OK, I let the directivity call for the Thinned Array run overnight. It took 31,210 seconds to complete. And as expected, the result showed slightly less directivity than the Unthinned Array so I think the calculation was correct; it's also consistent with my hand calculations. The directivity calls for each array were made for a single azimuth/elevation (zero degrees for each), but it looks like the calculations for the Thinned Array were made across the entire field of view.
Excessive processing time with Phase Array/Radar toolboxes: bug or 'feature'
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Created a phased array aperture using 576 replicated subarrays, with a total of 36,862 radiating elements. Created a thinned version of the full aperture by setting 124 subarray positions to '[ ]'; this leaves 452 subarrays and 28,928 radiating elements.Both arrays are listed by Matlab as '1x1 ReplicatedSubarrays'. A call to 'beamwidth' for the subarray returns in about 0.2 seconds; the unthinned array averages 2.3 seconds to complete. A call to beamwidth for the thinned array averages 463 seconds. Calls to 'directivity' take 3.4 seconds for the subarray and 180 seconds for the unthinned array. I'm still waiting (>1 hour) for the directivity call for the thinned array to finish.
Anybody have any idea why calculations for the thinned array are taking so much longer?
Answers (1)
Arka
on 26 Dec 2023
I understand the call to "beamwidth" is taking considerably longer in the case of a thinned array as compared to an unthinned array.
It might be difficult to pinpoint the exact cause of this without taking a closer look at the arrays, but in general, there might be a few factors that could be causing this phenomenon, some of which are:
1. Irregularities in the Array: Thinning an array leads to irregularities in the element spacing. This can lead to a more complex radiation pattern, thus leading to more compute-intensive processes.
2. Increased Side Lobes and Grating Lobes: A thinned array often has increased side lobes and grating lobes compared to a fully populated array.The algorithms have to evaluate a larger number of lobes and nulls in the radiation pattern, thus making it more computationally-intensive.
Hope this helps!
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