Call number:
doi:10.1007/BFb0009557
Description / Table of Contents:
This book, which is divided into three parts, gives a state-of-the-art report on technical developments in instrumentation and on theoretical advancements in acoustic remote sensing. It explains the utilization of acoustic techniques in studies related to the structure of the lower atmosphere and oceans and discusses various atmospheric and oceanic applications. The potential and limitations of acoustic remote sensing are also described. This book will be useful to researchers, graduate students, and teachers interested in the structure of the atmosphere and oceans.
Type of Medium:
12
Pages:
XIII, 585 Seiten
,
Illustrationen, Diagramme, Karten
ISBN:
3540616128 (Springer, Berlin ...)
,
0387616128 (Springer, New York ...)
,
8173191107 (Narosa Publ. House)
,
978-3-540-61612-2 (Print)
,
978-3-540-70743-1 (Online)
Series Statement:
Lecture notes in earth sciences 69
URL:
https://doi.org/10.1007/BFb0009557
URL:
http://www.gbv.de/dms/goettingen/238540685.pdf
Language:
English
Note:
Pages 3-34, Physical grounds for acoustic remote sensing of the atmospheric boundary layer, M. A. Kallistratova --- Pages 35-84, An overview of the technological development of atmospheric echosounders (SODARS), John A. Kleppe --- Pages 85-104, Design of a tri-monostatic doppler sodar system, Yoshiki Ito --- Pages 105-116, A modular PC-based multiband sodar system, G. Mastrantonio, S. Argentini --- Pages 117-132, Mini acoustic sounding, a powerful tool for ABL applications: Recent advances, D. N. Asimakopoulos, C. G. Helmis, M. Petrakis --- Pages 133-141, Radio-acoustic temperature profiling in the troposphere, G. Bonino --- Pages 142-176, Radio acoustic sounding system (RASS) for studying the lower atmosphere, S. P. Singal, Malti Goel --- Pages 179-190, Determination of the turbulent structure parameters, Pan Naixian --- Pages 191-201, Turbulence variables derived from sodar data, R. L. Coulter --- Pages 202-235, Development of sodar detection and its application for studies of atmospheric boundary layer in Beijing, China, Mingyu Zhou --- Pages 236-246, Influence of the nocturnal low-level-jet on the vertical and mesoscale structure of the stable boundary layer as revealed from doppler-sodar-observations, Frank Beyrich, Dieter Kalass, Ulrich Weisensee --- Pages 247-274, Dynamics of the continental boundary layer: The CRPE sodar results (1984–1993), Christine Amory-Mazaudier --- Pages 275-292, Sodar investigations of gravity waves by cross spectral analysis, Günther Bull --- Pages 293-306, Sodar monitoring of nocturnal boundary layer during the harmattan in Ile-Ife, Nigeria, J. A. Adedokun --- Pages 307-324, An overview of similarity methods to estimate turbulence quantities from sodar measurements in the convective boundary layer, Dimitrios Melas --- Pages 325-384, Sodar: A tool to characterize hazardous situations in air pollution and communication, S. P. Singal, B. S. Gera, Neeraj Saxena --- Pages 385-394, Application of sodar in urban air-quality monitoring systems, Jacek Walczewski --- Pages 395-405, Operational use of sodar information in nowcasting, Th. Foken, H.-J. Albrecht, K. Sasz, F. Vogt --- Pages 409-448, Acoustic remote sensing of ocean flows, Antony Joseph K, Ehrlich Desa --- Pages 449-475, Acoustic remote sensing of ocean-atmosphere interactions, A. Weill, H. Dupuis
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