optimization problem for energy efficiency improvement. The proposed algorithm not only achieves the task offloading decision but also gives the facility of resource allocation. In the energy efficiency performance aspects, simulation results show the superiority of the proposed scheme.

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Energy-Aware Task Offloading for Ultra-Dense Edge Computing

2018 IEEE International Conference on Internet of Things (iThings) and IEEE Green Computing and Communications (GreenCom) and IEEE Cyber, Physical and Social Computing (CPSCom) and IEEE Smart Data (SmartData) ◽

10.1109/cybermatics_2018.2018.00144 ◽

2018 ◽

Cited By ~ 3

Author(s):

Jie Zhang ◽

Hongzhi Guo ◽

Jiajia Liu

Keyword(s):

Edge Computing ◽

Energy Aware ◽

Task Offloading

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Energy-aware task offloading with deadline constraint in mobile edge computing

EURASIP Journal on Wireless Communications and Networking ◽

10.1186/s13638-021-01941-3 ◽

2021 ◽

Vol 2021 (1) ◽

Author(s):

Zhongjin Li ◽

Victor Chang ◽

Jidong Ge ◽

Linxuan Pan ◽

Haiyang Hu ◽

...

Keyword(s):

Performance Metrics ◽

High Energy ◽

Traffic Monitoring ◽

Edge Computing ◽

Action Space ◽

Mobile Edge Computing ◽

Energy Aware ◽

Space Problem ◽

Deadline Constraint ◽

Task Offloading

AbstractWith the development of the wireless network, increasing mobile applications are emerging and receiving great popularity. These applications cover a wide area, such as traffic monitoring, smart homes, real-time vision processing, objective tracking, and so on, and typically require computation-intensive resources to achieve a high quality of experience. Although the performance of mobile devices (MDs) has been continuously enhanced, running all the applications on a single MD still causes high energy consumption and latency. Fortunately, mobile edge computing (MEC) allows MDs to offload their computation-intensive tasks to proximal eNodeBs (eNBs) to augment computational capabilities. However, the current task offloading schemes mainly concentrate on average-based performance metrics, failing to meet the deadline constraint of the tasks. Based on the deep reinforcement learning (DRL) approach, this paper proposes an Energy-aware Task Offloading with Deadline constraint (DRL-E2D) algorithm for a multi-eNB MEC environment, which is to maximize the reward under the deadline constraint of the tasks. In terms of the actor-critic framework, we integrate the action representation into DRL-E2D to handle the large discrete action space problem, i.e., using the low-complexity k-nearest neighbor as an approximate approach to extract optimal discrete actions from the continuous action space. The extensive experimental results show that DRL-E2D achieves better performance than the comparison algorithms on all parameter settings, indicating that DRL-E2D is robust to the state changes in the MEC environment.

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