Proceedings of SPIE- The International Society for Optical Engineering Volume 926·Optical,Infrared,and 🔍
Walter B.Miller(Editors); Norman S.Kopeika(Editors)
the Society of Photo-Optical Instrumentation Engineers·Washington, Proceedings of SPIE--the International Society for Optical Engineering ;, v. 926, Bellingham, Wash., USA, Washington State, 1988
英语 [en] · PDF · 27.7MB · 1988 · 📗 未知类型的图书 · 🚀/duxiu/ia · Save
描述
The most notable and gratifying aspect of the conference was the uniformly high quality of the presentations
The most notable and gratifying aspect of the conference was the uniformly high quality of the presentations.
The most notable and gratifying aspect of the conference was the uniformly high quality of the presentations.
备选标题
Proceedings of SPIE-The International Society for Optical Engineering Volume 926·Optical,Infrared,and Millimeter Wave Propagation Engineering
备选标题
Optical Infrared and Millimeter Wave Propagation Engineering Meeting (Proceedings of SPIE--the International Society for Optical Engineering)
备选标题
Optical, infrared, and millimeter wave propagation engineering : 5-7 April 1988, Orlando, Florida
备选标题
6-7 April 1988, Orlando, Florida
备选作者
Walter B Miller; Norman S Kopeika; Society of Photo-Optical Instrumentation Engineers; New Mexico State University Applied Optics Laboratory
备选作者
Walter B. Miller, Norman S. Kopeika, chairs/editors; sponsored by SPIE--the International Society for Optical Engineering ... [et al.]
备选作者
Miller, Walter B. (Walter Blaine), 1933-; Kopeika, Norman S; Society of Photo-optical Instrumentation Engineers
备选作者
Norman S Kopeika; Walter B Miller; Society of Photo-optical Instrumentation Engineers (U.S.)
备用出版商
Bellingham, Wash., USA: International Society for Optical Engineering
备用出版商
SPIE--the International Society for Optical Engineering
备用出版商
Society of Photo Optical
备用出版商
SPIE Press
备用版本
Proceedings of SPIE--the International Society for Optical Engineering, Bellingham, Wash., USA, c1988
备用版本
United States, United States of America
备用版本
June 1988
元数据中的注释
Includes bibliographies and index.
元数据中的注释
contributor: 浙江大学
元数据中的注释
format: Image/Djvu(.djvu)
元数据中的注释
unit_name: 浙江大学
元数据中的注释
Type: 英文图书
元数据中的注释
Bookmarks:
1. (p1) Session 1 Statistics Of Propagation
1.1. (p2) The Significance of the class of K distributions
1.2. (p8) Phase models for weak fluctuations
1.3. (p13) Statistical properties of light scattered by a turbulent layer
1.4. (p21) Is it possible to measure the scintillation probability density function?
1.5. (p31) Probability density function for estimates of the moments of laser scintillation
1.6. (p39) Atmospheric scintillation measurements with a transmissometer
1.7. (p44) Comparison of horizontal scintillation measurements and models
2. (p53) Session 2 Characterization Of Atmospheric Propagation I
2.1. (p54) Experimental validation of atmospheric transmittance codes
2.2. (p65) Low-resolution molecular transmission model for atmospheric water vapor in LOWTRAN
2.3. (p69) Characterization of atmospheric effects on target contrast
2.4. (p85) Infrared- and millimeter-wavelength absorption in the atmospheric windows by water vapor and nitrogen:measurements and models
2.5. (p92) Model for estimating vertical extinction profiles in low stratus subclouds
2.6. (p99) Method for estimating potential temperature gradient profiles in damp haze
2.7. (p110) Derivation of transmittance in a dust environment using imaging technology
2.8. (p122) The Effect of coating properties on contrast radiance of camouflaged and uncamouflaged tactical equipment in the 8 to 12 μm waveband
2.9. (p130) Correlation between material characteristics and field effectiveness of radar scattering camouflage screens
3. (p135) Session 3 Atmospheric Propagation Of Lasers
3.1. (p136) Propagation and scattering of narrow light beams in aerosol media
3.2. (p147) Space-time distortion of laser pulses due to multiple scattering in particulate media
3.3. (p155) Pulse propagation in discrete random media
3.4. (p160) High-energy laser-assisted imaging through vaporizing aerosols
3.5. (p172) Probability density function measurements of optical scintillations in the atmosphere
4. (p179) Session 4 Characterization Of Atmospheric Propagation Ii
4.1. (p180) Prediction of effects of weather on image quality propagated through the atmosphere
4.2. (p185) Modeling path radiance effects from aerosol clouds
4.3. (p195) An Evaluation of transmissometer systems used to measure smoke screen performance
4.4. (p205) Determination of atmospheric effects through EOSAEL
4.5. (p213) Infrared sea radiance modeling using LOWTRAN 6
4.6. (p221) A Sky radiation model for the ocean environment
4.7. (p231) IR sky radiance distributions in the marine boundary layer
4.8. (p242) On-board correction of systematic errors of IR horizon sensors due to seasonal changes of radiance in 15 μm band
5. (p247) Session 5 Propagation Through Optical Turbulence I
5.1. (p248) New method for image propagation through a turbid atmosphere:radiative image transfer theory
5.2. (p258) Estimating C_nˉ2 over snow and sea ice from meteorological quantities
5.3. (p268) Description of optical turbulence effects on propagation in the atmospheric surface boundary layer
5.4. (p278) Short term prediction of optical turbulence parameters
5.5. (p286) Method to compute space-variant image degradation by atmospheric turbulence
5.6. (p296) A Convolution model of long-exposure image blur due to atmospheric turbulence
6. (p305) Session 6 Propagation Through Optical Turbulence Ii
6.1. (p306) Non-isoplanatic effects in imaging through turbulent media
6.2. (p311) Turbulent wavefront sensing and image processing
6.3. (p319) Comparison of two techniques for determining atmospheric seeing
6.4. (p335) A New high speed two-dimensional CCD atmospheric turbulence monitor
6.5. (p347) An Extended emissive source simulation model
6.6. (p352) Scintillation and turbulence measurements:comparisons over a horizontal path
6.7. (p360) Characteristics of turbulence measured on a large aperture
6.8. (p367) Random apodization effects on angle-of-arrival fluctuation measurements and r_o computations
1. (p1) Session 1 Statistics Of Propagation
1.1. (p2) The Significance of the class of K distributions
1.2. (p8) Phase models for weak fluctuations
1.3. (p13) Statistical properties of light scattered by a turbulent layer
1.4. (p21) Is it possible to measure the scintillation probability density function?
