The solution of inverse scattering (IS) problems supported by artificial intelligence (AI) is addressed. An innovative solution strategy based on the System-by-Design (SbD) paradigm is proposed for the computationally-efficient exploitation of a global optimization strategy for minimizing the data mismatch cost function. Towards this end, a suitable selection, customization, and interconnection of SbD functional blocks is adopted. Moreover, the computationally-unaffordable repeated evaluation of each trial solution during the optimization is bypassed thanks to the exploitation of a digital twin (DT) based on the learning-by-examples (LBE) paradigm. An illustrative numerical example is shown to prove the effectiveness and computational efficiency of the proposed solution strategy when dealing with 2D free-space microwave imaging (MI) scenarios.
AI-Assisted global optimization for solving inverse scattering problems / Salucci, Marco; Poli, Lorenzo; Rocca, Paolo. - STAMPA. - (2022). (Intervento presentato al convegno EuCAP 2022 tenutosi a Madrid, Spain nel 27th March 2022-1st April 2022) [10.23919/EuCAP53622.2022.9769539].
AI-Assisted global optimization for solving inverse scattering problems
Salucci, Marco;Poli, Lorenzo;Rocca, Paolo
2022-01-01
Abstract
The solution of inverse scattering (IS) problems supported by artificial intelligence (AI) is addressed. An innovative solution strategy based on the System-by-Design (SbD) paradigm is proposed for the computationally-efficient exploitation of a global optimization strategy for minimizing the data mismatch cost function. Towards this end, a suitable selection, customization, and interconnection of SbD functional blocks is adopted. Moreover, the computationally-unaffordable repeated evaluation of each trial solution during the optimization is bypassed thanks to the exploitation of a digital twin (DT) based on the learning-by-examples (LBE) paradigm. An illustrative numerical example is shown to prove the effectiveness and computational efficiency of the proposed solution strategy when dealing with 2D free-space microwave imaging (MI) scenarios.File | Dimensione | Formato | |
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AI-Assisted Global Optimization for Solving Inverse Scattering Problems.pdf
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