Add to ORKGThe work proposes a navigation system for pedestrian indoor localization. The system employs a cascaded architecture, where the information from the foot-mounted inertial unit is combined with the map-induced motion constraints. As the first stage, an Extended Kalman filter with a zerovelocity update (ZUPT) is used to get incremental heading and position information from the inertial sensor measurements. This is followed by motion filtering based on map constraints implemented in a form of SIR particle filter. Compared to a pure inertial approach without the map filtering, the proposed method shows a significant performance improvement for typical indoor scenarios and is shown to be superior to a non-gyroscopic pedometer approach with map ...
Shoe-mounted inertial sensors offer a convenient way to track pedestrians in situations where other ...
Numerous solutions/methods to solve the existing problems of pedestrian navigation/localization have...
In this paper, we present a method for device localization based on the fusion of location data from...
This paper proposes a novel zero velocity update (ZUPT) method for a foot-mounted pedestrian navigat...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
In this paper we describe a new Bayesian estimation approach for simultaneous mapping and localizat...
The foot-mounted inertial navigation system is an important method of pedestrian navigation as it, i...
Aimed at overcoming the problems of cumulative errors and low positioning accuracy in single Inertia...
In this research, a non-infrastructure-based and low-cost indoor navigation method is proposed throu...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
By incorporating known floor-plans in sequential Bayesian positioning estimators such as Particle Fi...
AbstractIn outdoor environments, GPS is often used for pedestrian navigation by utilizing its signal...
In this paper, a simultaneous localization and mapping algorithm for tracking the motion of a pedest...
Shoe-mounted inertial sensors offer a convenient way to track pedestrians in situations where other ...
Numerous solutions/methods to solve the existing problems of pedestrian navigation/localization have...
In this paper, we present a method for device localization based on the fusion of location data from...
This paper proposes a novel zero velocity update (ZUPT) method for a foot-mounted pedestrian navigat...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
In this paper we describe a new Bayesian estimation approach for simultaneous mapping and localizat...
The foot-mounted inertial navigation system is an important method of pedestrian navigation as it, i...
Aimed at overcoming the problems of cumulative errors and low positioning accuracy in single Inertia...
In this research, a non-infrastructure-based and low-cost indoor navigation method is proposed throu...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
By incorporating known floor-plans in sequential Bayesian positioning estimators such as Particle Fi...
AbstractIn outdoor environments, GPS is often used for pedestrian navigation by utilizing its signal...
In this paper, a simultaneous localization and mapping algorithm for tracking the motion of a pedest...
Shoe-mounted inertial sensors offer a convenient way to track pedestrians in situations where other ...
Numerous solutions/methods to solve the existing problems of pedestrian navigation/localization have...
In this paper, we present a method for device localization based on the fusion of location data from...