simulating radar targets vibrating at a low frequency

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darkhorse
darkhorse on 23 Feb 2016
Commented: anindya on 6 Mar 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 on 22 Mar 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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Answers (2)

Honglei Chen
Honglei Chen on 25 Feb 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 on 26 Feb 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 on 13 Mar 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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