2013 International Conference on Indoor Positioning and Indoor Navigation - IPIN, BELFORT, FRANCE, 28-/10/2013 - 31/10/2013Pedestrian dead reckoning is one of the most promising processing strategies of inertial signals collected with a smartphone for autonomous indoor personal navigation. When the sensors are held in hand, step length models are usually used to estimate the walking distance. They combine stride frequency with a finite number of physiological and descriptive parameters that are calibrated with training data for each person. But even under steady conditions, several physiological conditions are impacting the walking gait and consequently these parameters. Frequent calibration is needed to tune these models prior to relying o...
Smartphones have become a part of everyday modern life. Their presence and capabilities have changed...
Smartphone navigation using the low-cost embedded sensors in off the shelf smartphones can provide a...
32nd International Technical Meeting of the Satellite Division of The Institute of Navigation (ION G...
IPIN 2016, International conference on Indoor Positioning and Indoor Navigation, MADRID, ESPAGNE, 04...
Nowadays, personal positioning systems are more necessary to build many location-based services. Pe...
The primary source for pedestrian navigation is the well known Global Positioning System. However, f...
We consider personal navigation systems in devices equipped with inertial sensors and GPS, where we ...
Pedestrian dead reckoning (PDR) using inertial sensors has paved the way for developing several appr...
Commonly used Global Navigation Satellite Systems (GNSS) are inappropriate as Location Based Service...
Pedestrian dead reckoning (PDR), used in state-of-the-art smartphones, calculates pedestrian positio...
The embedded inertial sensors in today's Smart phones have added the facility to use them for locali...
Stride length and walking distance estimation are becoming a key aspect of many applications. One of...
Pedestrian dead reckoning is a common technique applied in indoor inertial navigation systems that i...
This paper is devoted to construction of reference walking trajectories for developing pedestrian na...
We introduce a novel method for indoor localization with the user’s own smartphone by learning...
Smartphones have become a part of everyday modern life. Their presence and capabilities have changed...
Smartphone navigation using the low-cost embedded sensors in off the shelf smartphones can provide a...
32nd International Technical Meeting of the Satellite Division of The Institute of Navigation (ION G...
IPIN 2016, International conference on Indoor Positioning and Indoor Navigation, MADRID, ESPAGNE, 04...
Nowadays, personal positioning systems are more necessary to build many location-based services. Pe...
The primary source for pedestrian navigation is the well known Global Positioning System. However, f...
We consider personal navigation systems in devices equipped with inertial sensors and GPS, where we ...
Pedestrian dead reckoning (PDR) using inertial sensors has paved the way for developing several appr...
Commonly used Global Navigation Satellite Systems (GNSS) are inappropriate as Location Based Service...
Pedestrian dead reckoning (PDR), used in state-of-the-art smartphones, calculates pedestrian positio...
The embedded inertial sensors in today's Smart phones have added the facility to use them for locali...
Stride length and walking distance estimation are becoming a key aspect of many applications. One of...
Pedestrian dead reckoning is a common technique applied in indoor inertial navigation systems that i...
This paper is devoted to construction of reference walking trajectories for developing pedestrian na...
We introduce a novel method for indoor localization with the user’s own smartphone by learning...
Smartphones have become a part of everyday modern life. Their presence and capabilities have changed...
Smartphone navigation using the low-cost embedded sensors in off the shelf smartphones can provide a...
32nd International Technical Meeting of the Satellite Division of The Institute of Navigation (ION G...