4 edition of Atmospheric propagation, adaptive systems, and laser radar technology for remote sensing found in the catalog.
Includes bibliographical references and index.
|Statement||John D. Gonglewski ... [et al.], chairs/editors ; sponsored by, EOS--the European Optical Society, SPIE--the International Society for Optical Engineering, NASA--National Aeronautics and Space Administration (USA).|
|Series||Proceedings EurOpt series, SPIE proceedings series ;, v. 4167, Proceedings of SPIE--the International Society for Optical Engineering ;, v. 4167.|
|Contributions||Gonglewski, John D., European Optical Society., Society of Photo-optical Instrumentation Engineers., United States. National Aeronautics and Space Administration.|
|LC Classifications||QC974.5 .A847 2001|
|The Physical Object|
|Pagination||viii, 296 :|
|Number of Pages||296|
|LC Control Number||2002265219|
Dear Colleagues, Radar has been widely used for remote sensing of weather, climate, hydrology, and the environment. Over the past 30 years, numerous radar techniques and algorithms have been developed for measuring, modeling, simulating and forecasting the Earth’s atmosphere particular, polarization diversity has great potential to characterize precipitation microphysics and. Biography Dongyang Xu received the B.S. degree in electrical engineering from China Agricultural University, Beijing, China, in , the M.S. degree in electrical engineering from Beihang University, Beijing, China, in , and the second M.S. degree in computational engineering and science from Miami University, Oxford, OH, USA, in
A method is provided for controlling operations in a video guidance sensor system wherein images of laser output signals transmitted by the system and returned from a target are captured and processed by the system to produce data used in tracking of the target. Six modes of operation are provided as follows: (i) a reset mode; (ii) a diagnostic mode; (iii) a standby mode; (iv) an acquisition. Ionosphere Propagation Effects. Emerging Technology Quantum Radar Laser Radar/Laser SAR Cloud and Rain Radar Geosynchronous Earth Orbit SAR/D-InSAR Small Satellite Technology Compressive Sensing Radar GNSS-R Sensors Tera-Hertz Technology Cognitive Radar Radar Vision Education and Remote Sensing Artificial Intelligence Applied in Radar Microwave.
SPIE Remote Sensing is an important European conference that includes atmospheric and earth surface sensing, next-generation satellites; it gives international researchers and scientists access to the most recent satellite-based imaging systems and the data generated by them, as well as a venue to share that information with peers within science, government, and industry and to further that. This triad of atmospheric effects plays a critical role in the design and performance assessment electro-optical (E-O) systems including laser communications, directed energy, lidar, target tracking and designation, active imaging, long-range video surveillance, remote sensing, and power beaming.
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Get this from a library. Atmospheric propagation, adaptive systems, and laser radar technology and laser radar technology for remote sensing book remote sensing: September,Barcelona, Spain.
[John D Gonglewski; European Optical Society.; Society of Photo-optical Instrumentation Engineers.; United States. National Aeronautics and Space Administration.;]. Get this from a library. Atmospheric propagation, adaptive systems, and laser radar technology for remote sensing: September,Barcelona, Spain.
[John D Gonglewski; European Optical Society.; Society of Photo-optical Instrumentation Engineers.; United States. National Aeronautics and Space Administration.; SPIE Digital Library.;]. Optics in atmospheric propagation and adaptive systems: Characterization of the propagation environment and sensors ; Propagation and imaging through inhomogeneous dense media ; Propagation and imaging through optical turbulence ; Mitigation of atmospheric effects and systems performance --Laser radar techniques (ranging and atmospheric lidar): Airborne and spaceborne lidars ; Doppler lidar.
Lidar or laser radar, the depth-resolved remote measurement of atmospheric parameters with optical means, has become an important tool in the field of atmospheric and environmental remote sensing. In this volume the latest progress in the development of lidar.
An Exploration of Key Issues Integral to the Design of Adaptive Radar Systems. This collaborative work presents the results of over twenty years of pioneering research by Professor Simon Haykin and his colleagues, dealing with the use of adaptive radar signal processing to account for the nonstationary nature of the environment.4/5(1).
