Add to ORKGAn algorithm for indoor localization of pedestrians using an improved Inertial Navigation system is presented for smartphone based applications. When using standard inertial navigation algorithm, errors in sensors due to random noise and bias result in a large drift from the actual location with time. Novel corrections are introduced for the basic system to increase the accuracy by counteracting the accumulation of this drift error, which are applied using a Kalman filter framework. A generalized velocity model was applied to correct the walking velocity and the accuracy of the algorithm was investigated with three different velocity models which were derived from the actual velocity measured at the hip of walking person. Spatial constraint...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...
Position-estimation systems for indoor localization play an important role in everyday life. The glo...
The paper deals with indoor navigation using inertial sensors (accelerometers, gyroscopes, etc.) bui...
This thesis presents a novel approach towards high accuracy indoor localization with smartphones. Be...
This paper presents a method for an indoor pedestrian localization, based on the data ...
AbstractThis paper presents an ankle mounted Inertial Navigation System (INS) used to estimate the d...
Currently many GPS (Global Positioning System) satellites orbit the Earth providing users with infor...
In this paper, we devise a framework to infer a smartphone user's location and walking routes in an ...
Determining moving direction with smartphone\u27s inertial sensors is a well known problem in the fi...
Geographical and Fingerprinting Data for Positioning and Navigation Systems: Challenges, Experiences...
We consider the human localization problem using body-worn inertial/magnetic sensor units. Inertial ...
Indoor localization based on inertial sensors such as accelerometer, gyroscope and magnetometer, has...
Currently, Pedestrian Dead Reckoning (PDR) systems are becoming more attractive in market of indoor ...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
Copyright © 2013 Mohamed Attia et al. This is an open access article distributed under the Creative ...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...
Position-estimation systems for indoor localization play an important role in everyday life. The glo...
The paper deals with indoor navigation using inertial sensors (accelerometers, gyroscopes, etc.) bui...
This thesis presents a novel approach towards high accuracy indoor localization with smartphones. Be...
This paper presents a method for an indoor pedestrian localization, based on the data ...
AbstractThis paper presents an ankle mounted Inertial Navigation System (INS) used to estimate the d...
Currently many GPS (Global Positioning System) satellites orbit the Earth providing users with infor...
In this paper, we devise a framework to infer a smartphone user's location and walking routes in an ...
Determining moving direction with smartphone\u27s inertial sensors is a well known problem in the fi...
Geographical and Fingerprinting Data for Positioning and Navigation Systems: Challenges, Experiences...
We consider the human localization problem using body-worn inertial/magnetic sensor units. Inertial ...
Indoor localization based on inertial sensors such as accelerometer, gyroscope and magnetometer, has...
Currently, Pedestrian Dead Reckoning (PDR) systems are becoming more attractive in market of indoor ...
Ubiquitous computing systems aim to assist us as we go about our daily lives, whilst at the same tim...
Copyright © 2013 Mohamed Attia et al. This is an open access article distributed under the Creative ...
A pedestrian inertial navigation system is typically used to suppress the Global Navigation Satellit...
Position-estimation systems for indoor localization play an important role in everyday life. The glo...
The paper deals with indoor navigation using inertial sensors (accelerometers, gyroscopes, etc.) bui...