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2017 SPIE 大气传播和自适应系统光学专题会议
作者: 发布时间:2017-07-19 阅读次数:
会议名称(中文): 2017 SPIE 大气传播和自适应系统光学专题会议 

 

  会议名称(英文): Optics in Atmospheric Propagation and Adaptive Systems 

  所属学科: 光学,大气物理与气象 ,测绘与遥感 

  开始日期: 2017-09-11 

  结束日期: 2017-09-14 

  所在国家: 波兰 

  所在城市: 波兰 

  具体地点: Warsaw, Poland 

  主办单位: 国际光学工程学会 

  会议网站:  

    http://spie.org/ERS17/conferencedetails/optics-atmospheric-propagation-adaptive-systems 

  会议背景介绍: 

  The use of sensors for active and passive remote sensing of the Earth and its atmosphere, for free-space laser communication, and for high-resolution imaging of ground-based and airborne objects are fields of growing interest for both civilian and military applications. Such high-resolution space-to-ground (or ground-to-space) optical sensing systems use spectral regions varying from UV to Radar. However, they all must deal with long path atmospheric geometries and different radiating backgrounds. Instrument and measurement analysis therefore depends crucially on a thorough understanding of all optical effects that limit the sensor performance through an atmosphere that acts as an absorbing, scattering, and radiating random medium. Increasingly important in this area are modern methods used to ameliorate these effects through compensative hardware, algorithms, and measurements of atmospheric parameters at different locations. 

  征文范围及要求: 

  Contributions are invited on the following topics and those related to them: · Characterization of the Propagation Environment: profiles of temperature, humidity, extinction, refractivity, radiance (also non-LTE), optical turbulence; updates of transmission and radiance codes, atmospheric refraction, atmospheric turbulence, VIS and IR backgrounds, statistics of propagation parameters. · Propagation and Imaging through Optical Turbulence: meteorological models, the strong turbulence regime, laser beam propagation, laser speckle effects; correction methods for atmospheric effects in remote sensing, compensation for anisoplanatism and scintillation. · Propagation and Imaging through Inhomogenous and Dense Media: laser beam propagation, scattering and multiple scattering effects, the strong turbulence regime, aero-optic and jet plume effects, laser speckle effects; correction methods for atmospheric effects; coherent and incoherent imaging in anisoplanatic conditions; laser beam projection on an extended target; target-in-the-loop propagation and compensation in atmospheric turbulence. · Laser-based Sensing and Laser Communication: laser beam focusing, sensing, and free-space communication, system and atmospheric simulations, hardware configurations, communications theory issues, bandwidth limits, multiplexing issues, adaptive optics use for increased performance, atmospheric modelling, and laser speckle and other noise sources, loss of coherence for active (laser) systems. · Techniques for Mitigation of Atmospheric Effects on Systems: adaptive optics, deconvolution, sensor fusion, post processing etc; multi-conjugate adaptive optics, compensated imaging systems, etc. · New Devices for Atmospheric Measurement or Compensation: novel optical components such as liquid crystal and MEMS devices, wavefront sensors, high-frame rate and low-noise IR detectors. 

  来源:SPIE

 
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