Prof. Hyungsuck Cho
at DGIST
SPIE Involvement:
Symposium Committee | Conference Chair | Conference Co-Chair | Author | Instructor
Publications (58)

Proceedings Article | 18 November 2008
Proc. SPIE. 7138, Photonics, Devices, and Systems IV
KEYWORDS: Adaptive optics, Deformable mirrors, Wavefront sensors, Image quality, Electroluminescence, Wavefronts, Wavefront aberrations, Monochromatic aberrations, Control systems, Zernike polynomials

Proceedings Article | 17 November 2008
Proc. SPIE. 7266, Optomechatronic Technologies 2008
KEYWORDS: Cameras, 3D metrology, Computer programming, Environmental sensing, Detection and tracking algorithms, Projection systems, Phase measurement, Sensors, 3D vision, 3D image processing

Proceedings Article | 17 November 2008
Proc. SPIE. 7266, Optomechatronic Technologies 2008
KEYWORDS: Mirrors, Prisms, Kinematics, Deformable mirrors, Imaging systems, Calibration, Lens design, Cameras, Prototyping, Optical design

Proceedings Article | 17 November 2008
Proc. SPIE. 7266, Optomechatronic Technologies 2008
KEYWORDS: Image resolution, Imaging systems, Image quality, Image restoration, Spatial frequencies, Sensors, Cameras, Point spread functions, Spatial light modulators, Assembly tolerances

Proceedings Article | 17 November 2008
Proc. SPIE. 7266, Optomechatronic Technologies 2008
KEYWORDS: Phase shifts, Condition numbers, Deflectometry, Fringe analysis, Reconstruction algorithms, Cameras, Mirrors, Reflection, Visibility, Reflectivity

Showing 5 of 58 publications
Conference Committee Involvement (11)
International Symposium on Optomechatronic Technologies
17 November 2008 | San Diego, United States
Optomechatronic Systems Control III
8 October 2007 | Lausanne, Switzerland
Optomechatronic Systems Control II
2 October 2006 | Boston, Massachusetts, United States
Optomechatronic Systems Control
5 December 2005 | Sapporo, Japan
Optomechatronic Technologies 2005
5 December 2005 | Sapporo, Japan
Showing 5 of 11 Conference Committees
Course Instructor
SC255: Opto-Mechatronic Systems: Techniques and Applications
Optical and photonic devices are being incorporated into a variety of “smart” engineered products and processes because these lightwave technologies provide components for high precision, rapid data processing, flexible circuits, and circuit miniaturization. Optomechatronics focuses on the tools and technologies needed to create intelligent systems from optical and optoelectronic sensors and actuators, flexible fiber optic and lightwave communication, smart machine vision systems, reconfigurable structures, and embedded control. Course participants will develop skills and knowledge necessary to adopt an interdisciplinary and integrated approach to optomechatronic design. We will provide attendees with an overview of the basic concepts necessary to effectively combine optical, electrical, control, and mechanical technologies and will review the fundamentals of lightwave technology and optical systems. Emphasis will be placed on design methods for integrating optical sensing, actuation, and control. We will review several practical case-studies involving optomechatronic products and processes. System performance will be analyzed and benefits/limitations will be discussed.
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