Dr. Gary W. Kamerman
Chief Scientist
SPIE Involvement:
Conference Chair | Track Chair | Editor | Author | Instructor
Publications (19)

Proceedings Article | 20 September 2020 Presentation
Proceedings Volume 11538, 1153802 (2020) https://doi.org/10.1117/12.2584112

SPIE Journal Paper | 21 March 2017 Open Access
OE, Vol. 56, Issue 03, 031201, (March 2017) https://doi.org/10.1117/12.10.1117/1.OE.56.3.031201
KEYWORDS: LIDAR, Active remote sensing, Electro optics, Stereoscopy, Sensors, Optical engineering, Aerospace engineering, Defense and security, Defense technologies, Environmental sensing

Proceedings Article | 1 June 2011 Paper
Proceedings Volume 8037, 803709 (2011) https://doi.org/10.1117/12.884080
KEYWORDS: LIDAR, Sensors, Imaging systems, Radar, Target detection, Target recognition, Microwave radiation, Infrared imaging, Forward looking infrared, Infrared sensors

Proceedings Article | 3 November 2010 Paper
Proceedings Volume 7835, 783502 (2010) https://doi.org/10.1117/12.867906
KEYWORDS: LIDAR, Laser development, Sensors, Radar, Carbon dioxide lasers, Imaging systems, Laser range finders, Synthetic aperture radar, Optical coherence tomography, Eye

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

Showing 5 of 19 publications
Proceedings Volume Editor (57)

SPIE Conference Volume | 14 June 2024

SPIE Conference Volume | 22 June 2023

SPIE Conference Volume | 5 December 2022

SPIE Conference Volume | 15 June 2022

Showing 5 of 57 publications
Conference Committee Involvement (63)
Laser Radar Technology and Applications XXX
16 April 2025 | Orlando, Florida, United States
Laser Radar Technology and Applications XXIX
24 April 2024 | National Harbor, Maryland, United States
Electro-optical and Infrared Systems: Technology and Applications XX
3 September 2023 | Amsterdam, Netherlands
Laser Radar Technology and Applications XXVIII
3 May 2023 | Orlando, Florida, United States
Electro-Optical Remote Sensing XVI
6 September 2022 | Berlin, Germany
Showing 5 of 63 Conference Committees
Course Instructor
SC1103: 3D Imaging Laser Radar
This course will explain the basic principles of operation and the fundamental theoretical basis of 3D imaging laser radar systems. An analytical approach to evaluation of system performance will be presented. The design and applications of 3D imaging laser radars which employ staring arrays and flying spot scanned architectures; linear, Geiger mode and heterodyne detection; pulse, amplitude, frequency and hybrid modulation formats; and advanced system architectures will be discussed. Optimization strategies and trade space boundaries will be described. Major system components will be identified and effects of the limitations of current component performance will be identified. These limitations will form the basis of a discussion of current research objectives.
SC167: Introduction to Laser Radar
This course explains the principles of operation and the basis of laser radar systems. An analytical approach to the evaluation of system performance is presented. This approach is derived from physical optics and from classical antenna theory. Practical applications for laser radar and alternative system architectures are described. Major system components are identified.
SC168: Advanced Laser Radar Design And Applications
This course identifies the procedures and the requirements for a comprehensive laser radar design and performance analysis. Using a detailed examination of the design process for military and industrial applications, the course covers system level requirements as applied to diversified applications, development, and the allocation of requirements for the major subsystems. Candidate system designs, trades space optimizations and compromises and component options are presented. Advanced Geiger-mode, waveform capture, heterodyne and homodyne detection systems, transmitter modulation techniques and compatible formats are emphasized. System architectures, subsystem approaches and component options are compared. Machine vision, 3-D imaging systems, unmanned vehicle sensors, atmospheric sensing, and chemical detection systems are used to illustrate the design techniques.
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