Atmospheric propagation and remote sensing III: 5 - 7 April 1994, Orlando, Fla.
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Bellingham, Wash.
SPIE,The International Society for Optical Engineering
1994
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| Schriftenreihe: | Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE
2222 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XI, 936 S.: Ill. u. graph. Darst. |
| ISBN: | 081941526X |
Internformat
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| 245 | 1 | 0 | |a Atmospheric propagation and remote sensing III |b 5 - 7 April 1994, Orlando, Fla. |c Walter A. Flood ..., chairs/eds. |
| 264 | 1 | |a Bellingham, Wash. |b SPIE,The International Society for Optical Engineering |c 1994 | |
| 300 | |a XI, 936 S.: Ill. u. graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE |v 2222 | |
| 650 | 4 | |a Aerosols |x Measurement |v Congresses | |
| 650 | 4 | |a Atmospheric turbulence |x Measurement |v Congresses | |
| 650 | 4 | |a Imaging systems |v Congresses | |
| 650 | 4 | |a Radio wave propagation |x Remote sensing |v Congresses | |
| 650 | 0 | 7 | |a Fernerkundung |0 (DE-588)4016796-3 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Freie Wellenausbreitung |0 (DE-588)4312218-8 |2 gnd |9 rswk-swf |
| 655 | 7 | |0 (DE-588)1071861417 |a Konferenzschrift |y 1994 |z Orlando Fla. |2 gnd-content | |
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| 689 | 0 | |5 DE-604 | |
| 689 | 1 | 0 | |a Freie Wellenausbreitung |0 (DE-588)4312218-8 |D s |
| 689 | 1 | |5 DE-604 | |
| 700 | 1 | |a Flood, Walter A. |e Sonstige |4 oth | |
| 830 | 0 | |a Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE |v 2222 |w (DE-604)BV000010887 |9 2222 | |
| 856 | 4 | 2 | |m Digitalisierung TU Muenchen |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007171173&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-007171173 | ||
Datensatz im Suchindex
| _version_ | 1804125218480848896 |
|---|---|
| adam_text | Contents
Conference
Committee
SESSION 1 REMOTE
SENSING AND PROPAGATION THROUGH
AEROSOLS
I
2 Laser
remote sensing from aircraft and spacecraft (Invited Paper)
[2222-01]
E. V. Browell, NASA Langley Research Or.
12
Lidar
remote sensing of ocean waters (Invited Paper)
[2222-03]
R. F. Lutomirski, Pacific-Sierra Research Corp.
20
Coherent, cw, pseudo-random-code-modulated
lidar
for path-resolved optical remote sensing
(Invited Paper)
[2222-04]
J. F. Holmes, B. J.
Rask,
Oregon Graduate Institute of Science and Technology
29
Millimeter wave satellite tomography of the Earth s ozone layer
[2222-05]
Y. A. Pirogov, Moscow State Univ. (Russia);
C. M.
Strelkov, Institute of Radio Engineering and
Electronics (Russia)
34
Performance of the SSM/T-2 moisture sensor on DMSP S12—Part I: pre-June
1993
anomaly
[2222-06]
W.
T. Kreiss, A. Stogryn,
G. Poe,
D. C.
Kieu,
R.
Dickey, GenCorp/Aerojet Electronic Systems
45
Performance of the SSM/T-2 moisture sensor on DMSP S12—Part II: post-June
1993
anomaly
[2222-07]
D.
C. Kieu, A. Stogryn,
G. Poe, W. T.
Kreiss,
R.
Dickey, GenCorp/Aerojet Electronic Systems
55
Atmospheric radiance measurements from IRS-1E satellite
[2222-08]
R. Seshamani, T. K. Alex, M. Narayanaswamy, S. George, K. Kasturirangan, M. Shashikala, ISRO
Satellite Ctr. (India)
64
Effect of temperature gradient on equivalent background input of image
intensifier
[2222-10]
Q.
