An accurate motion model and reliable measurements are required for autonomous underwater vehicle localization and navigation in underwater environments. However, without a propeller, underwater gliders have limited maneuverability and carrying capacity, which brings difficulties for modeling and measuring. In this paper, an extended Kalman filter (EKF)-based method, combining a modified kinematic model of underwater gliders with the travel-time differences between signals received from a single beacon, is proposed for estimating the glider positions in a predict-update cycle. First, to accurately establish a motion model for underwater gliders moving in the ocean, we introduce two modification parameters, the attack and drift angles, into ...
This paper describes the development and experimental results of navigation algorithms for an autono...
High accuracy attitude and position determination is very important for underwater gliders. The cros...
Abstract — The Slocum Electric Glider is a buoyancy driven Autonomous Underwater Vehicle (AUV) capab...
An accurate motion model and reliable measurements are required for autonomous underwater vehicle lo...
An accurate motion model and reliable measurements are required for autonomous underwater vehicle lo...
This paper studies the simultaneous localization and mapping (SLAM) algorithm based on the extended ...
This paper presents a method to localize underwater gliders in observation networks, and this method...
Underwater gliders are often used to perform in-situ measurements of oceanographic systems. In parti...
In this paper, we examine the use of a Kalman filter to aid in the mission planning process for auto...
Autonomous underwater gliders are robust and widely-used ocean sampling platforms that are character...
This paper describes an application of extended Kalman filter(EKF) for localization of an underwater...
Underwater gliders allow efficient monitoring in oceanography. In contrast to buoys, which log ocean...
In range-based underwater tracking, the accuracy of the calculated slant range depends largely on th...
A heading angle control method is proposed for controlling underwater gliders to follow a straight l...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
This paper describes the development and experimental results of navigation algorithms for an autono...
High accuracy attitude and position determination is very important for underwater gliders. The cros...
Abstract — The Slocum Electric Glider is a buoyancy driven Autonomous Underwater Vehicle (AUV) capab...
An accurate motion model and reliable measurements are required for autonomous underwater vehicle lo...
An accurate motion model and reliable measurements are required for autonomous underwater vehicle lo...
This paper studies the simultaneous localization and mapping (SLAM) algorithm based on the extended ...
This paper presents a method to localize underwater gliders in observation networks, and this method...
Underwater gliders are often used to perform in-situ measurements of oceanographic systems. In parti...
In this paper, we examine the use of a Kalman filter to aid in the mission planning process for auto...
Autonomous underwater gliders are robust and widely-used ocean sampling platforms that are character...
This paper describes an application of extended Kalman filter(EKF) for localization of an underwater...
Underwater gliders allow efficient monitoring in oceanography. In contrast to buoys, which log ocean...
In range-based underwater tracking, the accuracy of the calculated slant range depends largely on th...
A heading angle control method is proposed for controlling underwater gliders to follow a straight l...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
This paper describes the development and experimental results of navigation algorithms for an autono...
High accuracy attitude and position determination is very important for underwater gliders. The cros...
Abstract — The Slocum Electric Glider is a buoyancy driven Autonomous Underwater Vehicle (AUV) capab...