Research on performance enhancement scheme of optical camera communication based on adaptive exponential weighted moving average algorithm

When the COMS camera of optical camera communication (OCC) system acquired the information image, the grayscale value of pixels fluctuated due to the influence of blooming effect and light noise, so that the data logic could not be correctly judged by the decision threshold, which affected the bit error rate (BER) performance transmission distance and data rate, and degraded the system performance. In this paper, the adaptive exponential weighted moving average algorithm is proposed, and the optimal grayscale value matrix of signal demodulation is verified by experiment, so as to reduce the fluctuation of grayscale value and improve the performance of OCC system. The experimental results show that for data processing and analysis based on ZYNQ7020 experimental platform, a 7% forward error correction(BER = 3.8 x 10(-3))requirements can be satisfied at 150 cm when the data rate is 3 Kbps, and a 7% forward error correction(BER = 3.8 x 10(-3))requirements can be satisfied at 100 cm when the data rate is 5 Kbps.