Optimizing autonomous system control with brain-like hierarchical control systems. Autonomous robotic systems, those requiring minimal ongoing supervision, have enormous commercial, medical and industry potential. A robotic hand, permitting manipulation of material objects is an integral part of robot function. Many aspects of human hand control, such as learning, fine motor control, context-specific adaptation and recovery from system damage would be greatly beneficial to a robotic hand. Likewi ....Optimizing autonomous system control with brain-like hierarchical control systems. Autonomous robotic systems, those requiring minimal ongoing supervision, have enormous commercial, medical and industry potential. A robotic hand, permitting manipulation of material objects is an integral part of robot function. Many aspects of human hand control, such as learning, fine motor control, context-specific adaptation and recovery from system damage would be greatly beneficial to a robotic hand. Likewise, theories of human hand control could be subject to empirical testing by implementing them in a robotic hand. These advances will greatly benefit our understanding of the human brain, with potentially wide-ranging medical benefits such as novel prosthetic limb design and rehabilitation strategies for stroke patients.Read moreRead less
Thinking Systems: Navigating Through Real and Conceptual Spaces. The project will provide fundamental insights into physical and conceptual spaces and develop applications in robotics and information systems. The project brings together national and international researchers to study how humans and other animals navigate: how trajectories through space are used to build maps, the neural bases of these mapping processes and how to use maps to achieve goals. The project will develop a new generati ....Thinking Systems: Navigating Through Real and Conceptual Spaces. The project will provide fundamental insights into physical and conceptual spaces and develop applications in robotics and information systems. The project brings together national and international researchers to study how humans and other animals navigate: how trajectories through space are used to build maps, the neural bases of these mapping processes and how to use maps to achieve goals. The project will develop a new generation of robots that can learn about the physical spaces they work in, and create concept-mapping systems that can map and navigate information spaces. Also, it will provide new insights into the mechanisms regulating human cognition and mental dysfunctions.Read moreRead less
From Talking Heads to Thinking Heads: A Research Platform for Human Communication Science. In this project current Talking Head technology will be taken into the realm of a high-fidelity Thinking Head, with implications and applications for basic and applied research. Outcomes will bear on human-machine communication, telecommunications, e-commerce, and mobile phone technology; personalised aids for disabled users, the hearing impaired, the elderly, and children with learning difficulties, forei ....From Talking Heads to Thinking Heads: A Research Platform for Human Communication Science. In this project current Talking Head technology will be taken into the realm of a high-fidelity Thinking Head, with implications and applications for basic and applied research. Outcomes will bear on human-machine communication, telecommunications, e-commerce, and mobile phone technology; personalised aids for disabled users, the hearing impaired, the elderly, and children with learning difficulties, foreign language learning; and will facilitate the development of animation in new media, film, and games. In addition to output in scholarly journals, beta-versions of the Head will be made available, and public visibility for the project will be facilitated by the incorporation of high-profile installations and exhibitions.Read moreRead less