Chen, Wuxi Huguang Instrument Factory (China)
69
Possible background of fractal models
[2222-1 1]
V. Oľkhov, P.N.
Lebedev Physical Institute (Russia)
80
Simple approximation for radiative transfer problem with cylindrical symmetry
[2222-12]
V. Oľkhov, P.N.
Lebedev Physical Institute (Russia)
88
Modeling the transfer of optical radiation in the spherical atmosphere if polarization,
anisotropy, and nonstationarity are taken into account
[2222-1 3]
A. B. Gavrilovich, Institute of Physics (Belarus)
95
Methodical principles and technique of transient videospectropolarimetry for remote sensing
of natural environment
[2222-14]
A. B. Gavrilovich, Institute of Physics (Belarus)
99
Mid-course Space Experiment (MSX): capabilities of the LWIR interferometer for remote sensing
of trace constituents in the stratosphere and
mésosphère
[2222-1 5]
A. S. Zachor, Atmospheric Radiation Consultants, Inc.; W. O. Gallery, Atmospheric and
Environmental Research, Inc.; R. R. O Neil, J. Gibson,
H. A. B.
Gardiner, Air Force Phillips
Lab.;
A. T. Stair, Jr., Visidyne, Inc.; J. D. Mill, Environmental Research Institute of Michigan
109
Radiative properties of cirrus and water clouds in visible, near-IR and
IR
spectra, and their
applications in remote sensing
[2222-16]
L. Xu, J. Zhang, G. Zhang, Chengdu Meteorological College (China); G. Luo, UCAR Visting
Scientist at NOAA/NESDIS; H. Chen, Chengdu Meteorological College (China)
119
Improved Klett
lidar
inversion techniques
[2222-1 7]
W. J. Lentz, A. W. Cooper,
M. M.
Regush, Naval Postgraduate School
130
Remote gas detection and quantitative analysis from infrared emission spectra obtained by
Fourier transform infrared spectroscopy
[2222-18]
M. Hilton, A. H. Lettington, I. M. Mills, Univ. of Reading (UK)
138
Three-dimensional physically based multiparameter radar simulation
[2222-20]
E.
N.
Anagnostou, W. F. Krajewski, Univ. of Iowa
148
Comparison of microwave brightness temperatures and radar reflectivity measurements
[2222-21]
E.
N.
Anagnostou, J. L.
Haferman,
W.
F.
Krajewski,
T.
F. Smith, Univ.
of
Iowa
157
Methodology to retrieve and assess the accuracy of atmospheric temperature profiles at the
pixel level using satellite sounder data
[2222-22]
K. D. Hutchison, K.
A. Crean,
J.
B. Lundberg, Univ.
of Texas/Austin
167
Remote sounding of maritime atmospheric aerosols from space
[2222-24]
Q. Yin, Z.-X. Zhang, D. Kuang, Shanghai Institute of Technical Physics (China)
178
Four-channel temperature and humidity microwave scanning radiometer
[2222-25]
P.-Y. Xu, Shanghai Univ. of Science and Technology (China)
184
Geostat follow-on (GFO) radar altimeter
[2222-26]
D. M. Walker, R. D. Crowley, J. R. Dobrzanski,
Е
-Systems, Inc.
SESSION
2
REMOTE SENSING AND PROPAGATION THROUGH AEROSOLS II
196
Deriving aerosol properties from satellite: in situ and satellite comparisons
[2222-27]
J.
N.
Porter, A. D. Clarke, Univ. of Hawaii/Manoa
205
Simultaneous use of sonars and radars for the remote sensing of humidity fluctuations in the
atmosphere
[2222-28]
V. I. Ostashev, Institute of Atmospheric Physics (Russia) and Univ. Oldenburg (FRG); R.
Wandelt,
Univ. Oldenburg (FRG)
216
Role of remote sensing in characterization of methane sources and distribution
[2222-30]
P. D.
Ashcroft,
В.
F.
Morel, Carnegie Mellon Univ.
228
Ultraviolet fluorescence
lidar
detection of
bioaerosols
[2222-31]
S. D.
Christesen,
U.S. Army Edgewood Research, Development, and Engineering Ctr.;
C.
