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Alphabetical List
By Category

`phased.CosineAntennaElement` | Cosine antenna element |

`phased.CrossedDipoleAntennaElement` | Crossed-dipole antenna element |

`phased.CustomAntennaElement` | Custom antenna element |

`phased.IsotropicAntennaElement` | Isotropic antenna element |

`phased.ShortDipoleAntennaElement` | Short-dipole antenna element |

`phased.CustomMicrophoneElement` | Custom microphone |

`phased.OmnidirectionalMicrophoneElement` | Omnidirectional microphone |

`phased.IsotropicHydrophone` | Isotropic hydrophone |

`phased.IsotropicProjector` | Isotropic projector |

`aperture2gain` | Convert effective aperture to gain |

`gain2aperture` | Convert gain to effective aperture |

`uv2azel` | Convert u/v coordinates to azimuth/elevation angles |

`azel2uv` | Convert azimuth/elevation angles to u/v coordinates |

`phitheta2azel` | Convert angles from phi/theta form to azimuth/elevation form |

`azel2phitheta` | Convert angles from azimuth/elevation form to phi/theta form |

`uv2phitheta` | Convert u/v coordinates to phi/theta angles |

`phitheta2uv` | Convert phi/theta angles to u/v coordinates |

`uv2azelpat` | Convert radiation pattern from u/v form to azimuth/elevation form |

`azel2uvpat` | Convert radiation pattern from azimuth/elevation form to u/v form |

`phitheta2azelpat` | Convert radiation pattern from phi/theta form to azimuth/elevation form |

`azel2phithetapat` | Convert radiation pattern from azimuth-elevation to phi-theta coordinates |

`uv2phithetapat` | Convert radiation pattern from u/v form to phi/theta form |

`phitheta2uvpat` | Convert radiation pattern from phi/theta form to u/v form |

`polellip` | Parameters of ellipse traced out by tip of a polarized field vector |

`polratio` | Ratio of vertical to horizontal linear polarization components of a field |

`pol2circpol` | Convert linear component representation of field to circular component representation |

`circpol2pol` | Convert circular component representation of field to linear component representation |

`stokes` | Stokes parameters of polarized field |

`polloss` | Polarization loss |

`polsignature` | Copolarization and cross-polarization signatures |

`polarpattern` | Interactive plot of radiation patterns in polar format |

`phased.ULA` | Uniform linear array |

`phased.URA` | Uniform rectangular array |

`phased.UCA` | Uniform circular array |

`phased.ConformalArray` | Conformal array |

`phased.PartitionedArray` | Phased array partitioned into subarrays |

`phased.ReplicatedSubarray` | Phased array formed by replicated subarrays |

`phased.HeterogeneousConformalArray` | Heterogeneous conformal array |

`phased.HeterogeneousULA` | Heterogeneous uniform linear array |

`phased.HeterogeneousURA` | Heterogeneous uniform rectangular array |

`phased.SteeringVector` | Sensor array steering vector |

`phased.ElementDelay` | Sensor array element delay estimator |

`phased.ArrayGain` | Sensor array gain |

`phased.ArrayResponse` | Sensor array response |

`az2broadside` | Convert azimuth and elevation angle to broadside angle |

`broadside2az` | Convert broadside angle to azimuth angle |

`pilotcalib` | Array calibration using pilot sources |

`steervec` | Steering vector |

`taylortaperc` | Taylor nbar taper for arrays |

`polarpattern` | Interactive plot of radiation patterns in polar format |

`phased.Collector` | Narrowband signal collector |

`phased.Radiator` | Narrowband signal radiator |

`phased.WidebandCollector` | Wideband signal collector |

`phased.WidebandRadiator` | Wideband signal radiator |

`sensorsig` | Simulate received signal at sensor array |

`sensorcov` | Sensor spatial covariance matrix |

`phased.Transmitter` | Transmitter |

`phased.ReceiverPreamp` | Receiver preamp |

`sensorsig` | Simulate received signal at sensor array |

`sensorcov` | Sensor spatial covariance matrix |

`noisepow` | Receiver noise power |

`systemp` | Receiver system-noise temperature |

`delayseq` | Delay or advance sequence |

`phased.LinearFMWaveform` | Linear FM pulse waveform |

`phased.PhaseCodedWaveform` | Phase-coded pulse waveform |

`phased.RectangularWaveform` | Rectangular pulse waveform |

`phased.SteppedFMWaveform` | Stepped FM pulse waveform |

`phased.PulseWaveformLibrary` | Create a library of pulse waveforms |

`spectrogram` | Spectrogram using short-time Fourier transform |

`phased.FMCWWaveform` | FMCW waveform |

`phased.MFSKWaveform` | MFSK waveform |

`spectrogram` | Spectrogram using short-time Fourier transform |

`phased.MatchedFilter` | Matched filter |

`ambgfun` | Ambiguity and crossambiguity function |

`pambgfun` | Periodic ambiguity function |

`bw2range` | Convert bandwidth to range resolution |

`range2bw` | Convert range resolution to required bandwidth |

`range2time` | Convert propagation distance to propagation time |

`time2range` | Convert propagation time to propagation distance |

`unigrid` | Uniform grid |

`phased.LCMVBeamformer` | Narrowband LCMV beamformer |

`phased.MVDRBeamformer` | Narrowband minimum-variance distortionless-response beamformer |

