Abstract — We describe the design of an anthropomorphic robot head intended as a research platform for studying autonomously learning active vision systems. The robot head closely mimics the major degrees of freedom of the human neck/eye apparatus and allows a number of facial expressions. We show that our robot head can shift its direction of gaze at speeds which come close to that of human saccades. Since our design only makes use of low cost consumer grade components, it paves the way for widespread use of anthropomorphic robot heads in science, education, health-care, and entertainment. I
This paper explores the process of self learning of facial expression. We discuss how our low cost h...
To further investigate theoretical concepts associated with sensorimotor control and brain-machine i...
Emotional robots are always the focus of artificial intelligence (AI), and intelligent control of ro...
This paper presents the biomechatronic design and development of an anthropomorphic robotic head abl...
In order to explore issues of human-robot interaction in a social context, we have constructed a hum...
In this paper we address the problem of executing fast gaze shifts toward a visual target with a rob...
This research was focused on the development of force attentive robot head for external forces actin...
[著者版]The original publication is available at www.springerlink.comHuman eyes not only serve the func...
Bioinspired Articial Vision is a multi-disciplinary research eld aimed at developing technology and ...
This project aims to design and construct a 3D CAD model of a humanoid robot head; this means the me...
Computer vision systems have traditionally been designed without paying much attention to the observ...
Schulz S, Lier F, Kipp A, Wachsmuth S. Humotion: A Human Inspired Gaze Control Framework for Anthrop...
In this paper, a humanoid platform comprising a 6DOF robotic head will be introduced with its concep...
This paper describes the mechatronic design of the Twente humanoid head, which has been realized in ...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
This paper explores the process of self learning of facial expression. We discuss how our low cost h...
To further investigate theoretical concepts associated with sensorimotor control and brain-machine i...
Emotional robots are always the focus of artificial intelligence (AI), and intelligent control of ro...
This paper presents the biomechatronic design and development of an anthropomorphic robotic head abl...
In order to explore issues of human-robot interaction in a social context, we have constructed a hum...
In this paper we address the problem of executing fast gaze shifts toward a visual target with a rob...
This research was focused on the development of force attentive robot head for external forces actin...
[著者版]The original publication is available at www.springerlink.comHuman eyes not only serve the func...
Bioinspired Articial Vision is a multi-disciplinary research eld aimed at developing technology and ...
This project aims to design and construct a 3D CAD model of a humanoid robot head; this means the me...
Computer vision systems have traditionally been designed without paying much attention to the observ...
Schulz S, Lier F, Kipp A, Wachsmuth S. Humotion: A Human Inspired Gaze Control Framework for Anthrop...
In this paper, a humanoid platform comprising a 6DOF robotic head will be introduced with its concep...
This paper describes the mechatronic design of the Twente humanoid head, which has been realized in ...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
This paper explores the process of self learning of facial expression. We discuss how our low cost h...
To further investigate theoretical concepts associated with sensorimotor control and brain-machine i...
Emotional robots are always the focus of artificial intelligence (AI), and intelligent control of ro...