N.
Merrow, Science and Technology Corp.;
M. S.
DeSha, A. Wong, U.S. Army Edgewood
Research, Development, and Engineering Ctr.; M. W. Wilson, J. C. Butler, Science and
Technology Corp.
238
Use of a cloud sensing radar and microwave radiometer as a stratus cloud profiler
[2222-32]
A. S.
Frisch,
С.
W.
Fairall,
J. B.
Snider, NOAA Environmental Technology Lab.
250
Solution of multifrequency
lidar
inverse problem for a pre-set marine aerosol size-distribution
formula
[2222-34]
J. Piskozub, Institute of Oceanology (Poland)
256
Comparison of
3-5
and
8-12
infrared transmission near the ocean surface
[2222-35]
H. T. Bull, California State Univ./Long Beach;
D. R.
Jensen, Naval Command, Control and Ocean
Surveillance Ctr.
267
Analytical modeling to pulse propagation in clouds and mists
[2222-38]
I.
N.
Polonsky, E. P.
Zege,
I. L. Katsev, Institute of Physics (Belarus)
276
Rain, dust, and snow effects on anti-fog headlight performance
[2222-39]
V. V.
Barun,
Institute of Physics (Belarus)
282
Aerosol
lidar M4
[2222-41]
C. D.
Shelevoy, Super Computer Devices Co. Ltd. (Russia); Y. M. Andreev, Siberian State Medical
Univ. (Russia)
288
Lidar
and radiosonde measurements of coastal atmospheric refraction
[2222-42]
R. A. Helvey, J.
Rosenthal,
Naval Air Warfare Ctr.;
C. R. Philbrick, T. J. Kane, D. B. Lysak,
Jr.,
The Pennsylvania State Univ.
299
MAPTIP experiment, marine aerosol properties and thermal imager performance
[2222-43]
A. M. J. van
Eijk, TNO
Physics and Electronics Lab. (Netherlands); D. R.Jensen, Naval Command,
Control and Ocean Surveillance Ctr.;
G. de
Leeuw, TNO
Physics and Electronics Lab.
(Netherlands)
31 6
Breaker zone aerosol dynamics in the southern Baltic Sea
[2222-44]
T.
Zieliński,
Univ. of
Gdańsk
(Poland);
A. Zieliński,
Institute of Oceanology (Poland)
328
Propagation of intensive laser radiation in atmospheric aerosol
[2222-45]
A. A. Zemlyanov, V. E. Zuev, Y. E. Geints, V. A. Pogodaev, Institute of Atmospheric Optics
(Russia)
339
Theoretical investigation of the extinction and absorption coefficients of a system of oriented
ice plates in optical plane range
[2222-46]
O. V. Shefer, Tomsk State Univ. (Russia); A. A. Popov,
Mari Polytechnical
Institute (Russia)
349
Theory and experiment on optical
lévitation
of aerosol droplet
[2222-47]
X. Yang, J. Wang, Z. Feng, Univ. of Electronic Science and Technology (China)
356
Extinction, absorption, and light pressure cross sections of spherical particles in the modified
geometrical optics approximation
[2222-49]
A. A. Kokhanovsky, E. P.
Zege,
Institute of Physics (Belarus)
367
Characterization
of Mojave Desert aerosols: their effect on radiometer performance
[2222-50]
L. A. Mathews, D. P.
Salgado,
Naval Air Warfare Or.; P. L. Walker, Naval Postgraduate School
375
Statistical model for aerosol size distribution parameters according to weather parameters
[2222-51]
I. Dror,
N.
S. Kopeika,
Ben-Gurion Univ.
of the Negev (Israel)
384
Aerosol extinction profile over the river Volga along the path Moscow-Nizniy
Novgorod-Moscow
[2222-52]
S. M.
Pershin, A. Bukharin, Space Research Institute (Russia)
392
New generation of the portable backscatter
lidar
with eye-safe energy level for environmental
sensing
[2222-53]
S. M.
Pershin, Space Research Institute (Russia)
SESSION
3
OPTICAL TURBULENCE: ADAPTIVE TECHNIQUES, PROPAGATION, AND MODELING I
404
Adaptive optics compensation of atmospheric turbulence: the past, the present, and the
promise (Invited Paper)
[2222-54]
R. K. Tyson, W.J.
Schäfer
Associates, Inc.