`phased.PhaseShiftBeamformer` | Narrowband phase shift beamformer |

`phased.SteeringVector` | Sensor array steering vector |

`phased.FrostBeamformer` | Frost beamformer |

`phased.GSCBeamformer` | Generalized sidelobe canceller beamformer |

`phased.SubbandMVDRBeamformer` | Wideband minimum-variance distortionless-response beamformer |

`phased.SubbandPhaseShiftBeamformer` | Subband phase shift beamformer |

`phased.TimeDelayBeamformer` | Time delay beamformer |

`phased.TimeDelayLCMVBeamformer` | Time delay LCMV beamformer |

`cbfweights` | Conventional beamformer weights |

`lcmvweights` | Narrowband linearly constrained minimum variance (LCMV) beamformer weights |

`mvdrweights` | Minimum variance distortionless response (MVDR) beamformer weights |

`steervec` | Steering vector |

`az2broadside` | Convert azimuth and elevation angle to broadside angle |

`broadside2az` | Convert broadside angle to azimuth angle |

`sensorcov` | Sensor spatial covariance matrix |

`sensorsig` | Simulate received signal at sensor array |

`pilotcalib` | Array calibration using pilot sources |

`phased.BeamscanEstimator` | Beamscan spatial spectrum estimator for ULA |

`phased.BeamspaceESPRITEstimator` | Beamspace ESPRIT direction of arrival (DOA) estimator for ULA |

`phased.ESPRITEstimator` | ESPRIT direction of arrival (DOA) estimator for ULA |

`phased.MVDREstimator` | MVDR (Capon) spatial spectrum estimator for ULA |

`phased.MUSICEstimator` | Estimate direction of arrival using narrowband MUSIC algorithm for ULA |

`phased.RootMUSICEstimator` | Root MUSIC direction of arrival (DOA) estimator for ULA and UCA |

`phased.RootWSFEstimator` | Root WSF direction of arrival (DOA) estimator for ULA |

`phased.SumDifferenceMonopulseTracker` | Sum and difference monopulse for ULA |

`phased.SumDifferenceMonopulseTracker2D` | Sum and difference monopulse for URA |

`phased.BeamscanEstimator2D` | 2-D beamscan spatial spectrum estimator |

`phased.GCCEstimator` | Wideband direction of arrival estimation |

`phased.MUSICEstimator2D` | Estimate 2D direction of arrival using narrowband MUSIC algorithm |