1.5. (p31) Probability density function for estimates of the moments of laser scintillation
1.6. (p39) Atmospheric scintillation measurements with a transmissometer
1.7. (p44) Comparison of horizontal scintillation measurements and models
2. (p53) Session 2 Characterization Of Atmospheric Propagation I
2.1. (p54) Experimental validation of atmospheric transmittance codes
2.2. (p65) Low-resolution molecular transmission model for atmospheric water vapor in LOWTRAN
2.3. (p69) Characterization of atmospheric effects on target contrast
2.4. (p85) Infrared- and millimeter-wavelength absorption in the atmospheric windows by water vapor and nitrogen:measurements and models
2.5. (p92) Model for estimating vertical extinction profiles in low stratus subclouds
2.6. (p99) Method for estimating potential temperature gradient profiles in damp haze
2.7. (p110) Derivation of transmittance in a dust environment using imaging technology
2.8. (p122) The Effect of coating properties on contrast radiance of camouflaged and uncamouflaged tactical equipment in the 8 to 12 μm waveband
2.9. (p130) Correlation between material characteristics and field effectiveness of radar scattering camouflage screens
3. (p135) Session 3 Atmospheric Propagation Of Lasers
3.1. (p136) Propagation and scattering of narrow light beams in aerosol media
3.2. (p147) Space-time distortion of laser pulses due to multiple scattering in particulate media
3.3. (p155) Pulse propagation in discrete random media
3.4. (p160) High-energy laser-assisted imaging through vaporizing aerosols
3.5. (p172) Probability density function measurements of optical scintillations in the atmosphere
4. (p179) Session 4 Characterization Of Atmospheric Propagation Ii
4.1. (p180) Prediction of effects of weather on image quality propagated through the atmosphere
4.2. (p185) Modeling path radiance effects from aerosol clouds
4.3. (p195) An Evaluation of transmissometer systems used to measure smoke screen performance
4.4. (p205) Determination of atmospheric effects through EOSAEL
4.5. (p213) Infrared sea radiance modeling using LOWTRAN 6
4.6. (p221) A Sky radiation model for the ocean environment
4.7. (p231) IR sky radiance distributions in the marine boundary layer
4.8. (p242) On-board correction of systematic errors of IR horizon sensors due to seasonal changes of radiance in 15 μm band
5. (p247) Session 5 Propagation Through Optical Turbulence I
5.1. (p248) New method for image propagation through a turbid atmosphere:radiative image transfer theory
5.2. (p258) Estimating C_nˉ2 over snow and sea ice from meteorological quantities
5.3. (p268) Description of optical turbulence effects on propagation in the atmospheric surface boundary layer
5.4. (p278) Short term prediction of optical turbulence parameters
5.5. (p286) Method to compute space-variant image degradation by atmospheric turbulence
5.6. (p296) A Convolution model of long-exposure image blur due to atmospheric turbulence
6. (p305) Session 6 Propagation Through Optical Turbulence Ii
6.1. (p306) Non-isoplanatic effects in imaging through turbulent media
6.2. (p311) Turbulent wavefront sensing and image processing
6.3. (p319) Comparison of two techniques for determining atmospheric seeing
6.4. (p335) A New high speed two-dimensional CCD atmospheric turbulence monitor
6.5. (p347) An Extended emissive source simulation model
6.6. (p352) Scintillation and turbulence measurements:comparisons over a horizontal path
6.7. (p360) Characteristics of turbulence measured on a large aperture
6.8. (p367) Random apodization effects on angle-of-arrival fluctuation measurements and r_o computations
备用描述
vi, 385 p. : 28 cm
Includes bibliographies and index
Includes bibliographies and index
开源日期
2023-06-28
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