413
Nonlinear 2D-feedback optical systems: new approaches for adaptive
wavefront
correction
(Invited Paper)
[2222-56]
M. A. Vorontsov, I. P. Nicolaev, New Mexico State Univ. and Moscow State Univ. (Russia)
423
Adaptive compensation of nonlinear laser beam distortion in turbulent atmosphere: optimal
algorithms and ultimate possibilities (Invited Paper)
[2222-57]
S. S. Chesnokov, I. V. Davletshina, Moscow State Univ. (Russia)
437
Optimal nonlinear processing of
a
wavefront
passed through a medium with random
inhomogeneities
[2222-58]
V. A. Potapov, A.L. Mints
Radiotechnical
Institute (Russia)
446
Estimation of the density of dislocations of the
wavefront
due to atmosphere
[2222-59]
D. Kouznetsov-Kallistratova, Univ.
Nacional
Autonoma
de
Mexico (Mexico) and P.N. Lebedev
Physical Institute (Russia); R. Ortega-Martinez, Univ.
Nacional
Autonoma
de
Mexico (Mexico)
456
Improvement of image quality of coherently illuminated objects in a turbulent atmosphere
[2222-60]
V. A. Banakh, B.-N. Chen, Institute of Atmospheric Optics (Russia)
462
Reciprocal path imaging: a technique for the mitigation of image degradation due to
atmospheric turbulence
[2222-61]
A. Kotha, J. E. Harvey, R. L. Phillips, CREOL/Univ. of Central Florida
470
Fundamental limitations of reciprocal path imaging through the atmosphere with dilute
subaperture
arrays
[2222-62]
J. E. Harvey, A. Kotha,
R. L
Phillips, CREOL/Univ. of Central Florida
485
Experimental verification of theoretical model for speckle intensity excursion areas
[2222-63]
T. L. Alexander,). E. Harvey, D. Hefele, CREOL/Univ. of Central Florida
499
Effects of aerosol forward scatter on long- and short- exposure atmospheric coherence
diameter
[2222-64]
D. Sadot, A. Melamed,
N.
Dinur,
N.
S. Kopeika,
Ben-Gurion Univ.
of the Negev (Israel)
511
Turbulence influence on focused laser beam propagation in the stratosphere
[2222-65]
V. A. Banakh, I.
N.
Smalikho, Institute of Atmospheric Optics (Russia)
522
Four-dimensional computer dynamic model of an atmospheric optical system
[2222-66]
V. P. Lukin, B. V. Fortes, F. Yu. Kanev, P. A. Konyaev, Institute of Atmospheric Optics (Russia)
527
Comparison of models of the atmospheric turbulence spectrum
[2222-67]
V. P. Lukin, Institute of Atmospheric Optics (Russia)
536
Numerical calculation of atmospheric propagation of focused high laser beams
[2222-68]
S. Xie, C. Lei, S. Zheng, Institute of Applied Physics and Computational Mathematics (China)
542
Breakdown and acoustic effects accompanying nonlinear propagation of intense laser pulses in
the atmosphere
[2222-69]
Yu. D. Kopytin, L. K. Chistyakova, L. C. Shamanaeva, Fundamental Lab. Co. Ltd. (Russia)
554
Computer system for determining the influence of atmospheric effects on power and precision
characteristics of optical systems
[2222-70]
E. B. Belyaev, A. I. Isakova, Institute of Atmospheric Optics (Russia); J. D. Kopytin,
V. V. Nosov,
Fundamental Lab. Co. Ltd. (Russia)
563
Laser beam self-focusing on scatterers due to Kerr nonlinearity of air
[2222-72]
V. V. Vorob ev, Institute of Atmospheric Physics (Russia)
573
Properties of light source image
[2222-73]
I. C. Yakushkin, Institute of Atmospheric Physics (Russia)
581
Turbulence and precipitation: combined influence on wave propagation taking into account
polarization effects
[2222-76]
L. A. Apresyan, A. L. Mints
Radiotechnical
Institute (Russia)
587
Simulation of a signal propagating through the turbulent atmosphere
[2222-77]
