Vision-aided inertial navigation is a navigation method which combines inertial navigation with computer vision techniques. It can provide a six degrees of freedom navigation solution from passive measurements without external referencing (e.g. GPS). Thus, it can operate in unknown environments without any prior knowledge. Such a system, called IPS (Integrated Positioning System) is developed by the German Aerospace Center (DLR). For optical navigation applications, a reliable and efficient feature detector is a crucial component. With the publication of AGAST, a new feature detector has been presented, which is faster than other feature detectors. To apply AGAST to optical navigation applications, we propose several methods to improve i...
In recent years, unmanned autonomous vehicles have been used in diverse applications because of thei...
involved in navigation-related research for over 15 years. Aircraft navigation information (position...
This paper presents a critique on previous work in the field of vision aided navigation, particularl...
Vision-aided inertial navigation is a navigation method which combines inertial navigation with comp...
The main objective of this paper is to discuss a platform which can provide accurate information to ...
The motivation of this research is to address the benefits of tightly integrating optical and inerti...
The motivation of this research is to address the limitations of satellite-based navigation by fusin...
Stereo vision aided inertial navigation enables accurate self-localization and navigation in unknown...
Navigation is a technique for the determination of position and attitude of a moving platform with r...
AFIT/GE/ENG/08-09 Recently, many scientists clearly proved on their work that aircraft navigation in...
In order to improve the performance of an inertial navigation system, many aiding sensors can be use...
Accurate knowledge of position and orientation is a prerequisite for many applications regarding unm...
Importance of an alternative sensor system to an inertial measurement unit (IMU) is essential for in...
There exists a significant need for automatic obstacle detec-tion systems onboard rotorcraft due to ...
A high-precision image-aided inertial navigation system (INS) is proposed as an alternative to the c...
In recent years, unmanned autonomous vehicles have been used in diverse applications because of thei...
involved in navigation-related research for over 15 years. Aircraft navigation information (position...
This paper presents a critique on previous work in the field of vision aided navigation, particularl...
Vision-aided inertial navigation is a navigation method which combines inertial navigation with comp...
The main objective of this paper is to discuss a platform which can provide accurate information to ...
The motivation of this research is to address the benefits of tightly integrating optical and inerti...
The motivation of this research is to address the limitations of satellite-based navigation by fusin...
Stereo vision aided inertial navigation enables accurate self-localization and navigation in unknown...
Navigation is a technique for the determination of position and attitude of a moving platform with r...
AFIT/GE/ENG/08-09 Recently, many scientists clearly proved on their work that aircraft navigation in...
In order to improve the performance of an inertial navigation system, many aiding sensors can be use...
Accurate knowledge of position and orientation is a prerequisite for many applications regarding unm...
Importance of an alternative sensor system to an inertial measurement unit (IMU) is essential for in...
There exists a significant need for automatic obstacle detec-tion systems onboard rotorcraft due to ...
A high-precision image-aided inertial navigation system (INS) is proposed as an alternative to the c...
In recent years, unmanned autonomous vehicles have been used in diverse applications because of thei...
involved in navigation-related research for over 15 years. Aircraft navigation information (position...
This paper presents a critique on previous work in the field of vision aided navigation, particularl...