Add to ORKGCalibration of movement tracking systems is a difficult problem faced by both animals and robots. The ability to continuously calibrate changing systems is essential for animals as they grow or are injured, and highly desirable for robot control or mapping systems due to the possibility of component wear, modification, damage and their deployment on varied robotic platforms. In this paper we use inspiration from the animal head direction tracking system to implement a self-calibrating, neurally-based robot orientation tracking system. Using real robot data we demonstrate how the system can remove tracking drift and learn to consistently track rotation over a large range of velocities. The neural tracking system provides the first steps towa...
The human motor system is robust, adaptive and very flexible. The underlying principles of human mot...
Analyzing the available literature of motion-captured head motion during human walking, a simplified...
In this article we present an algorithm to estimate the orientation of a robot relative to an orient...
The head direction (HD) system in mammals contains neurons that fire to represent the direction the ...
The head direction (HD) system in mammals contains neurons that fire to represent the direction the ...
Maintaining a stable estimate of head direction requires both self-motion (idiothetic) information a...
Abstract — For the last decade, we have developed a bioinspired control architecture for the autonom...
The design of a robust guidance system for a robot is discussed. The two major tasks for this guidan...
<p>Actual and represented head directions are tracked for the first and final 120 seconds of trainin...
Neural networks have long been a promising model for creating high performance robotic systems, from...
Abstract—We present a neural-network method to recalibrate automatically a commercial robot after un...
Head direction cells (HDCs) in mammals’ brains are thought to provide the sense of direction ...
The paper presents a preliminary study on the feasibility of a Neural Networks based methodology fo...
Mobile robot positioning is a crucial problem in modern industrial autonomous solutions. Lateration ...
© 2014 IEEE. Head direction cells are thought to be an integral part of the neural navigation system...
The human motor system is robust, adaptive and very flexible. The underlying principles of human mot...
Analyzing the available literature of motion-captured head motion during human walking, a simplified...
In this article we present an algorithm to estimate the orientation of a robot relative to an orient...
The head direction (HD) system in mammals contains neurons that fire to represent the direction the ...
The head direction (HD) system in mammals contains neurons that fire to represent the direction the ...
Maintaining a stable estimate of head direction requires both self-motion (idiothetic) information a...
Abstract — For the last decade, we have developed a bioinspired control architecture for the autonom...
The design of a robust guidance system for a robot is discussed. The two major tasks for this guidan...
<p>Actual and represented head directions are tracked for the first and final 120 seconds of trainin...
Neural networks have long been a promising model for creating high performance robotic systems, from...
Abstract—We present a neural-network method to recalibrate automatically a commercial robot after un...
Head direction cells (HDCs) in mammals’ brains are thought to provide the sense of direction ...
The paper presents a preliminary study on the feasibility of a Neural Networks based methodology fo...
Mobile robot positioning is a crucial problem in modern industrial autonomous solutions. Lateration ...
© 2014 IEEE. Head direction cells are thought to be an integral part of the neural navigation system...
The human motor system is robust, adaptive and very flexible. The underlying principles of human mot...
Analyzing the available literature of motion-captured head motion during human walking, a simplified...
In this article we present an algorithm to estimate the orientation of a robot relative to an orient...