Z. I. Feizulin, A. C. Vinogradov, A. L.
Mints
Radiotechnical
Institute (Russia)
595
Effects of turbulence on the formation of Gaussian image and signal-to-noise ratio
[2222-78]
C.-C. Yang, B. H. Elsebelgy, M. A. Plonus, Northwestern Univ.
605
Superresolution
image in weak turbulence
[2222-79]
C.-C. Yang, M. A. Plonus, Northwestern Univ.
611
Irradiance of optical waves through atmospheric turbulence by numerical simulation
[2222-80]
S. M. Flatté,
С.
Bracher,
G.-Y. Wang, Univ. of California/Santa Cruz
621
Monostatic image distortion
lidar
technique for measuring intensity of atmospheric turbulence
[2222-86]
M. S. Belen kii, G. G.
Gimmestad, Georgia Tech Research Institute
628
Design considerations for a residual turbulent scintillation (RTS)
lidar
[2222-82]
M. S.
Belen kii,
G. G. Gimmestad,
Georgia Institute of Technology
633
New perspective in the experimental study of atmospheric turbulence: a volume scanning
crossed-path
lidar
technique
[2222-83]
M. S. Belen kii, C. G. Gimmestad, Georgia Institute of Technology
SESSION
4
OPTICAL TURBULENCE: ADAPTIVE TECHNIQUES, PROPAGATION, AND MODELING II
644
Backscattering through turbulence: qualitative consideration
[2222-84]
A. S. Gurvich, A.
N.
Bogaturov, Institute of Atmospheric Physics (Russia)
656
High-resolution restoration of images distorted by the atmosphere, based upon average
atmospheric modulation transfer function
[2222-85]
D. Sadot, A.
Rosenfeld,
G.
Shuker,
N. S.
Kopeika,
Ben-Gurion Univ.
of the Negev (Israel)
667
New non-Doppler remote sensing technique for
3D
wind field mapping
[2222-81 ]
M. S. Belen kii, G. G. Gimmestad, Georgia Institute of Technology; A. S. Gurvich, Institute of
Atmospheric Physics (Russia)
674
Experimental study of coherence enhancement effects after backscattering from rough surfaces
through turbulence
[2222-87]
V. A. Myakinin, Institute of Atmospheric Physics (Russia); C. J. Solomon, Imperial College of
Science, Technology and Medicine (UK)
682
Folding of the vertical atmospheric turbulence profile using an optical technique of movable
observing plane
[2222-88]
A.
Fuchs,
M.
Tallon,
J. Vernin, Univ.
de Nice-Sophia Antipolis (France)
693
First,
second,
and fourth moments of the Green function of stochastic wave equation for
dispersive and Gaussian media: Monte Carlo method and path integrals
[2222-89]
V. S. Filinov, Institute for High Temperatures (Russia)
705
Spacial and temporal variability of optically active turbulence in the convective atmospheric
boundary layer
[2222-90]
I. V. Petenko, V. D. Beljavskaja, Institute of Atmospheric Physics (Russia)
716
Temperature fluctuations in the atmospheric boundary layer: comparison with the model of
locally axisymmetric inhomogeneities
[2222-91]
V. P. Kukharets, A. S. Gurvich, Institute of Atmospheric Physics (Russia)
721
Influence of turbulence outer scale on atmospheric transverse coherence length and isoplanatic
angle
[2222-92]
Z. Song, C
Fan, Anhui Institute of Optics and Fine Mechanics (China)
726
Dependence of
Strehi
ratio on turbulence model
[2222-93]
V. H. Shui,
N.
