Abstract:
High-precision indoor positioning problems have attracted considerable attention recently. The indoor ranging and positioning method based on wireless fidelity (WIFI) rou...Show MoreMetadata
Abstract:
High-precision indoor positioning problems have attracted considerable attention recently. The indoor ranging and positioning method based on wireless fidelity (WIFI) round-trip-time has become popular. However, resulting from clock drift (CD), there are two problems that are still not completely resolved and need to be addressed. The first problem is ranging error drift, namely the reset of phase distortion errors (PDEs), while the second problem is the communication state change, namely ranging information loss and restoration. To solve these two problems, this study noticed that the reset of PDEs will only change along with the changes in communication states. Thus, a monitoring-based positioning system (MPS) framework is presented based on the theoretical model of CD as a method to account for ranging error drift and communication state change when estimating position with the IEEE 802.11mc protocol. Then, a state monitoring algorithm (SMA) suitable for the MPS framework is proposed to accurately capture the moment of communication state change. Further, a PDE constraint (PDEC) model is proposed based on the SMA to estimate PDEs in different communication states to reduce the impact of CD on positioning results. The experimental results finally show that considerable improvement in positioning accuracy can be obtained using the SMA and PDEC model compared with that obtained using the semiparametric solution algorithm.
Published in: IEEE Transactions on Aerospace and Electronic Systems ( Volume: 60, Issue: 1, February 2024)