Combined Adjustment Pipeline for Improved Global Geopositioning Accuracy of Optical Satellite Imagery With the Aid of SAR and GLAS

Jiang, Yonghua; Wei, Shaodong; Xu, Miaozhong; Zhang, Guo; Wang, Jingyin

doi:10.1109/jstars.2022.3183594

Cited by 4 publications

(1 citation statement)

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“…They further utilized column generation techniques to establish an upper bound for the problem, subsequently evaluating satellite scheduling solutions against this benchmark. SAR satellites, unlike optical satellite systems, are capable of performing tasks under diverse weather conditions [21], [22]. These satellites operate based on distinct working princi ples and constraints compared to optical satellites.…”

Section: B Related Workmentioning

confidence: 99%

A Novel Spaceborne SAR Constellation Scheduling Algorithm for Sea Surface Moving Target Search Tasks

Liu,

Chang,

Deng

et al. 2024

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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With the expanding scope of human activities in marine environments, the efficient detection and tracking of mobile targets on the ocean's surface have become increasingly crucial. SAR constellation can obtain ground observation data based on user requests and subject to visibility conditions. Now it is an indispensable tool in sea surface moving target search Tasks. Satellite constellation resources are scarce and limited, and user demands are diverse. How to rationally dispatch satellite constellation resources to meet user needs to the maximum extent and improve the application efficiency of satellite resources is an urgent scientific problem that needs to be solved. This paper mainly expounds two respects of work: firstly, modeling SAR constellation scheduling problem for sea surface moving target search tasks to establish the objective function; secondly, a novel multistrategy discrete constrained differential evolution algorithm denoted as MSDCDE is proposed in the paper. The proposed MSDCDE algorithm integrates cross strategy based on discrete variables, constraint handling techniques, population restart strategy, and leftshift local strategy, which can effectively avoid falling into local optimality, thereby achieving global optimality and improving search and rescue performance. Six sets of experiments, totaling 215 runs, have been conducted to validate the effectiveness of the proposed resolution process framework and the MSDCDE algorithm. The proposed method demon strated an over 48.98% performance improvement compared to some stateoftheart algorithms and significantly reduced task completion time.

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Section: B Related Workmentioning

confidence: 99%