会议名称(中文):2014年国际光学设计会议 会议名称(英文):Seventh International Conference on Digital Society 所属学科:光学,光电子学 开始日期:2014-06-22 结束日期:2014-06-26 所在国家:美国 所在城市:美国 具体地点:Kohala Coast, Hawaii, United States 主办单位:OSA - The Optical Society 协办单位: 承办单位: 议题:
[ 组织结构 ] 会议主席: 组织委员会主席: 程序委员会主席: 会议嘉宾: 姓名 职务 简介 演讲题目
[ 重要日期 ] [ 会务组联系方式 ] 联系人:OSA Customer Service 联系电话: 传真: E-MAIL:custserv@osa.org 通讯地址: 邮政编码: 会议注册费: 会议网站:http://www.osa.org/meetings/topical_meetings/iodc/ 会议背景介绍: Optical design remains a rapidly developing field due to the increased performance demands, improved software and computing platforms for modeling, better algorithms, and new fabrication technologies for better performance. The International Optical Design Conference (IODC), which occurs every four years, provides the most important meeting in optical design for engineers, scientists and designers to stay abreast of the changes in this field. Attendees from around the world in a breadth of optical design disciplines will be able to interact in both informal and formal settings.
Topics of special interest for IODC are illumination system fabrication, surface representation in lens design, desensitizing designs and reduction in cost, beam shaping, micro-optics, polarization, and computational imaging 征文范围及要求: Topics considered included the following:
1.Lens Design Adaptive optics in optical systems Astronomical optics Asymmetric optics Conformal optics Diffractive and holographic optics Gradient index optics Lithographic optics Liquid optics Micro- and nano-optics Optical design with freeform surfaces Phase coded optics in digital imaging Space-borne optics Vision testing and enhancement optics Zoom optics and multi-configuration optics New lens designs
2.Illumination Design Theory for illumination/lighting design Radiometry and photometry Optical design with stray light as a consideration Optical design with color in illumination systems: tracing, color mixing, displaying, etc. Illumination optics (non-imaging concepts, freeform) design: mathematical representation, modeling, optimization, manufacture and metrology Applications in illumination, display, solar, and nonimaging optics Lighting: architectural, roadway, etc. Displays: backlit, projection, etc. Solar: concentrators, flat panel, etc. Nonimaging: lightpipes, freeform, etc. Light shaping components (energy diffusers) Source modeling: LEDs, HID, fluorescent, incandescent, etc. Solid-state lighting design Optical design specifications and requirements for human visual systems Optical design specifications and requirements for non-visual effects of light Rendering and visualization: simulation of environments to determine effectiveness of light for visual and non-visual systems. Software for rendering
3.System Design Beam shaping optics Beam splitting gratings Computational imaging and digital processing High-power laser system optics Image performance criteria and aberration correction for digital photography Instrument design IR systems Medical/bio-optics Micro-electro-mechanical systems (MEMS) Ophthalmic optics and instruments Optical data storage systems Photonic and optical interconnect systems Special beams: vortex beams, Bessel Gauss beams, Ince Gauss beams, etc. Telecommunications optics X-ray systems
4.Fabrication & Testing Design Desensitizing designs and reduction in cost Fabrication and testing developments that expand the design horizon Integration of design, manufacturing, and metrology Materials (glass and other) and material characterization Plastic and molded optics Thin film coatings in optical designs Testing and alignment of optical surfaces and systems Tolerance generation and application Zernike coefficients: advantages and deficiencies
5.Software Design Advances in optical design software Beam propagation Physical optics modeling and design methods Optimization developments in local and global methods Theory and mathematical methods applied to optical design including new optical surface descriptions Tolerancing of optical surfaces manufactured by subaperture processes Visualization and virtual-reality optical systems
6.Polarization and Coherence in Optical Design Algorithms for polarization ray tracing Simultaneous optimization of coating and optical designs Ultra-low polarization optical designs, polarization aberration balancing Optical design with anisotropic materials Polarization aberrations, vector Zernike and other polynomials Coherence analysis, estimating speckle statistics
7.Other Education in optics, optical design and optical system modeling History of optics and optical design Mathematical theory and techniques Standards Other topics |