`phased.MVDREstimator2D` | 2-D MVDR (Capon) spatial spectrum estimator |

`espritdoa` | Direction of arrival using TLS ESPRIT |

`gccphat` | Generalized cross-correlation |

`musicdoa` | Estimate arrival directions of signals using MUSIC |

`rootmusicdoa` | Direction of arrival using Root MUSIC |

`spsmooth` | Spatial smoothing |

`aictest` | Dimension of signal subspace |

`mdltest` | Dimension of signal subspace |

`az2broadside` | Convert azimuth and elevation angle to broadside angle |

`broadside2az` | Convert broadside angle to azimuth angle |

`phased.STAPSMIBeamformer` | Sample matrix inversion (SMI) beamformer |

`phased.DPCACanceller` | Displaced phase center array (DPCA) pulse canceller |

`phased.ADPCACanceller` | Adaptive DPCA (ADPCA) pulse canceller |

`phased.AngleDopplerResponse` | Angle-Doppler response |

`dopsteeringvec` | Doppler steering vector |

`val2ind` | Uniform grid index |

`phased.CFARDetector` | Constant false alarm rate (CFAR) detector |

`phased.CFARDetector2D` | Two-dimensional CFAR detector |

`phased.MatchedFilter` | Matched filter |

`phased.StretchProcessor` | Stretch processor for linear FM waveform |

`phased.TimeVaryingGain` | Time varying gain control |

`albersheim` | Required SNR using Albersheim’s equation |

`dechirp` | Perform dechirp operation on FMCW signal |

`npwgnthresh` | Detection SNR threshold for signal in white Gaussian noise |

`pulsint` | Pulse integration |

`rocpfa` | Receiver operating characteristic curves by false-alarm probability |

`rocsnr` | Receiver operating characteristic curves by SNR |

`shnidman` | Required SNR using Shnidman’s equation |

`blakechart` | Range-angle-height (Blake) chart |

`bw2range` | Convert bandwidth to range resolution |

`physconst` | Physical constants |

`radareqpow` | Peak power estimate from radar equation |

`radareqrng` | Maximum theoretical range estimate |

`radareqsnr` | SNR estimate from radar equation |

`radarvcd` | Vertical coverage diagram |

`range2bw` | Convert range resolution to required bandwidth |

`bw2range` | Convert bandwidth to range resolution |

`physconst` | Physical constants |

`range2bw` | Convert range resolution to required bandwidth |

`range2tl` | Compute underwater sound transmission loss from range |

`sonareqsl` | Compute source level using the sonar equation |

`sonareqsnr` | Compute SNR using the sonar equation |

`sonareqtl` | Compute transmission loss using the sonar equation |

`tl2range` | Compute range from underwater transmission loss |

`phased.DopplerEstimator` | Doppler estimation |

`phased.RangeDopplerResponse` | Range-Doppler response |

`phased.RangeEstimator` | Range estimation |

`phased.RangeResponse` | Range response |

`beat2range` | Convert beat frequency to range |

`range2beat` | Convert range to beat frequency |

`rdcoupling` | Range Doppler coupling |

`stretchfreq2rng` | Convert frequency offset to range |

`blakechart` | Range-angle-height (Blake) chart |

`bw2range` | Convert bandwidth to range resolution |

`physconst` | Physical constants |

`radareqpow` | Peak power estimate from radar equation |

`radareqrng` | Maximum theoretical range estimate |

`radareqsnr` | SNR estimate from radar equation |

`radarvcd` | Vertical coverage diagram |

`range2bw` | Convert range resolution to required bandwidth |

`bw2range` | Convert bandwidth to range resolution |

`physconst` | Physical constants |

`range2bw` | Convert range resolution to required bandwidth |

`range2tl` | Compute underwater sound transmission loss from range |

`sonareqsl` | Compute source level using the sonar equation |

`sonareqsnr` | Compute SNR using the sonar equation |

`sonareqtl` | Compute transmission loss using the sonar equation |

`tl2range` | Compute range from underwater transmission loss |

`phased.IntensityScope` | Range-time-intensity (RTI) or Doppler-time-intensity (DTI) display |

`phased.RadarTarget` | Radar target |

`phased.BackscatterRadarTarget` | Backscatter radar target |

`phased.BackscatterSonarTarget` | Sonar target backscatter |

`phased.WidebandBackscatterRadarTarget` | Backscatter wideband signal from radar target |

`phased.BarrageJammer` | Barrage jammer |

`phased.ConstantGammaClutter` | Constant gamma clutter simulation |

`phased.gpu.ConstantGammaClutter` | Simulate constant-gamma clutter using GPU |

`phased.UnderwaterRadiatedNoise` | Radiate acoustic noise from underwater or surface sound source |

`billingsleyicm` | Billingsley’s intrinsic clutter motion (ICM) model |

`depressionang` | Depression angle of surface target |

`grazingang` | Grazing angle of surface target |

`horizonrange` | Horizon range |

`physconst` | Physical constants |

`surfacegamma` | Gamma value for different terrains |

`surfclutterrcs` | Surface clutter radar cross section (RCS) |

`phased.FreeSpace` | Free space environment |

`phased.LOSChannel` | Narrowband LOS propagation channel |

`phased.TwoRayChannel` | Two-ray propagation channel |

`phased.ScatteringMIMOChannel` | Scattering MIMO channel |

`phased.IsoSpeedUnderwaterPaths` | Isospeed multipath sonar channel |

`phased.MultipathChannel` | Propagate signals in multipath channel |

`phased.WidebandFreeSpace` | Wideband freespace propagation |

`phased.WidebandLOSChannel` | Wideband LOS propagation channel |

`phased.WidebandTwoRayChannel` | Wideband two-ray propagation channel |

`diagbfweights` | Diagonalize MIMO channel |

`fogpl` | RF signal attenuation due to fog and clouds |

`fspl` | Free space path loss |

`gaspl` | RF signal attenuation due to atmospheric gases |

`rainpl` | RF signal attenuation due to rainfall |

`rangeangle` | Range and angle calculation |

`scatteringchanmtx` | Scattering channel matrix |

`waterfill` | Waterfill MIMO power distribution |

`effearthradius` | Effective earth radius |

`physconst` | Physical constants |

`phased.Platform` | Model platform motion |

`phased.ScenarioViewer` | Display motion of radars and targets |

`dop2speed` | Convert Doppler shift to speed |

`speed2dop` | Convert speed to Doppler shift |

`radialspeed` | Relative radial speed |

`rangeangle` | Range and angle calculation |

`global2localcoord` | Convert global to local coordinates |

`local2globalcoord` | Convert local to global coordinates |

`rotx` | Rotation matrix for rotations around x-axis |

`roty` | Rotation matrix for rotations around y-axis |

`rotz` | Rotation matrix for rotations around z-axis |

`cart2sphvec` | Convert vector from Cartesian components to spherical representation |

`sph2cartvec` | Convert vector from spherical basis components to Cartesian components |

`azelaxes` | Spherical basis vectors in 3-by-3 matrix form |

`uv2azel` | Convert u/v coordinates to azimuth/elevation angles |

`azel2uv` | Convert azimuth/elevation angles to u/v coordinates |

`phitheta2azel` | Convert angles from phi/theta form to azimuth/elevation form |

`azel2phitheta` | Convert angles from azimuth/elevation form to phi/theta form |

`uv2phitheta` | Convert u/v coordinates to phi/theta angles |

`phitheta2uv` | Convert phi/theta angles to u/v coordinates |

`phased.gpu.ConstantGammaClutter` | Simulate constant-gamma clutter using GPU |

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