In this paper, we outline the sensing system used for the visual pose control of our experimental car-like vehicle, the autonomous tractor. The sensing system consists of a magnetic compass, an omnidirectional camera and a low-resolution odometry system. In this work, information from these sensors is fused using complementary filters. Complementary filters provide a means of fusing information from sensors with different characteristics in order to produce a more reliable estimate of the desired variable. Here, the range and bearing of landmarks observed by the vision system are fused with odometry information and a vehicle model, providing a more reliable estimate of these states. We also present a method of combining a compass sensor wit...
In this paper, a novel algorithm to know the pose of any autonomous vehicle is described. Such a sys...
This paper proposes a new approach for calibration of dead reckoning process. Using the well-known U...
We present two different methods based on visual odometry for pose estimation (x, y, Ө) of a robot. ...
A recurrent problem in mobile robotics is the difficulty to accurately estimate a robot's localizati...
To validate the accuracy and reliability of onboard sensors for object detection and localization fo...
The self-localization capability is a crucial component for Unmanned Ground Vehicles (UGV) in farmin...
Machine autonomy has become a vibrant part of industrial and commercial aspirations. A growing deman...
The focus of many industrial and research entities on achieving full robotic autonomy increased in t...
Abstract— Autonomous vehicles are increasingly becoming ubiquitous in the 21st century; they find ap...
This paper examines the problem of estimating vehicle position and direction, i.e., pose, from a sin...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
This thesis develops and implements a visual odometry algorithm within the ROS software framework th...
In this paper, we develop the switching controller presented by Lee et al. for the pose control of a...
Abstract — Localization and mapping on autonomous robots typically requires a good pose estimate, wh...
In this dissertation, we focus on developing simultaneous localization and mapping (SLAM) algorithms...
In this paper, a novel algorithm to know the pose of any autonomous vehicle is described. Such a sys...
This paper proposes a new approach for calibration of dead reckoning process. Using the well-known U...
We present two different methods based on visual odometry for pose estimation (x, y, Ө) of a robot. ...
A recurrent problem in mobile robotics is the difficulty to accurately estimate a robot's localizati...
To validate the accuracy and reliability of onboard sensors for object detection and localization fo...
The self-localization capability is a crucial component for Unmanned Ground Vehicles (UGV) in farmin...
Machine autonomy has become a vibrant part of industrial and commercial aspirations. A growing deman...
The focus of many industrial and research entities on achieving full robotic autonomy increased in t...
Abstract— Autonomous vehicles are increasingly becoming ubiquitous in the 21st century; they find ap...
This paper examines the problem of estimating vehicle position and direction, i.e., pose, from a sin...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
This thesis develops and implements a visual odometry algorithm within the ROS software framework th...
In this paper, we develop the switching controller presented by Lee et al. for the pose control of a...
Abstract — Localization and mapping on autonomous robots typically requires a good pose estimate, wh...
In this dissertation, we focus on developing simultaneous localization and mapping (SLAM) algorithms...
In this paper, a novel algorithm to know the pose of any autonomous vehicle is described. Such a sys...
This paper proposes a new approach for calibration of dead reckoning process. Using the well-known U...
We present two different methods based on visual odometry for pose estimation (x, y, Ө) of a robot. ...