An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits
The scheduling of an Agile Earth Observation Satellite (AEOS) consists of selecting and scheduling a subset of possible targets for observation in order to maximize the collected profit related to the images while satisfying its operational constraints. In this problem, a set of candidate targets fo...
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2020
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sg-smu-ink.sis_research-62642020-07-30T06:58:19Z An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits PENG, Guansheng SONG, Guopeng XING, Lining GUNAWAN, Aldy VANSTEENWEGEN, Pieter The scheduling of an Agile Earth Observation Satellite (AEOS) consists of selecting and scheduling a subset of possible targets for observation in order to maximize the collected profit related to the images while satisfying its operational constraints. In this problem, a set of candidate targets for observation is given, each with a time-dependent profit and a visible time window. The exact profit of a target depends on the start time of its observation, reaching its maximum at the midpoint of its visible time window. This time dependency stems from the fact that the image quality is determined by the look angle between the satellite and the target to be observed. We present an exact algorithm for the single-orbit scheduling for an AEOS considering the time-dependent profits. The algorithm is called Adaptive-directional Dynamic Programming with Decremental State Space Relaxation (ADP-DSSR). This algorithm is based on the dynamic programming approach for the Orienteering Problem with Time Windows (OPTW). Several algorithmic improvements are proposed to address the time-dependent profits. The proposed algorithm is evaluated based on extensive computational tests. The experimental results show that the algorithmic improvements significantly reduce the required computational time. The comparison between the proposed exact algorithm and a state-of-the-art heuristic illustrates that our algorithm can find the optimal solutions for sufficiently large instances within limited computational time. The results also show that our algorithm is capable of efficiently solving benchmark OPTW instances. 2020-08-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/5261 info:doi/10.1016/j.cor.2020.104946 https://ink.library.smu.edu.sg/context/sis_research/article/6264/viewcontent/AEOS_2020_av.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Agile satellite scheduling Time-dependent profits Dynamic programming Decremental state space relaxation Theory and Algorithms |
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Agile satellite scheduling Time-dependent profits Dynamic programming Decremental state space relaxation Theory and Algorithms |
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Agile satellite scheduling Time-dependent profits Dynamic programming Decremental state space relaxation Theory and Algorithms PENG, Guansheng SONG, Guopeng XING, Lining GUNAWAN, Aldy VANSTEENWEGEN, Pieter An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
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The scheduling of an Agile Earth Observation Satellite (AEOS) consists of selecting and scheduling a subset of possible targets for observation in order to maximize the collected profit related to the images while satisfying its operational constraints. In this problem, a set of candidate targets for observation is given, each with a time-dependent profit and a visible time window. The exact profit of a target depends on the start time of its observation, reaching its maximum at the midpoint of its visible time window. This time dependency stems from the fact that the image quality is determined by the look angle between the satellite and the target to be observed. We present an exact algorithm for the single-orbit scheduling for an AEOS considering the time-dependent profits. The algorithm is called Adaptive-directional Dynamic Programming with Decremental State Space Relaxation (ADP-DSSR). This algorithm is based on the dynamic programming approach for the Orienteering Problem with Time Windows (OPTW). Several algorithmic improvements are proposed to address the time-dependent profits. The proposed algorithm is evaluated based on extensive computational tests. The experimental results show that the algorithmic improvements significantly reduce the required computational time. The comparison between the proposed exact algorithm and a state-of-the-art heuristic illustrates that our algorithm can find the optimal solutions for sufficiently large instances within limited computational time. The results also show that our algorithm is capable of efficiently solving benchmark OPTW instances. |
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text |
| author |
PENG, Guansheng SONG, Guopeng XING, Lining GUNAWAN, Aldy VANSTEENWEGEN, Pieter |
| author_facet |
PENG, Guansheng SONG, Guopeng XING, Lining GUNAWAN, Aldy VANSTEENWEGEN, Pieter |
| author_sort |
PENG, Guansheng |
| title |
An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
| title_short |
An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
| title_full |
An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
| title_fullStr |
An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
| title_full_unstemmed |
An exact algorithm for Agile Earth Observation Satellite Scheduling with time-dependent profits |
| title_sort |
exact algorithm for agile earth observation satellite scheduling with time-dependent profits |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2020 |
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https://ink.library.smu.edu.sg/sis_research/5261 https://ink.library.smu.edu.sg/context/sis_research/article/6264/viewcontent/AEOS_2020_av.pdf |
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