Open AccessPosted Content
Joint Task Offloading and Resource Allocation for Multi-Server Mobile-Edge Computing Networks
Tuyen X. Tran,Dario Pompili +1 more
Reads0
Chats0
TLDR
In this paper, the problem of joint task offloading and resource allocation in a MEC enabled multi-cell wireless network is considered, where each base station (BS) is equipped with a mobile edge computing server that can assist mobile users in executing computation-intensive tasks via offloading.Abstract:
Mobile-Edge Computing (MEC) is an emerging paradigm that provides a capillary distribution of cloud computing capabilities to the edge of the wireless access network, enabling rich services and applications in close proximity to the end users. In this article, a MEC enabled multi-cell wireless network is considered where each Base Station (BS) is equipped with a MEC server that can assist mobile users in executing computation-intensive tasks via task offloading. The problem of Joint Task Offloading and Resource Allocation (JTORA) is studied in order to maximize the users' task offloading gains, which is measured by the reduction in task completion time and energy consumption. The considered problem is formulated as a Mixed Integer Non-linear Program (MINLP) that involves jointly optimizing the task offloading decision, uplink transmission power of mobile users, and computing resource allocation at the MEC servers. Due to the NP-hardness of this problem, solving for optimal solution is difficult and impractical for a large-scale network. To overcome this drawback, our approach is to decompose the original problem into (i) a Resource Allocation (RA) problem with fixed task offloading decision and (ii) a Task Offloading (TO) problem that optimizes the optimal-value function corresponding to the RA problem. We address the RA problem using convex and quasi-convex optimization techniques, and propose a novel heuristic algorithm to the TO problem that achieves a suboptimal solution in polynomial time. Numerical simulation results show that our algorithm performs closely to the optimal solution and that it significantly improves the users' offloading utility over traditional approaches.read more
Citations
More filters
Journal ArticleDOI
Task Offloading for Mobile Edge Computing in Software Defined Ultra-Dense Network
TL;DR: This paper investigates the task offloading problem in ultra-dense network aiming to minimize the delay while saving the battery life of user’s equipment and proposes an efficient offloading scheme which can reduce 20% of the task duration with 30% energy saving.
Journal ArticleDOI
Deep Reinforcement Learning for Online Computation Offloading in Wireless Powered Mobile-Edge Computing Networks
TL;DR: In this article, a Deep Reinforcement Learning-based Online Offloading (DROO) framework is proposed to optimize task offloading decisions and wireless resource allocation to the time-varying wireless channel conditions.
Journal ArticleDOI
Deep Reinforcement Learning for Online Computation Offloading in Wireless Powered Mobile-Edge Computing Networks
TL;DR: In this article, a Deep Reinforcement Learning-based Online Offloading (DROO) framework is proposed to optimize task offloading decisions and wireless resource allocation to the time-varying wireless channel conditions.
Posted Content
A Survey of Multi-Access Edge Computing in 5G and Beyond: Fundamentals, Technology Integration, and State-of-the-Art
Quoc-Viet Pham,Fang Fang,Vu Nguyen Ha,Md. Jalil Piran,Mai Le,Long Bao Le,Won-Joo Hwang,Zhiguo Ding +7 more
TL;DR: This survey provides a holistic overview of MEC technology and its potential use cases and applications, and outlines up-to-date researches on the integration of M EC with the new technologies that will be deployed in 5G and beyond.
Journal ArticleDOI
Differentially Private Asynchronous Federated Learning for Mobile Edge Computing in Urban Informatics
TL;DR: This article incorporates local differential privacy into federated learning for protecting the privacy of updated local models and proposes a random distributed update scheme to get rid of the security threats led by a centralized curator.
References
More filters
Posted Content
A Survey on Mobile Edge Computing: The Communication Perspective
TL;DR: A comprehensive survey of the state-of-the-art MEC research with a focus on joint radio-and-computational resource management and recent standardization efforts on MEC are introduced.
Book
4G: LTE/LTE-Advanced for Mobile Broadband
TL;DR: In this article, the authors focus on LTE with full updates including LTE-Advanced to provide a complete picture of the LTE system, including the physical layer, access procedures, broadcast, relaying, spectrum and RF characteristics, and system performance.
Journal ArticleDOI
Dynamic Computation Offloading for Mobile-Edge Computing With Energy Harvesting Devices
TL;DR: In this paper, a low-complexity online algorithm is proposed, namely, the Lyapunov optimization-based dynamic computation offloading algorithm, which jointly decides the offloading decision, the CPU-cycle frequencies for mobile execution, and the transmit power for computing offloading.
Posted Content
Efficient Multi-User Computation Offloading for Mobile-Edge Cloud Computing
TL;DR: This paper designs a distributed computation offloading algorithm that can achieve a Nash equilibrium, derive the upper bound of the convergence time, and quantify its efficiency ratio over the centralized optimal solutions in terms of two important performance metrics.
Journal ArticleDOI
User Association for Load Balancing in Heterogeneous Cellular Networks
Ye Qiaoyang,Beiyu Rong,Yudong Chen,Mazin Al-Shalash,Constantine Caramanis,Jeffrey G. Andrews +5 more
TL;DR: In this paper, the authors provide a low-complexity distributed algorithm that converges to a near-optimal solution with a theoretical performance guarantee, and observe that simple per-tier biasing loses surprisingly little, if the bias values Aj are chosen carefully.