billingsleyicm

Billingsley’s intrinsic clutter motion (ICM) model

Since R2021a

Syntax

P = billingsleyicm(fd,fc,wspeed)

P = billingsleyicm(fd,fc,wspeed,c)

Description

P = billingsleyicm(fd,fc,wspeed) calculates the clutter Doppler spectrum shape, P, due to intrinsic clutter motion (ICM) at Doppler frequencies specified in fd. ICM arises when wind blows on vegetation or other clutter sources. This function uses Billingsley’s model in the calculation. fc is the operating frequency of the system. wspeed is the wind speed.

example

P = billingsleyicm(fd,fc,wspeed,c) specifies the propagation speed c in meters per second.

Examples

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Compute Billingsley Doppler Spectrum

Open Live Script

Calculate and plot the Doppler spectrum shape predicted by the Billingsley ICM model. Assume the PRF is 2 kHz, the operating frequency is 1 GHz, and the wind speed is 5 m/s.

v = -3:0.1:3;
fc = 1e9;
wspeed = 5;
c = physconst('LightSpeed');
fd = 2*v/(c/fc);
p = billingsleyicm(fd,fc,wspeed);
plot(fd,pow2db(p))
xlabel('Doppler frequency (Hz)')
ylabel('P (dB)')

Figure contains an axes object. The axes object with xlabel Doppler frequency (Hz), ylabel P (dB) contains an object of type line.

Input Arguments

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`fd` — Doppler frequencies
scalar | vector

Doppler frequencies in hertz, specified as a scalar or a vector.

Data Types: double

`fc` — Operating frequency of the system
scalar

Operating frequency of the system in hertz, specified as a scalar.

Data Types: double

`wspeed` — Wind speed
scalar

Wind speed in meters per second, specified as a scalar.

Data Types: double

`c` — Propagation speed
`physconst("LightSpeed")` (default) | positive scalar

Propagation speed in meters per second, specified as a positive scalar.

Example: 343 meters per second approximates the speed of sound at sea level and at a temperature of 20 °C under normal atmospheric conditions.

Data Types: double

Output Arguments

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`P` — Shape of the clutter Doppler spectrum
scalar | vector

Shape of the clutter Doppler spectrum due to intrinsic clutter motion, returned as a scalar or vector. P is the same size as fd.

References

[1] Billingsley, J. Low Angle Radar Clutter. Norwich, NY: William Andrew Publishing, 2002.

[2] Long, Maurice W. Radar Reflectivity of Land and Sea, 3rd Ed. Boston: Artech House, 2001.

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.

Usage notes and limitations:

Does not support variable-size inputs.

Version History

Introduced in R2021a

billingsleyicm

Syntax

Description

Examples

Compute Billingsley Doppler Spectrum

Input Arguments

fd — Doppler frequencies scalar | vector

fc — Operating frequency of the system scalar

wspeed — Wind speed scalar

c — Propagation speed physconst("LightSpeed") (default) | positive scalar

Output Arguments

P — Shape of the clutter Doppler spectrum scalar | vector

References

Extended Capabilities

C/C++ Code Generation Generate C and C++ code using MATLAB® Coder™.

Version History

See Also

`fd` — Doppler frequencies
scalar | vector

`fc` — Operating frequency of the system
scalar

`wspeed` — Wind speed
scalar

`c` — Propagation speed
`physconst("LightSpeed")` (default) | positive scalar

`P` — Shape of the clutter Doppler spectrum
scalar | vector

C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.