simulating radar targets vibrating at a low frequency

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darkhorse
darkhorse el 23 de Feb. de 2016
Comentada: anindya el 6 de Mzo. de 2019
Is it possible to simulate mechanically vibrating targets in order to perform micro-doppler signature processing? doesn't have to be complex motion (like jet engine blades) but something like a spherical target that periodically expands and contracts, say about 1% its mean volume?
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miltan mishra
miltan mishra el 22 de Mzo. de 2017
me to having similar problem but in my case the rcs is not fluctating instead target is placed on a vibrating platform .how to define the position and veklocity of such platform

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Respuestas (2)

Honglei Chen
Honglei Chen el 25 de Feb. de 2016
There is no existing solution for this in Phased Array System Toolbox, but if the purpose is to model a sphere, it can be done manually since the RCS of a sphere is simply given by pi*r^2 where r is the radius.
So in your code, you can consider a mean value of r and then define a period of the expansion/contraction. Then at each simulation step, you can compute the r based on the period and then use the resulting r to compute the RCS, which can be in turn used to compute the reflected signal.
Hope this helps
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darkhorse
darkhorse el 26 de Feb. de 2016
that sounds promising. I am new to phased array toolbox. Can you give me a code example of how I can modify RCS from one step to another?
I am assuming that I will have to create a radar target object like this:
htgt = phased.RadarTarget('Model','Nonfluctuating',... 'MeanRCS',0.5,'PropagationSpeed',physconst('LightSpeed'),... 'OperatingFrequency',4e9) and then I call step() funtion on htgt. How can I plug in a different RCS before calling step()?

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pradeep sah
pradeep sah el 13 de Mzo. de 2017
i tried same considering a sinusoidally oscillating target whose velocity is as t=0:0.01:0.1; x=2*sin(10*t); splat = phased.Platform([0; 0; 0],[x; 0; 0]);

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