Jong-Sen Lee

What is he best known for?

The fields of study he is best known for:

• Artificial intelligence
• Optics
• Geometry

His primary scientific interests are in Synthetic aperture radar, Remote sensing, Polarimetry, Radar imaging and Artificial intelligence. His Synthetic aperture radar research is multidisciplinary, incorporating perspectives in Scattering, Pixel, Estimator, Backscatter and Speckle pattern. His Remote sensing study frequently draws connections to other fields, such as Radar.

His Polarimetry study combines topics in areas such as Iterative method, Covariance matrix and Wishart distribution. His Radar imaging research is multidisciplinary, incorporating elements of Point target and Radar cross-section. The Artificial intelligence study combines topics in areas such as Computer vision and Pattern recognition.

His most cited work include:

• Polarimetric Radar Imaging: From Basics to Applications (1103 citations)
• Unsupervised classification using polarimetric decomposition and the complex Wishart classifier (708 citations)
• Intensity and phase statistics of multilook polarimetric and interferometric SAR imagery (612 citations)

What are the main themes of his work throughout his whole career to date?

Jong-Sen Lee mostly deals with Remote sensing, Synthetic aperture radar, Polarimetry, Radar imaging and Artificial intelligence. His studies in Remote sensing integrate themes in fields like Azimuth, Terrain, Polarization, Polarimetric sar and Radar. His study in Synthetic aperture radar is interdisciplinary in nature, drawing from both Covariance matrix, Speckle pattern, Filter and Interferometry.

His work on Speckle noise and Speckle reduction as part of general Speckle pattern research is frequently linked to Histogram, bridging the gap between disciplines. His Polarimetry research incorporates elements of Scattering, Pixel, Backscatter, Entropy and Anisotropy. His Artificial intelligence study combines topics from a wide range of disciplines, such as Wishart distribution, Computer vision and Pattern recognition.

He most often published in these fields:

• Remote sensing (62.88%)
• Synthetic aperture radar (61.14%)
• Polarimetry (48.91%)

What were the highlights of his more recent work (between 2012-2021)?

• Scattering (25.33%)
• Remote sensing (62.88%)
• Polarimetry (48.91%)

In recent papers he was focusing on the following fields of study:

Jong-Sen Lee mainly investigates Scattering, Remote sensing, Polarimetry, Speckle pattern and Polarization. Jong-Sen Lee has included themes like Radar, Radar imaging and Mathematical analysis in his Scattering study. While the research belongs to areas of Remote sensing, he spends his time largely on the problem of Polarimetric sar, intersecting his research to questions surrounding Speckle statistics and Remote sensing.

His study focuses on the intersection of Polarimetry and fields such as Ground truth with connections in the field of Solid modeling. The concepts of his Speckle pattern study are interwoven with issues in Image resolution and Pixel. His Artificial intelligence study focuses on Synthetic aperture radar in particular.

Between 2012 and 2021, his most popular works were:

• Polarimetric SAR Speckle Filtering and the Extended Sigma Filter (84 citations)
• Generalized Polarimetric Model-Based Decompositions Using Incoherent Scattering Models (72 citations)
• Refined Filtering of Interferometric Phase From InSAR Data (23 citations)

In his most recent research, the most cited papers focused on:

• Optics
• Artificial intelligence
• Geometry

Scattering, Synthetic aperture radar, Speckle pattern, Artificial intelligence and Speckle noise are his primary areas of study. His biological study spans a wide range of topics, including Polarization and Polarimetry. In his work, Algorithm is strongly intertwined with Mixture model, which is a subfield of Speckle pattern.

His studies deal with areas such as Filter and Computer vision as well as Artificial intelligence. His research integrates issues of Speckle reduction, Wishart distribution, Resolution and Remote sensing in his study of Image resolution. His research in Circular polarization intersects with topics in Radar and Radar imaging.

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