An Optimization Method Combining RSSI and PDR Data to Estimate Distance between Smart Devices for COVID‐19 Contact Tracing

Abstract

Distance estimation methods arise in many applications, such as indoor positioning and COVID‐19 contact tracing. The received signal strength indicator (RSSI) is favored in distance estimation. However, the accuracy is not satisfactory due to the signal fluctuation. Besides, the RSSI‐only method has a large‐ranging error because it uses fixed parameters of the path loss model. Here, we propose an optimization method combining RSSI and pedestrian dead reckoning (PDR) data to estimate the distance between smart devices. The PDR may provide high accuracy of walking distance and direction. Moreover, the parameters of the path loss model are optimized to dynamically fit the complex electromagnetic environment. The proposed method is evaluated in outdoor and indoor environments and compared with the RSSI‐only method. The results show that the mean absolute error is reduced up to 0.51 m and 1.02 m, with an improvement of 10.60% and 64.55% for outdoor and indoor environments, respectively, compared with the RSSI‐only method. Consequently, the proposed optimization method has better accuracy of distance estimation than the RSSI‐only method, and its feasibility is demonstrated through real‐world evaluations.