Energy-efficient real-time job mapping and resource management in mobile-edge computing
Mobile-edge computing (MEC) has emerged as a promising paradigm for enabling Internet of Things (IoT) devices to handle computation-intensive jobs. Due to the imperfect parallelization of algorithms for job processing on servers and the impact of IoT device mobility on data communication quality in...
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sg-ntu-dr.10356-1796122025-01-28T15:39:33Z Energy-efficient real-time job mapping and resource management in mobile-edge computing Gao, Chuanchao Kumar, Niraj Easwaran, Arvind Interdisciplinary Graduate School (IGS) College of Computing and Data Science 2024 IEEE Real-Time Systems Symposium (RTSS) Energy Research Institute @ NTU (ERI@N) Computer and Information Science Mobile-edge computing Job offloading and scheduling with deadlines Approximation algorithm Mobile-edge computing (MEC) has emerged as a promising paradigm for enabling Internet of Things (IoT) devices to handle computation-intensive jobs. Due to the imperfect parallelization of algorithms for job processing on servers and the impact of IoT device mobility on data communication quality in wireless networks, it is crucial to jointly consider server resource allocation and IoT device mobility during job scheduling to fully benefit from MEC, which is often overlooked in existing studies. By jointly considering job scheduling, server resource allocation, and IoT device mobility, we investigate the deadline-constrained job offloading and resource management problem in MEC with both communication and computation contentions, aiming to maximize the total energy saved for IoT devices. For the offline version of the problem, where job information is known in advance, we formulate it as an Integer Linear Programming problem and propose an approximation algorithm, $\mathtt{LHJS}$, with a constant performance guarantee. For the online version, where job information is only known upon release, we propose a heuristic algorithm, $\mathtt{LBS}$, that is invoked whenever a job is released. Finally, we conduct experiments with parameters from real-world applications to evaluate their performance. Ministry of Education (MOE) Submitted/Accepted version This work was supported in part by the MoE Tier-2 grant MOE-T2EP20221-0006. 2025-01-22T06:19:11Z 2025-01-22T06:19:11Z 2025 Conference Paper Gao, C., Kumar, N. & Easwaran, A. (2025). Energy-efficient real-time job mapping and resource management in mobile-edge computing. 2024 IEEE Real-Time Systems Symposium (RTSS), 15-28. https://dx.doi.org/10.1109/RTSS62706.2024.00012 979-8-3315-4026-5 https://hdl.handle.net/10356/179612 10.1109/RTSS62706.2024.00012 15 28 en MOE-T2EP20221-0006 © 2024 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/RTSS62706.2024.00012. application/pdf |
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Computer and Information Science Mobile-edge computing Job offloading and scheduling with deadlines Approximation algorithm |
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Computer and Information Science Mobile-edge computing Job offloading and scheduling with deadlines Approximation algorithm Gao, Chuanchao Kumar, Niraj Easwaran, Arvind Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| description |
Mobile-edge computing (MEC) has emerged as a promising paradigm for enabling Internet of Things (IoT) devices to handle computation-intensive jobs. Due to the imperfect parallelization of algorithms for job processing on servers and the impact of IoT device mobility on data communication quality in wireless networks, it is crucial to jointly consider server resource allocation and IoT device mobility during job scheduling to fully benefit from MEC, which is often overlooked in existing studies. By jointly considering job scheduling, server resource allocation, and IoT device mobility, we investigate the deadline-constrained job offloading and resource management problem in MEC with both communication and computation contentions, aiming to maximize the total energy saved for IoT devices. For the offline version of the problem, where job information is known in advance, we formulate it as an Integer Linear Programming problem and propose an approximation algorithm, $\mathtt{LHJS}$, with a constant performance guarantee. For the online version, where job information is only known upon release, we propose a heuristic algorithm, $\mathtt{LBS}$, that is invoked whenever a job is released. Finally, we conduct experiments with parameters from real-world applications to evaluate their performance. |
| author2 |
Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Gao, Chuanchao Kumar, Niraj Easwaran, Arvind |
| format |
Conference or Workshop Item |
| author |
Gao, Chuanchao Kumar, Niraj Easwaran, Arvind |
| author_sort |
Gao, Chuanchao |
| title |
Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| title_short |
Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| title_full |
Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| title_fullStr |
Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| title_full_unstemmed |
Energy-efficient real-time job mapping and resource management in mobile-edge computing |
| title_sort |
energy-efficient real-time job mapping and resource management in mobile-edge computing |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/179612 |
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1823108688719642624 |