Abstract
The paper presents a hybrid indoor positioning solution based on a pedestrian dead reckoning (PDR) approach using built-in sensors on a smartphone. To address the challenges of flexible and complex contexts of carrying a phone while walking, a robust step detection algorithm based on motion-awareness has been proposed. Given the fact that step length is influenced by different motion states, an adaptive step length estimation algorithm based on motion recognition is developed. Heading estimation is carried out by an attitude acquisition algorithm, which contains a two-phase filter to mitigate the distortion of magnetic anomalies. In order to estimate the heading for an unconstrained smartphone, principal component analysis (PCA) of acceleration is applied to determine the offset between the orientation of smartphone and the actual heading of a pedestrian. Moreover, a particle filter with vector graph assisted particle weighting is introduced to correct the deviation in step length and heading estimation. Extensive field tests, including four contexts of carrying a phone, have been conducted in an office building to verify the performance of the proposed algorithm. Test results show that the proposed algorithm can achieve sub-meter mean error in all contexts.
Highlights
As one of the most challenging technologies in location-based services (LBS), indoor localization has generated great concern over the last decade
Compared to outdoors where global navigation satellite systems (GNSS) are essential and even dominating technologies, indoor localization encounters a series of challenges due to complex indoor environments, e.g., severe multipath effect, Non-Line-of-Sight (NLOS) conditions, high signal attenuations, and noise interferences
We present a reliable path-independent and real-time indoor localization method that relies on smartphone sensors and indoor vector graph
Summary
As one of the most challenging technologies in location-based services (LBS), indoor localization has generated great concern over the last decade. According to various basic measuring principles, localization method can be divided into four main categories: triangulation, direct sensing, pattern recognition, and dead reckoning [2] Among these methods, triangulation-based and direct-sensing-based localization approaches need infrastructure assistance and depend on the deployment of beacons at known positions, e.g., Wi-Fi [3,4,5] and RFID [6,7]. Pedestrian dead reckoning (PDR) localization technique [15,16,17], which utilizes the inertial sensors to estimate a pedestrian’s location with lower deployment cost and computation over other localization methods. Except GNSS, existing infrastructures, such as WLAN, ZigBee, RFID, camera and ultrasound, are utilized to provide indoor calibrations of PDR systems [26,27,28,29,30]. Without the requirement of infrastructures, the indoor maps make self-contained navigation on a smartphone become feasible
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