Add to ORKGThe recent wide availability of smartphone devices may allow for approaches to indoor localization that rely on the phone inertial sensors (inertial localization) to be used in the development of mobile apps intended to improve disabled people’s mobility. However, the most critical issue when using inertial sensors (accelerometers, gyroscopes) is the poor localization accuracy, due to the well-known drift error in the position estimation. We developed a method to quantify the offset of triaxial accelerometers included in smartphones, which represents one of the main sources of drift error in inertial localization systems
Augmented Reality (AR) aims to enhance a person’s vision of the real world with useful information ...
Commonly used Global Navigation Satellite Systems (GNSS) are inappropriate as Location Based Service...
Sensors of various types are built into the majority of current smartphones each with a distinct fun...
The recent wide availability of smartphone devices may allow for approaches to indoor localization t...
Wireless indoor positioning has been extensively studied for the past 2 decades and continuously att...
[[abstract]]Many people get lost easily in public places if they are not familiar with the environme...
In indoor/outdoor environments, special cares need to be given to locate smartphones which are used ...
Pedestrians have a variety of tools that can assist them in travelling, including maps, kiosks, and ...
Nowadays, a huge amount of mobile devices are equipped with a number of inertial sensors such as ma...
The World Health Organization assesses the number of visually impaired people to be nearly 285 milli...
[[abstract]]In the cloud age, it is quite easy to collect sensory data from smartphones. With these ...
GPS becomes a common technology for tracking the position of outdoor users. It uses radio waves from...
This project is concerned with obtaining accurate position using inertia sensors such as acceleromet...
Position-estimation systems for indoor localization play an important role in everyday life. The glo...
This thesis presents a novel approach towards high accuracy indoor localization with smartphones. Be...
Augmented Reality (AR) aims to enhance a person’s vision of the real world with useful information ...
Commonly used Global Navigation Satellite Systems (GNSS) are inappropriate as Location Based Service...
Sensors of various types are built into the majority of current smartphones each with a distinct fun...
The recent wide availability of smartphone devices may allow for approaches to indoor localization t...
Wireless indoor positioning has been extensively studied for the past 2 decades and continuously att...
[[abstract]]Many people get lost easily in public places if they are not familiar with the environme...
In indoor/outdoor environments, special cares need to be given to locate smartphones which are used ...
Pedestrians have a variety of tools that can assist them in travelling, including maps, kiosks, and ...
Nowadays, a huge amount of mobile devices are equipped with a number of inertial sensors such as ma...
The World Health Organization assesses the number of visually impaired people to be nearly 285 milli...
[[abstract]]In the cloud age, it is quite easy to collect sensory data from smartphones. With these ...
GPS becomes a common technology for tracking the position of outdoor users. It uses radio waves from...
This project is concerned with obtaining accurate position using inertia sensors such as acceleromet...
Position-estimation systems for indoor localization play an important role in everyday life. The glo...
This thesis presents a novel approach towards high accuracy indoor localization with smartphones. Be...
Augmented Reality (AR) aims to enhance a person’s vision of the real world with useful information ...
Commonly used Global Navigation Satellite Systems (GNSS) are inappropriate as Location Based Service...
Sensors of various types are built into the majority of current smartphones each with a distinct fun...