Video Stream Forwarding Algorithm Based on Multi-channel Ring Buffer Technology

Abstract

AbstractWith the development of the country and the progress of the society, people's daily life is more and more inseparable from electricity. With the rapid development of the speed and scale of my country's power grid construction, the scale of the power grid has jumped to the first place in the world. Guaranteeing the stability, continuity and quality of power supply has become an important task of the State Grid Corporation, which requires daily power inspections. However, at present, most of my country's electric power inspections rely on manual labor. On the one hand, due to the influence of geographical space, complex terrain, and changing weather, manual inspections have many limitations and dangers. On the other hand, due to the rising labor cost, the cost of power inspection is becoming more and more heavy. If power companies want to improve the efficiency and accuracy of inspections, they must use emerging technology push streaming live platforms to help inspectors in their daily inspections. In order to improve the inspection stability and inspection efficiency, this paper proposes and implements a multi-channel ring buffer video stream forwarding algorithm. This algorithm solves the problem of long delay in video stream forwarding on traditional inspection live broadcast platforms, so that inspectors can receive video streams in a timely and stable manner and play them smoothly. Based on the video fluency experiment in the production environment, the effectiveness of this algorithm is verified.KeywordsGrid stabilityInspection video streamMulti-channelRing bufferHigh performance