Dr. Brian H. Miles
at OSC
SPIE Involvement:
Author | Instructor
Publications (10)

Proceedings Article | 4 May 2010 Paper
Proceedings Volume 7684, 76840A (2010) https://doi.org/10.1117/12.854702
KEYWORDS: LIDAR, Clouds, Sensors, Laser systems engineering, Imaging systems, Photons, Pulsed laser operation, Stereoscopy, Visualization, 3D image processing

Proceedings Article | 4 May 2010 Paper
Brian Miles, Gary Kamerman, Donald Fronek, Paul Eadon
Proceedings Volume 7684, 76840F (2010) https://doi.org/10.1117/12.854700
KEYWORDS: Point spread functions, Modulation transfer functions, LIDAR, Reflectors, 3D acquisition, Contrast transfer function, Imaging systems, Spatial resolution, Clouds, Mirrors

Proceedings Article | 19 May 2005 Paper
Proceedings Volume 5791, (2005) https://doi.org/10.1117/12.609688
KEYWORDS: Statistical analysis, Sensors, Image analysis, Palladium, LIDAR, Image sensors, Error analysis, Damage detection, Light sources and illumination, Imaging systems

Proceedings Article | 13 September 2004 Paper
John Dries, Brian Miles, Roger Stettner
Proceedings Volume 5412, (2004) https://doi.org/10.1117/12.542609
KEYWORDS: Avalanche photodetectors, Sensors, Readout integrated circuits, Indium gallium arsenide, LIDAR, Pulsed laser operation, Stereoscopy, Capacitance, Staring arrays, 3D acquisition

Proceedings Article | 15 July 2004 Paper
Brian Miles, Bogie Kim
Proceedings Volume 5432, (2004) https://doi.org/10.1117/12.548213
KEYWORDS: Calibration, Polarization, Polarimetry, Diffraction, Computed tomography, Reconstruction algorithms, Matrices, Polarization analysis, Data acquisition, Error analysis

Showing 5 of 10 publications
Conference Committee Involvement (2)
Polarization: Measurement, Analysis, and Remote Sensing VI
15 April 2004 | Orlando, Florida, United States
Laser Radar Technology and Applications IX
14 April 2004 | Orlando, Florida, United States
Course Instructor
SC180: Imaging Polarimetry
This course covers imaging polarimeters from an instrumentation-design point of view. Basic polarization elements for the visible, mid-wave infrared, and long-wave infrared are described in terms of Mueller matrices and the Poincaré sphere. Polarization parameters such as the degree of polarization (DOP), the degree of linear polarization (DOLP) and the degree of circular polarization (DOCP) are explained in an imaging context. Emphasis is on imaging systems designed to detect polarized light in a 2-D image format. System concepts are discussed using a Stokes-parameter (s0,s1,s2,s3) image. Imaging-polarimeter systems design, pixel registration, and signal to noise ratios are explored. Temporal artifacts, characterization and calibration techniques are defined.
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