The rapid development of smartphone sensors has provided rich indoor pedestrian trajectory data for indoor location-based applications. To improve the quality of these collected trajectory data, map matching methods are widely used to correct trajectories. However, these existing matching methods usually cannot achieve satisfactory accuracy and efficiency and have difficulty in exploiting the rich information contained in the obtained trajectory data. In this study, we proposed a novel semantic matching method for indoor pedestrian trajectory tracking. Similar to our previous work, pedestrian dead reckoning (PDR) and human activity recognition (HAR) are used to obtain the raw user trajectory data and the corresponding semantic information i...
The decreasing of accumulative error is a key issue for various multi-sensor fusion-based indoor loc...
This paper presents a system based on pedestrian dead reckoning (PDR) for localization of networked ...
Passive indoor positioning systems (PIPS) enable non-invasive tracking of mobile users using enterpr...
In recent years, using smartphones to determine pedestrian locations in indoor environments is an ex...
As a result of the rapid development of smartphone-based indoor localization technology, location-ba...
Abstract — We consider the problem of indoor human tra-jectory identification using odometry data fr...
Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applie...
Indoor positioning data reflects human mobility in indoor spaces. Revealing patterns of indoor traje...
Copyright © 2013 Mohamed Attia et al. This is an open access article distributed under the Creative ...
Inertial tracking and navigation systems have been playing an increasingly important role in indoor ...
Indoor positioning has recently become an important field of interest because global navigation sate...
© 2018 Dr Fuqiang GuIndoor localization is important for a variety of applications such as location-...
The evolution of smartphones and their embedded sensors motivates research toward the development of...
The indoor navigation within public environments and location-based service development are very int...
Accurately determining pedestrian location in indoor environments using consumer smartphones is a si...
The decreasing of accumulative error is a key issue for various multi-sensor fusion-based indoor loc...
This paper presents a system based on pedestrian dead reckoning (PDR) for localization of networked ...
Passive indoor positioning systems (PIPS) enable non-invasive tracking of mobile users using enterpr...
In recent years, using smartphones to determine pedestrian locations in indoor environments is an ex...
As a result of the rapid development of smartphone-based indoor localization technology, location-ba...
Abstract — We consider the problem of indoor human tra-jectory identification using odometry data fr...
Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applie...
Indoor positioning data reflects human mobility in indoor spaces. Revealing patterns of indoor traje...
Copyright © 2013 Mohamed Attia et al. This is an open access article distributed under the Creative ...
Inertial tracking and navigation systems have been playing an increasingly important role in indoor ...
Indoor positioning has recently become an important field of interest because global navigation sate...
© 2018 Dr Fuqiang GuIndoor localization is important for a variety of applications such as location-...
The evolution of smartphones and their embedded sensors motivates research toward the development of...
The indoor navigation within public environments and location-based service development are very int...
Accurately determining pedestrian location in indoor environments using consumer smartphones is a si...
The decreasing of accumulative error is a key issue for various multi-sensor fusion-based indoor loc...
This paper presents a system based on pedestrian dead reckoning (PDR) for localization of networked ...
Passive indoor positioning systems (PIPS) enable non-invasive tracking of mobile users using enterpr...