Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach
The Space-Air-Ground Integrated Network (SAGIN), crucial to the advancement of sixth-generation (6G) technology, plays a key role in ensuring universal connectivity, particularly by addressing the communication needs of remote areas lacking cellular network infrastructure. This paper delves into the...
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sg-ntu-dr.10356-1810222024-11-12T01:05:51Z Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach Gao, Yulan Ye, Ziqiang Yu, Han College of Computing and Data Science Computer and Information Science Space-air-ground integrated network Deep reinforcement learning The Space-Air-Ground Integrated Network (SAGIN), crucial to the advancement of sixth-generation (6G) technology, plays a key role in ensuring universal connectivity, particularly by addressing the communication needs of remote areas lacking cellular network infrastructure. This paper delves into the role of unmanned aerial vehicles (UAVs) within SAGIN, where they act as a control layer owing to their adaptable deployment capabilities and their intermediary role. Equipped with millimeter-wave (mmWave) radar and vision sensors, these UAVs are capable of acquiring multi-source data, which helps to diminish uncertainty and enhance the accuracy of decision-making. Concurrently, UAVs collect tasks requiring computing resources from their coverage areas, originating from a variety of mobile devices moving at different speeds. These tasks are then allocated to ground base stations (BSs), low-earth-orbit (LEO) satellite, and local processing units to improve processing efficiency. Amidst this framework, our study concentrates on devising dynamic strategies for facilitating task hosting between mobile devices and UAVs, offloading computations, managing associations between UAVs and BSs, and allocating computing resources. The objective is to minimize the time-averaged network cost, considering the uncertainty of device locations, speeds, and even types. To tackle these complexities, we propose a deep reinforcement learning and perception-aided online approach (DRL-and-Perception-aided Approach) for this joint optimization in SAGIN, tailored for an environment filled with uncertainties. The effectiveness of our proposed approach is validated through extensive numerical simulations, which quantify its performance relative to various network parameters. National Research Foundation (NRF) This research is supported by National Research Foundation, Singapore and DSO National Laboratories under the AI Singapore Programme (Award No: AISG2-RP-2020-019). 2024-11-12T01:05:51Z 2024-11-12T01:05:51Z 2024 Journal Article Gao, Y., Ye, Z. & Yu, H. (2024). Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach. IEEE Journal On Selected Areas in Communications, 3459073-. https://dx.doi.org/10.1109/JSAC.2024.3459073 0733-8716 https://hdl.handle.net/10356/181022 10.1109/JSAC.2024.3459073 2-s2.0-85204204956 3459073 en AISG2-RP-2020-019 IEEE Journal on Selected Areas in Communications © 2024 IEEE. All rights reserved. |
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Computer and Information Science Space-air-ground integrated network Deep reinforcement learning |
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Computer and Information Science Space-air-ground integrated network Deep reinforcement learning Gao, Yulan Ye, Ziqiang Yu, Han Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| description |
The Space-Air-Ground Integrated Network (SAGIN), crucial to the advancement of sixth-generation (6G) technology, plays a key role in ensuring universal connectivity, particularly by addressing the communication needs of remote areas lacking cellular network infrastructure. This paper delves into the role of unmanned aerial vehicles (UAVs) within SAGIN, where they act as a control layer owing to their adaptable deployment capabilities and their intermediary role. Equipped with millimeter-wave (mmWave) radar and vision sensors, these UAVs are capable of acquiring multi-source data, which helps to diminish uncertainty and enhance the accuracy of decision-making. Concurrently, UAVs collect tasks requiring computing resources from their coverage areas, originating from a variety of mobile devices moving at different speeds. These tasks are then allocated to ground base stations (BSs), low-earth-orbit (LEO) satellite, and local processing units to improve processing efficiency. Amidst this framework, our study concentrates on devising dynamic strategies for facilitating task hosting between mobile devices and UAVs, offloading computations, managing associations between UAVs and BSs, and allocating computing resources. The objective is to minimize the time-averaged network cost, considering the uncertainty of device locations, speeds, and even types. To tackle these complexities, we propose a deep reinforcement learning and perception-aided online approach (DRL-and-Perception-aided Approach) for this joint optimization in SAGIN, tailored for an environment filled with uncertainties. The effectiveness of our proposed approach is validated through extensive numerical simulations, which quantify its performance relative to various network parameters. |
| author2 |
College of Computing and Data Science |
| author_facet |
College of Computing and Data Science Gao, Yulan Ye, Ziqiang Yu, Han |
| format |
Article |
| author |
Gao, Yulan Ye, Ziqiang Yu, Han |
| author_sort |
Gao, Yulan |
| title |
Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| title_short |
Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| title_full |
Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| title_fullStr |
Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| title_full_unstemmed |
Cost-efficient computation offloading in SAGIN: a deep reinforcement learning and perception-aided approach |
| title_sort |
cost-efficient computation offloading in sagin: a deep reinforcement learning and perception-aided approach |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181022 |
| _version_ |
1816858957776420864 |