| Autore: |
Kobayashi Hirokazu
|
| Titolo: |
Advanced Technology Related to Radar Signal, Imaging, and Radar Cross-Section Measurement
|
| Pubblicazione: |
Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica: |
1 online resource (570 p.) |
| Soggetto topico: |
History of engineering and technology |
| Soggetto non controllato: |
2-D PPS |
| |
3-D deformation |
| |
adaptive reduced method |
| |
aircraft surveillance |
| |
altitude measurement accuracy |
| |
analytical approach |
| |
antenna array |
| |
atomic norm |
| |
automatic guided vehicle |
| |
Bayesian inversion |
| |
bistatic inverse synthetic aperture radar |
| |
bistatic MIMO radar |
| |
block coherence measure |
| |
block sparse Bayesian learning |
| |
CLEAN technique |
| |
clustering methods |
| |
clutter reduction |
| |
clutter suppression |
| |
coherent integration |
| |
coherent pulse trains |
| |
comprehensive SAR |
| |
conductivity |
| |
constant modulus sequences |
| |
constitutive parameters |
| |
contrast target detection |
| |
correlation properties |
| |
Cramer-Rao lower bound |
| |
critical height |
| |
crosshole ground penetrating radar (GPR) |
| |
curved orbit |
| |
deception jamming |
| |
dechirping |
| |
denoising detection |
| |
deramping-based approach |
| |
differential SAR tomography |
| |
dilation morphology |
| |
direct position determination |
| |
discrete cosine transform (DCT) |
| |
discrete scatterer model |
| |
DOA estimation |
| |
DoA/DoD estimation |
| |
DOD/DOA estimation |
| |
Doppler |
| |
Doppler rate |
| |
doppler tolerance |
| |
double negative |
| |
dual-band |
| |
dual-polarized radar |
| |
electromagnetic wave attribute |
| |
energy spectrum method |
| |
entropy thresholding |
| |
FMCW radio altimeter |
| |
forward model |
| |
fractional Fourier transform (FRFT) |
| |
frequency shifting modulation |
| |
generative adversarial nets |
| |
generator and discriminator |
| |
GPR |
| |
guided filter |
| |
height pulses |
| |
high reliability |
| |
high switching speed |
| |
hyperbolic tangent function |
| |
image fusion |
| |
image processing |
| |
integral cubic phase function (ICPF) |
| |
interrupted sampling |
| |
interrupted transmitting and receiving (ITR) |
| |
inverse synthetic aperture ladar (ISAL) |
| |
inverse synthetic aperture radar (ISAR) |
| |
ISAR |
| |
K-L transform |
| |
least square error |
| |
linear geometry distortion |
| |
local correlation |
| |
local gradient method |
| |
low control voltage |
| |
low-rank approximation |
| |
lunar penetrating radar |
| |
man-made targets |
| |
maneuvering target |
| |
maneuvering target detection |
| |
marine radar |
| |
maritime traffic monitoring |
| |
Markov chain Monte Carlo (MCMC) |
| |
maximum likelihood estimator |
| |
metamaterial absorber |
| |
methodological error |
| |
micro-Doppler |
| |
micro-motion feature extraction |
| |
microwave imaging |
| |
MIMO radar |
| |
modeling error |
| |
motion parameter estimation |
| |
multiparametric SAR observation |
| |
multipath ghost suppression |
| |
mutual coupling |
| |
n/a |
| |
narrowband interference separation |
| |
non-uniform fast Fourier transform (NUFFT) |
| |
non-uniform grid |
| |
off-grid sparse problem |
| |
orthogonal matching pursuit |
| |
parameter estimation |
| |
passive bistatic radar |
| |
PBR (passive bistatic radar) |
| |
permittivity |
| |
phased array radar |
| |
polarimetric decomposition |
| |
prior information |
| |
pulse radar |
| |
radar echo cancellation |
| |
radar jamming |
| |
radon transform |
| |
relative water content |
| |
remote sensing |
| |
RF MEMS |
| |
rotating target |
| |
S-transformation |
| |
saliency detection |
| |
saliency preprocessing LLC |
| |
SAR |
| |
scene classification |
| |
seasonal permafrost |
| |
second-order phase difference (SoPD) |
| |
seislet transform |
| |
sensing matrix optimization |
| |
series reversion |
| |
simultaneous polarimetric radar |
| |
single moving sensor |
| |
singular value decomposition (SVD) |
| |
small wind streak |
| |
SNR |
| |
spaceborne |
| |
sparse recovery |
| |
sparse representation |
| |
speckle noise filtering |
| |
squinted SAR |
| |
subspace extraction |
| |
switch |
| |
synchrosqueezing |
| |
synthetic aperture radar |
| |
synthetic aperture radar (SAR) |
| |
Synthetic Aperture Radar (SAR) |
| |
through-wall imaging |
| |
through-wall radar imaging |
| |
time-frequency analysis |
| |
tomography |
| |
ultra-wide frequency deviation |
| |
ultrahigh resolution |
| |
unmanned aerial vehicle |
| |
wake detection and analysis |
| |
wideband noise interference |
| |
wind direction retrieval |
| Persona (resp. second.): |
MoriyamaToshifumi |
| |
KobayashiHirokazu |
| Sommario/riassunto: |
Radar-related technology is mainly processed within the time and frequency domains but, at the same time, is a multi-dimensional integrated system including a spatial domain for transmitting and receiving electromagnetic waves. As a result of the enormous technological advancements of the pioneers actively discussed in this book, research and development in multi-dimensional undeveloped areas is expected to continue. This book contains state-of-the-art work that should guide your research. |
| Titolo autorizzato: |
Advanced Technology Related to Radar Signal, Imaging, and Radar Cross-Section Measurement |
|
| Formato: |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione: |
Inglese |
| Record Nr.: | 9910557305803321 |
|
| Lo trovi qui: | Univ. Federico II |
| Opac: |
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