Imaging Systems and Adaptive Optics Laser Radar and Optical Remote Sensing Basic Radar Principles There have been a number of new model developments in atmospheric propagation of a laser beam since the publication of the first edition of this Field Guide to Atmospheric Optics. Atmospheric Propagation, Adaptive Systems, and Laser Radar Technology for Remote Sensing.
Date Published: 31 January PDF: 11 pages Proc. SPIEAtmospheric Propagation, Adaptive Systems, and Laser Radar Technology for Remote Sensing, (31 January ); doi: / Show Author Affiliations. Laser Radar Sensing in Japan.
In Japan, a Raman scattering laser radar for sensing of air pollution over Japanese industrial areas was proposed by Inaba and Kobayashi at Tohoku University.
Raman scattering laser radars are shown in Fig. A nitrogen molecular laser at ultraviolet nm wavelength was developed for the Raman laser radar. John D. Gonglewski's 9 research works with 3 citations and 81 reads, including: Electro-Optical Remote Sensing, Photonic Technologies, and Applications V.
KEYWORDS: Ocean optics, Refraction, Refractive index, Atmospheric modeling, Atmospheric optics, Sensors, Atmospheric propagation, Meteorology, Infrared cameras, Humidity.
Fractional moments for processing data from low dynamics acquisition systems in laser atmospheric scintillation Innocenti, Claudia Atmospheric Propagation, Adaptive Systems, and Laser Radar Technology for Remote Sensing. Pub Date: January DOI: / This book is a compilation of papers which represent an overview of the present state of development of optical and laser remote sensing tech nology.
The subjects covered include both passive and active remote sen sing techniques in the UV, visible, and IR spectral regions. related laser and detector technology, and atmospheric propagation. Laser and turbulence: how our researches on atmospheric propagation started and where they arrived; Stuart Jefferies, Georgia State University, United States Tomographic Wave Front Sensing using an Imaging Shack-Hartmann Wave Front.
Since the study of propagation through atmospheric and oceanic phenomena is a rapidly developing field of research, this forum expedites collaboration and cultivates a multidisciplinary exchange of information designed to expand our understanding of the full complexity and interactions of distributed volume effects, drawing upon the most recent.
Earlier conferences entitled: Atmospheric propagation, adaptive systems, and laser radar technology for remote sensing. Description: 1 online resource (vii, ): illustrations. Series Title: Proceedings of SPIE--the International Society for Optical Engineering, v.
Other Titles. Earlier conferences entitled: Atmospheric propagation, adaptive systems, and laser radar technology for remote sensing.
Description: vii, illustrations, maps ; 28 cm. Contents: Ranging: visibility and cloud ceiling --Aerosol/Raman/DIAL: lidar technique --Wind and vibrometer lidar technique --Poster session. Series Title. Richard T. Howard, Michael L.
Book, and Thomas C. Bryan "Video-based sensor for tracking three-dimensional targets", Proc. SPIEAtmospheric Propagation, Adaptive Systems, and Laser Radar Technology for Remote Sensing, (31 January ); ACCESS THE FULL ARTICLE.
Proc. SPIEOptics in Atmospheric Propagation, Adaptive Systems, and Lidar Techniques for Remote Sensing, pg 2 (6 January ); doi: / Adaptive processing in a radar environment is necessary due to its inherently nonstable nature. A detailed mathematical treatment of the important issues in adaptive radar detection and estimation is offered.
Since much of the material presented has not appeared in book form, you'll find this work fills an important gap in the known s: 1. Optical and laser remote sensing technologies related to satellite, airborne, or ground based platforms are appropriate including those associated with atmospheric laser radar, lidar, Differential Absorption Lidar (DIAL), hyper-spectral imaging, long-path spectroscopic instrumentation, Laser-Induced Breakdown Spectroscopy (LIBS), and laser spectroscopic detection of trace species.
Adaptive optics (AO) is a technique that removes the atmospheric disturbance and allows a telescope to achieve diffraction-limited imaging from the ground. This is critical in achieving the maximum S/N given in equation (1).The basic idea of AO is to first measure the amount of atmospheric disturbance, then correct for it before the light reaches the camera.The field of laser applications to atmospheric remote sensing (lidar, or optical radar) has seen major advances in recent years, owing to improvements in laser technology and the advent of inexpensive computer equipment for high speed data acquisition.