The toolbox models target reflection and scattering by point-like
reflectors. You can specify scattering radar cross sections (RCS) for
non-polarized radiation or scattering matrices for polarized radiation.
The four standard Swerling target scattering models are implemented. For
the special case of backscattering radar scenarios, you can simulate an
angle-dependent radar cross-section model. Radar cross-section models
apply to both narrowband and wideband signals. Clutter and jammer models
let you model land and sea reflections and interference sources. You can
also simulate the four standard Swerling backscattering models in sonar
scenarios. The toolbox enables you to simulate radar reflections from a
walking pedestrian or a moving bicyclist. For sonar system simulations,
you can employ target strength models and create underwater noise
sources. To simulate clutter, you can use a computer graphical
processing unit (GPU) to speed up computations. In this case, use the
|Backscatter radar signals from pedestrian|
|Backscatter radar signals from bicyclist|
|Backscatter radar target|
|Sonar target backscatter|
|Backscatter wideband signal from radar target|
|Backscatter Pedestrian||Backscatter signals from pedestrian|
|Backscatter Bicyclist||Backscatter signals from bicyclist|
|Radar Target||Radar target|
|Backscatter Radar Target||Backscatter radar target|
|Wideband Backscatter Radar Target||Backscatter wideband signals from radar target|
|Range Angle Calculator||Range and angle calculations|
|Billingsley’s intrinsic clutter motion (ICM) model|
|Depression angle of surface target|
|Grazing angle of surface target|
|Gamma value for different terrains|
|Surface clutter radar cross section (RCS)|
Propagation environments have significant effects on the amplitude, phase, and shape of propagating space-time wavefields.
Polarized electromagnetic fields.
This section introduces the concept of baseband signals and defines the local and global coordinate systems used in the toolbox.
Phased Array System Toolbox™ uses the International System of Units (SI).