Add to ORKGThis work focuses on the development of a position tracking algorithm for pedestrians using, simultaneously, two inertial sensors. Our goal is to extend, from 2D to 3D, a loosely-coupled system that combines a foot-mounted inertial navigation system (INS) and a pocket-mounted INS. In order to estimate the vertical displacement of the pedestrian's walked trajectory, we use the pocket INS to detected when the user is walking the stairs. Upon stairs detection, the vertical displacement is estimated through the position estimated by the foot INS. The vertical displacement is then integrated in the filter of the loosely coupled system. The results show an improvement of 48% regarding the average height error of the foot INS. In fact, the estimat...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...
Inertial navigation systems use dead-reckoning to estimate the pedestrian’s position. There are two ...
In pedestrian localization, fusion techniques have been exploited to address the weaknesses of diffe...
Inertial navigation systems use dead-reckoning to estimate the pedestrian's position. There are two ...
In this article, we present a novel tight coupling inertial localization system which simultaneously...
In this article, we present a novel tight coupling inertial localization system which simultaneously...
Nowadays there is an increase of location-aware mobile applications. However, these applications onl...
The aim of this paper is to compare two inertial navigation systems in order to identify their stren...
In this paper, an algorithm to estimate the position of a pedestrian in a 3-dimensional space is int...
In this paper, an algorithm to estimate the position of a pedestrian in a 3-dimensional space is int...
Position tracking of pedestrians by means of inertial sensors is a highly explored field of research...
Position tracking of pedestrians by means of inertial sensors is a highly explored field of research...
This paper introduces a method to track the spatial location and movement of a human using wearable ...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...
Inertial navigation systems use dead-reckoning to estimate the pedestrian’s position. There are two ...
In pedestrian localization, fusion techniques have been exploited to address the weaknesses of diffe...
Inertial navigation systems use dead-reckoning to estimate the pedestrian's position. There are two ...
In this article, we present a novel tight coupling inertial localization system which simultaneously...
In this article, we present a novel tight coupling inertial localization system which simultaneously...
Nowadays there is an increase of location-aware mobile applications. However, these applications onl...
The aim of this paper is to compare two inertial navigation systems in order to identify their stren...
In this paper, an algorithm to estimate the position of a pedestrian in a 3-dimensional space is int...
In this paper, an algorithm to estimate the position of a pedestrian in a 3-dimensional space is int...
Position tracking of pedestrians by means of inertial sensors is a highly explored field of research...
Position tracking of pedestrians by means of inertial sensors is a highly explored field of research...
This paper introduces a method to track the spatial location and movement of a human using wearable ...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
International audienceThis paper proposes a foot-mounted Zero Velocity Update (ZVU) aided Inertial M...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...