Lahmeri MA, Mustieles Perez V, Vossiek M, Krieger G, Schober R (2024)
Publication Language: English
Publication Type: Conference contribution, Original article
Publication year: 2024
Publisher: Institute of Electrical and Electronics Engineers Inc.
Pages Range: 3913-3918
Conference Proceedings Title: IEEE International Conference on Communications
ISBN: 9781728190549
URI: https://ieeexplore.ieee.org/abstract/document/10622647
DOI: 10.1109/ICC51166.2024.10622647
Interferometric synthetic aperture radar (InSAR) is an increasingly important remote sensing technique that enables three-dimensional (3D) sensing applications such as the generation of accurate digital elevation models (DEMs). In this paper, we investigate the joint formation and communication resource allocation optimization for a system comprising two unmanned aerial vehicles (UAVs) to perform InSAR sensing and to transfer the acquired data to the ground. To this end, we adopt as sensing performance metrics the interferometric coherence, i.e., the local correlation between the two co-registered UAV radar images, and the height of ambiguity (HoA), which together are a measure for the accuracy with which the InSAR system can estimate the height of ground objects. In addition, an analytical expression for the coverage of the considered InSAR sensing system is derived. Our objective is to maximize the InSAR coverage while satisfying all relevant InSAR-specific sensing and communication performance metrics. To tackle the non-convexity of the formu-lated optimization problem, we employ alternating optimization (AO) techniques combined with successive convex approximation (SCA). Our simulation results reveal that the resulting resource allocation algorithm outperforms two benchmark schemes in terms of InSAR coverage, while satisfying all sensing and real-time communication requirements. Furthermore, we highlight the importance of efficient communication resource allocation in facilitating real-time sensing and unveil the trade-off between InSAR height estimation accuracy and coverage.
APA:
Lahmeri, M.A., Mustieles Perez, V., Vossiek, M., Krieger, G., & Schober, R. (2024). UAV Formation Optimization for Communication-Assisted InSAR Sensing. In Matthew Valenti, David Reed, Melissa Torres (Eds.), IEEE International Conference on Communications (pp. 3913-3918). Denver, CO, US: Institute of Electrical and Electronics Engineers Inc..
MLA:
Lahmeri, Mohamed Amine, et al. "UAV Formation Optimization for Communication-Assisted InSAR Sensing." Proceedings of the 59th Annual IEEE International Conference on Communications, ICC 2024, Denver, CO Ed. Matthew Valenti, David Reed, Melissa Torres, Institute of Electrical and Electronics Engineers Inc., 2024. 3913-3918.
BibTeX: Download