Polarimetric Doppler Weather Radar: Principles and ApplicationsCambridge University Press, 2001 M08 30 - 636 páginas This 2001 book provides a detailed introduction to the principles of Doppler and polarimetric radar, focusing in particular on their use in the analysis of weather systems. The design features and operation of practical radar systems are highlighted throughout the book in order to illustrate important theoretical foundations. The authors begin by discussing background topics such as electromagnetic scattering, polarization, and wave propagation. They then deal in detail with the engineering aspects of pulsed Doppler polarimetric radar, including the relevant signal theory, spectral estimation techniques, and noise considerations. They close by examining a range of key applications in meteorology and remote sensing. The book will be of great use to graduate students of electrical engineering and atmospheric science as well as to practitioners involved in the applications of polarimetric radar systems. |
Contenido
Review of Maxwells equations and potentials | 1 |
1 | 18 |
8 | 29 |
10 | 38 |
Scattering matrix | 45 |
3 | 51 |
6 | 78 |
3 | 88 |
6 | 368 |
7 | 377 |
3 | 473 |
4 | 490 |
5 | 513 |
Radar rainfall estimation | 534 |
5 | 559 |
6 | 567 |
Dualpolarized wave propagation in precipitation media | 160 |
Doppler radar signal theory and spectral estimation | 211 |
12 | 215 |
89 | 292 |
3 | 322 |
4 | 338 |
5 | 353 |
electromagnetic field | 585 |
Tmatrix method | 591 |
Solution for the transmission matrix | 595 |
607 | |
629 | |
Otras ediciones - Ver todas
Polarimetric Doppler Weather Radar: Principles and Applications V. N. Bringi,V. Chandrasekar Sin vista previa disponible - 2005 |
Polarimetric Doppler Weather Radar: Principles and Applications V. N. Bringi,V. Chandrasekar Sin vista previa disponible - 2001 |
Términos y frases comunes
algorithms amplitude antenna assumed autocorrelation function axis ratio back scatter Bringi canting angle circular basis circular polarization components copolar correlation coefficient corresponding covariance matrix cross section cross-polar defined depolarization ratio dielectric differential phase differential propagation phase differential reflectivity distribution Doppler spectrum drop dual-polarized electric field equation error estimate expressed Fourier transform frequency Gaussian given graupel hail Hendry horizontal hydrometeor illustrated in Fig LDRvh linear polarization noise oblate orientation particle Pcol plane wave polarimetric power spectral density precipitation pulse radar cross section rain rate raindrops range range-time Rayleigh scattering received signal received voltage reflection symmetry resolution volume S-band samples SBSA scattering matrix shown in Fig sin² sphere spherical spheroids standard deviation transmission matrix transmitted waveform v-port variance vector velocity versus vertical Zrnić