LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks
As the sixth generation (6G) network is under research, and one important issue is the aerial access network and terrestrial-space integration. The Internet of Remote Things (IoRT) sensors can access the unmanned aerial vehicles (UAVs) in the air, and low Earth orbit (LEO) satellite networks in the...
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sg-ntu-dr.10356-1598512022-07-04T08:05:01Z LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks Jia, Ziye Sheng, Min Li, Jiandong Niyato, Dusit Han, Zhu School of Computer Science and Engineering Engineering::Computer science and engineering Satellites Low Earth Orbit Satellites As the sixth generation (6G) network is under research, and one important issue is the aerial access network and terrestrial-space integration. The Internet of Remote Things (IoRT) sensors can access the unmanned aerial vehicles (UAVs) in the air, and low Earth orbit (LEO) satellite networks in the space help to provide lower transmission delay for delay-sensitive IoRT data. Therefore, in this article, we consider the LEO satellite-assisted UAV data collection for the IoRT sensors. Specifically, a UAV collects the data from the IoRT sensors, then two transmission modes for the collected data back to Earth: 1) the delay-tolerant data leveraging the carry-store mode of UAVs to Earth and 2) the delay-sensitive data utilizing the UAV-satellite network transmission to Earth. Considering the limited payloads of UAVs, we focus on minimizing the total energy cost (trajectory and transmission) of UAVs while satisfying the IoRT demands. Due to the intractability of direct solution, we deal with the problem using the Dantzig-Wolfe decomposition and design the column generation-based algorithms to efficiently solve the problem. Moreover, we present a heuristic algorithm for the subproblem to further reduce the complexity of large-scale networks. Finally, numerical results verify the efficiency of the proposed algorithms and the advantage of LEO satellite-assisted UAV trajectory design combined with the data transmission is also analyzed. This work was supported in part by the Natural Science Foundation of China under Grant U19B2025, Grant 61725103, Grant 61701363, and Grant 61931005; and in part by the Doctoral Students' Short-Term Study Abroad Scholarship Fund of Xidian University. 2022-07-04T08:05:01Z 2022-07-04T08:05:01Z 2020 Journal Article Jia, Z., Sheng, M., Li, J., Niyato, D. & Han, Z. (2020). LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks. IEEE Internet of Things Journal, 8(12), 9814-9826. https://dx.doi.org/10.1109/JIOT.2020.3021255 2327-4662 https://hdl.handle.net/10356/159851 10.1109/JIOT.2020.3021255 2-s2.0-85097830348 12 8 9814 9826 en IEEE Internet of Things Journal © 2020 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Satellites Low Earth Orbit Satellites Jia, Ziye Sheng, Min Li, Jiandong Niyato, Dusit Han, Zhu LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| description |
As the sixth generation (6G) network is under research, and one important issue is the aerial access network and terrestrial-space integration. The Internet of Remote Things (IoRT) sensors can access the unmanned aerial vehicles (UAVs) in the air, and low Earth orbit (LEO) satellite networks in the space help to provide lower transmission delay for delay-sensitive IoRT data. Therefore, in this article, we consider the LEO satellite-assisted UAV data collection for the IoRT sensors. Specifically, a UAV collects the data from the IoRT sensors, then two transmission modes for the collected data back to Earth: 1) the delay-tolerant data leveraging the carry-store mode of UAVs to Earth and 2) the delay-sensitive data utilizing the UAV-satellite network transmission to Earth. Considering the limited payloads of UAVs, we focus on minimizing the total energy cost (trajectory and transmission) of UAVs while satisfying the IoRT demands. Due to the intractability of direct solution, we deal with the problem using the Dantzig-Wolfe decomposition and design the column generation-based algorithms to efficiently solve the problem. Moreover, we present a heuristic algorithm for the subproblem to further reduce the complexity of large-scale networks. Finally, numerical results verify the efficiency of the proposed algorithms and the advantage of LEO satellite-assisted UAV trajectory design combined with the data transmission is also analyzed. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Jia, Ziye Sheng, Min Li, Jiandong Niyato, Dusit Han, Zhu |
| format |
Article |
| author |
Jia, Ziye Sheng, Min Li, Jiandong Niyato, Dusit Han, Zhu |
| author_sort |
Jia, Ziye |
| title |
LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| title_short |
LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| title_full |
LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| title_fullStr |
LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| title_full_unstemmed |
LEO-satellite-assisted UAV: joint trajectory and data collection for Internet of Remote Things in 6G aerial access networks |
| title_sort |
leo-satellite-assisted uav: joint trajectory and data collection for internet of remote things in 6g aerial access networks |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159851 |
| _version_ |
1738844786367922176 |