Litcius/Paper detail

Physics-Embedded Machine Learning for Electromagnetic Data Imaging: Examining three types of data-driven imaging methods

Rui Guo, Tianyao Huang, Maokun Li, Haiyang Zhang, Yonina C. Eldar

2023IEEE Signal Processing Magazine83 citationsDOI

Abstract

Electromagnetic (EM) imaging is widely applied in sensing for security, biomedicine, geophysics, and various industries. It is an ill-posed inverse problem whose solution is usually computationally expensive. Machine learning (ML) techniques and especially deep learning (DL) show potential in fast and accurate imaging. However, the high performance of purely data-driven approaches relies on constructing a training set that is statistically consistent with practical scenarios, which is often not possible in EM-imaging tasks. Consequently, generalizability becomes a major concern. On the other hand, physical principles underlie EM phenomena and provide baselines for current imaging techniques. To benefit from prior knowledge in big data and the theoretical constraint of physical laws, physics-embedded ML methods for EM imaging have become the focus of a large body of recent work.

Topics & Concepts

Computer scienceMedical imagingInverse problemGeneralizability theoryArtificial intelligenceFocus (optics)Deep learningBig dataMachine learningElectromagneticsConstraint (computer-aided design)Set (abstract data type)Data setData sciencePhysicsData miningOpticsStatisticsMathematical analysisMathematicsEngineeringEngineering physicsMechanical engineeringProgramming languageGeophysical Methods and ApplicationsMicrowave Imaging and Scattering AnalysisGeophysical and Geoelectrical Methods