We present a system that estimates the motion of a robot relying solely on images from onboard omnidirectional camera (visual odometry). Compared to other visual odometry hardware, ours is unusual in utilizing high resolution, low frame-rate (1 to 3 Hz) omnidirectional camera mounted on a robot that is propelled using continuous tracks. We focus on high precision estimates in scenes, where objects are far away from the camera. This is achieved by utilizing omnidirectional camera that is able to stabilize the motion estimates between camera frames that are known to be ill-conditioned for narrow field of view cameras and the fact that low frame-rate of the imaging system allows us to focus computational resources on utilizing high resolution ...
The transition of visual-odometry technology from research demonstrators to commercial applications ...
Abstract — We propose a method for visual odometry using optical flow with a single omnidirectional ...
In this paper, we present a flexible new technique for single viewpoint omnidirectional camera calib...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
For mobile robots to be able to work with and for people and thus operatein our everyday environment...
Abstract. This paper describes an algorithm for visually computing the ego-motion of a vehicle relat...
A mobile platform mounted with omnidirectional vision sensor (ODVS) can be used to monitor large are...
Visual Odometry (VO) is the process of finding a camera's relative pose in different time intervals ...
Abstract — An omnidirectional Mecanum base allows for more flexible mobile manipulation. However, sl...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
Vision is the primary means by which we know where we are, what is nearby, and how we are moving. Th...
At present, algorithms for attitude estimation with omnidirectional cameras are predominantly enviro...
With rapid advancements in the area of mobile robotics and industrial automation, a growing need has...
The features inherent in the visual motion field of a mobile robot indicate important clues about it...
The transition of visual-odometry technology from research demonstrators to commercial applications ...
Abstract — We propose a method for visual odometry using optical flow with a single omnidirectional ...
In this paper, we present a flexible new technique for single viewpoint omnidirectional camera calib...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
For mobile robots to be able to work with and for people and thus operatein our everyday environment...
Abstract. This paper describes an algorithm for visually computing the ego-motion of a vehicle relat...
A mobile platform mounted with omnidirectional vision sensor (ODVS) can be used to monitor large are...
Visual Odometry (VO) is the process of finding a camera's relative pose in different time intervals ...
Abstract — An omnidirectional Mecanum base allows for more flexible mobile manipulation. However, sl...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
Vision is the primary means by which we know where we are, what is nearby, and how we are moving. Th...
At present, algorithms for attitude estimation with omnidirectional cameras are predominantly enviro...
With rapid advancements in the area of mobile robotics and industrial automation, a growing need has...
The features inherent in the visual motion field of a mobile robot indicate important clues about it...
The transition of visual-odometry technology from research demonstrators to commercial applications ...
Abstract — We propose a method for visual odometry using optical flow with a single omnidirectional ...
In this paper, we present a flexible new technique for single viewpoint omnidirectional camera calib...