To further investigate theoretical concepts associated with sensorimotor control and brain-machine integration, the design and development of a robotic ophthalmotrope for the purpose of producing controlled, multidimensional eye and head movements is proposed. Central to this research is the implementation of a biomimetic, optimal control strategy used to precisely orient a CCD camera to rapidly acquire a target of interest and pursue its trajectory in real time. Unlike any of its predecessors, Robophthalmotrope will be the first intelligent mechatronic design to produce finely graded 3-D ocular rotations with the agonist and antagonist control actuation separately maintained. Moreover, it will be shown that the incorporation of a linear m...
This thesis presents a novel, biomimetic model of the eye for realistic virtual human anima- tion. W...
Complex biological systems sense, process, and respond to their surroundings in real time. The abili...
Abstract — Studies of primate locomotion have shown that the head and eyes are stabilized in space t...
To further investigate theoretical concepts associated with sensorimotor control and brain-machine i...
This paper presents the biomechatronic design and development of an anthropomorphic robotic head abl...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
Robotic engineering inspired by biology—biomimetics—has many potential applications: robot snakes ca...
We present the development of computational models of biological motor control used in two different...
A group of undergraduate students at the University of Connecticut Biomedical Engineering Program ha...
Bioinspired Articial Vision is a multi-disciplinary research eld aimed at developing technology and ...
Robotic vision introduces requirements for real-time processing of fast-varying, noisy information i...
In this paper we address the problem of executing fast gaze shifts toward a visual target with a rob...
The goal of this thesis is the analysis, implementation and testing of a binocular active vision sy...
The human eye is important to the survival and evolution of humanity. Thus, we look to it for inspir...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
This thesis presents a novel, biomimetic model of the eye for realistic virtual human anima- tion. W...
Complex biological systems sense, process, and respond to their surroundings in real time. The abili...
Abstract — Studies of primate locomotion have shown that the head and eyes are stabilized in space t...
To further investigate theoretical concepts associated with sensorimotor control and brain-machine i...
This paper presents the biomechatronic design and development of an anthropomorphic robotic head abl...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
Robotic engineering inspired by biology—biomimetics—has many potential applications: robot snakes ca...
We present the development of computational models of biological motor control used in two different...
A group of undergraduate students at the University of Connecticut Biomedical Engineering Program ha...
Bioinspired Articial Vision is a multi-disciplinary research eld aimed at developing technology and ...
Robotic vision introduces requirements for real-time processing of fast-varying, noisy information i...
In this paper we address the problem of executing fast gaze shifts toward a visual target with a rob...
The goal of this thesis is the analysis, implementation and testing of a binocular active vision sy...
The human eye is important to the survival and evolution of humanity. Thus, we look to it for inspir...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
This thesis presents a novel, biomimetic model of the eye for realistic virtual human anima- tion. W...
Complex biological systems sense, process, and respond to their surroundings in real time. The abili...
Abstract — Studies of primate locomotion have shown that the head and eyes are stabilized in space t...