This paper analyzes the typical DVS circuit and finds that there exists a discontinuity in the event triggering time, which is one of the main factors contributing to the unsatisfactory behavior of DVS under dim light conditions.
The analysis shows that the discontinuity is caused by the charge and discharge of the parasitic capacitor of the photodiode in the DVS circuit. This time delay between consecutive triggering events follows a non-first-order system behavior, unlike the usual first-order response of DVS.
The time delay is inversely proportional to the changing speed of light intensity. In dim light conditions, the difference in light intensity is generally small, leading to a slow changing speed and thus a more prominent discontinuity in the event triggering time distribution.
Experimental results on real DVS data validate the analysis and the existence of the discontinuity, which reveals the non-first-order behaviors of DVS under dim light conditions. This understanding can help improve the design of DVS and event simulators.
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by Xiao Jiang,F... klokken arxiv.org 04-30-2024
https://arxiv.org/pdf/2404.17771.pdfDypere Spørsmål