Application of Wireless Network Data Collection Based on Optical Topology Sensors in Sports Technology Evaluation

Abstract

With the rapid development of the Internet of Things technology, wireless network and mobile network are increasingly widely used in various fields, especially in the evaluation of motion technology, through the real-time acquisition of sensor data, accurate monitoring of motion status can be achieved. However, there are still challenges in the transmission stability and data acquisition accuracy of traditional sensors. The aim of this study is to develop a wireless network data acquisition system based on optical topology sensor to improve the accuracy and real-time performance of motion technology evaluation. Through this system, we hope to achieve efficient monitoring of sports conditions and provide data support for athletes' training and rehabilitation. The research adopts optical topology sensor technology to achieve accurate acquisition of motion data. The sensor transmits data through wireless network and adopts advanced mobile network protocol to ensure the integrity and real-time information in the process of data acquisition. The performance differences between the new system and the traditional sensor in data transmission speed, accuracy and delay are compared and analyzed. The experimental results show that the wireless data acquisition system based on optical topology sensor can improve the data transmission speed significantly, and the system can still work stably in the signal interference environment, which proves its reliability in practical application.