A. Thyson, Textron Defense Systems
735
Statistics of time-averaged atmospheric scintillation
[2222-94]
P. D. Stroud, Los Alamos National Lab.
745
Effect of a modified spectrum on aperture averaging of optical scintillation
[2222-96]
E. Bass, B. Lackovic, L. C. Andrews, Univ. of Central Florida
752
Effects of a modified spectrum on the wave structure function of a Gaussian beam
[2222-97]
L. C
Andrews,
C. Y.
Young, Univ. of Central Florida
759
Time-pulse propagation and inverse problem solution for layered medium
[2222-98]
V. I. Klyatskin, Institute of Atmospheric Physics (Russia); K. V. Koshel,
В. М.
Shevtsov, Pacific
Oceanological Institute (Russia)
768
Measurement of perturbations on an optical
wavefront
propagating in sea water: application to
coherent detection
[2222-99]
A.
Perennou,
J.
Cariou,
J. Lotrian, Univ.
de Bretagne
Occidentale
(France)
780
Comparison of a model describing propagation through optical turbulence (PROTURB) with
field data
[2222-101]
R. W. Smith, U.S. Army Test and Evaluation Command; J. C. Ricklin, U.S. Army Research
Lab.;
К.
E.
Cranston,
J.
P. Cruncleton, New Mexico State Univ.
790
MODTRAN2: evolution and applications
[2222-1 02]
C. P. Anderson,
J. G. Chetwynd, F. X. Kneizys, L. M.
Kimball, Air Force Phillips
Lab.;
L. S.
Bernstein, P. Acharya, A. Berk,
D. C
Robertson, Spectral Sciences, Inc.; L. W.
Abreu,
ONTAR Corp.; E. P. Shettle, Naval Research Lab.
800
Modeling atmospheric turbulence effects on ground-based telescope systems
[2222-103]
S. M. Flatté,
L.
W.
Bradford, Univ. of California/Santa Cruz; C. E. Max, Lawrence Livermore
National Lab.
811
Modeling and prediction of atmospheric propagation effects from satellite beacons
[2222-104]
L. J. Ippolito, Stanford Telecom
823
Speckle simulation movies for analysis and evaluation of laser systems
[2222-105]
H. R. Myler, A. R. Weeks,
W. S.
Rabadi, Univ. of Central Florida
827
Optical turbulence estimates over complex terrain using a high-resolution wind model
[2222-106]
Y. P. Yee, R. M.
Cionco,
R.
A. Sutherland, U.S. Army Research Lab.
839
Maritime atmospheric transmission in the medium- and long-wave infrared
[2222-107]
G. R.
Armstrong,
К. С
A. Blasdale, Pilkington Optronics (UK)
851
Model of radio wave dispersion in atmosphere
[2222-108]
Υ. Μ.
Galaev, Institute of Radiophysics and Electronics (Ukraine)
862
Complex effects of clutter, weather, and battlefield conditions on the target detection in
millimeter-wave radars
[2222-109]
G. P. Kulemin, V. B. Razscazovsky, Institute of Radiophysics and Electronics (Ukraine)
872
Passive ranging using a single
IR
sensor
[2222-11 0]
W. Jeffrey, Institute for Defense Analyses; R. W. Gobel, Analytic Services, Inc.;
J. S.
Draper,
KTAADN, Inc.
884
Optical refraction angle variations and multipath propagation from space observations
[2222-113]
S. V. Kireev, S. V. Sokolovskiy, Institute of Atmospheric Physics (Russia)
894
Structure of optical turbulence over large city
[2222-1 14]
M. A. Kallistratova, M. S.
Pekour, Institute of Atmospheric Physics (Russia)
906
Scintillation measurement with
7
/łin-band
tunable laser in different seasons
[2222-11 5]
N.
Kagawa, Fukuyama Univ. (Japan);
O. Wada,
R.
Koga,
Okayama Univ. (Japan)
918
Techniques for measuring the spectra of the statistical distribution of scintillation, spread, or
spot dancing, and their applications in remote sensing
[2222-116]
C. L.
Tan, Wuhan Univ. (China); J. R. Lin, Hubei Industrial College (China); H. Xing, Wuyi Univ.
(China); L.-C. Tan, Wuhan Univ. (China); Q.-P. Tan, Wuyi Univ. (China)
SESSION
5
ADDITIONAL PAPER
922
Raman
lidar
measurements of atmospheric properties
[2222-29]
C. R.
Philbrick, The Pennsylvania State University
932
Addendum
934
Author Index
|
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV010739852 |
| callnumber-first | T - Technology |
| callnumber-label | TK6553 |
| callnumber-raw | TK6553 |
| callnumber-search | TK6553 |
| callnumber-sort | TK 46553 |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| classification_tum | MSR 915f ELT 044f |
| ctrlnum | (OCoLC)30820703 (DE-599)BVBBV010739852 |
| discipline | Elektrotechnik Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik |
| format | Book |
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| genre | (DE-588)1071861417 Konferenzschrift 1994 Orlando Fla. gnd-content |
| genre_facet | Konferenzschrift 1994 Orlando Fla. |
| id | DE-604.BV010739852 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-09T17:58:04Z |
| institution | BVB |
| isbn | 081941526X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-007171173 |
| oclc_num | 30820703 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM |
| owner_facet | DE-91 DE-BY-TUM |
| physical | XI, 936 S.: Ill. u. graph. Darst. |
| publishDate | 1994 |
| publishDateSearch | 1994 |
| publishDateSort | 1994 |
| publisher | SPIE,The International Society for Optical Engineering |
| record_format | marc |
| series | Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE |
| series2 | Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE |
| spelling | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. Walter A. Flood ..., chairs/eds. Bellingham, Wash. SPIE,The International Society for Optical Engineering 1994 XI, 936 S.: Ill. u. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE 2222 Aerosols Measurement Congresses Atmospheric turbulence Measurement Congresses Imaging systems Congresses Radio wave propagation Remote sensing Congresses Fernerkundung (DE-588)4016796-3 gnd rswk-swf Freie Wellenausbreitung (DE-588)4312218-8 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 1994 Orlando Fla. gnd-content Fernerkundung (DE-588)4016796-3 s DE-604 Freie Wellenausbreitung (DE-588)4312218-8 s Flood, Walter A. Sonstige oth Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE 2222 (DE-604)BV000010887 2222 Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007171173&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. Society of Photo-Optical Instrumentation Engineers: Proceedings of SPIE Aerosols Measurement Congresses Atmospheric turbulence Measurement Congresses Imaging systems Congresses Radio wave propagation Remote sensing Congresses Fernerkundung (DE-588)4016796-3 gnd Freie Wellenausbreitung (DE-588)4312218-8 gnd |
| subject_GND | (DE-588)4016796-3 (DE-588)4312218-8 (DE-588)1071861417 |
| title | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. |
| title_auth | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. |
| title_exact_search | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. |
| title_full | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. Walter A. Flood ..., chairs/eds. |
| title_fullStr | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. Walter A. Flood ..., chairs/eds. |
| title_full_unstemmed | Atmospheric propagation and remote sensing III 5 - 7 April 1994, Orlando, Fla. Walter A. Flood ..., chairs/eds. |
| title_short | Atmospheric propagation and remote sensing III |
| title_sort | atmospheric propagation and remote sensing iii 5 7 april 1994 orlando fla |
| title_sub | 5 - 7 April 1994, Orlando, Fla. |
| topic | Aerosols Measurement Congresses Atmospheric turbulence Measurement Congresses Imaging systems Congresses Radio wave propagation Remote sensing Congresses Fernerkundung (DE-588)4016796-3 gnd Freie Wellenausbreitung (DE-588)4312218-8 gnd |
| topic_facet | Aerosols Measurement Congresses Atmospheric turbulence Measurement Congresses Imaging systems Congresses Radio wave propagation Remote sensing Congresses Fernerkundung Freie Wellenausbreitung Konferenzschrift 1994 Orlando Fla. |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007171173&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000010887 |
| work_keys_str_mv | AT floodwaltera atmosphericpropagationandremotesensingiii57april1994orlandofla |