Image-based teleoperation of semi-autonomous robotic vehicles. This project will contribute strongly to Australia's robotic service industry in the development of semi-autonomous robotic inspection vehicles by; developing core technology in image-based teleoperation, training experts in the area, promoting the study of this topic within the Australian academia, and developing test facilities and prototype vehicles. Robotic inspection vehicles have the potential to replace direct human presence i ....Image-based teleoperation of semi-autonomous robotic vehicles. This project will contribute strongly to Australia's robotic service industry in the development of semi-autonomous robotic inspection vehicles by; developing core technology in image-based teleoperation, training experts in the area, promoting the study of this topic within the Australian academia, and developing test facilities and prototype vehicles. Robotic inspection vehicles have the potential to replace direct human presence in difficult, dangerous or simply uncomfortable inspection tasks such as; inspection of industrial pressure vessels, piping and conduits in factories or mines, undersea cabling, inspection of bridges, dams and other large scale civil buildings, amongst many other possibilities.Read moreRead less
Image Based Visual Servo Control of Dynamic Under-Actuated Systems. The project builds on earlier work on visual servo control of under-actuated rigid body dynamics to develop and implement sophisticated and robust image based visual servo control for a wide class of under-actuated and fully actuated dynamic systems. The scope of the project extends far beyond basic testing of preliminary results to address key technical issues facing visual servo control algorithms at this time. The project i ....Image Based Visual Servo Control of Dynamic Under-Actuated Systems. The project builds on earlier work on visual servo control of under-actuated rigid body dynamics to develop and implement sophisticated and robust image based visual servo control for a wide class of under-actuated and fully actuated dynamic systems. The scope of the project extends far beyond basic testing of preliminary results to address key technical issues facing visual servo control algorithms at this time. The project is strongly motivated by the host of emerging applications for visual servo control of unmanned aerial vehicles. The experimental program within the project is based on control of a four rotor VTOL `hoverbot'.Read moreRead less
Simultaneous localisation and image fusion for robotic explorations. Australia has played a leading role in the field of autonomous system research that s becoming increasingly prevalent in industrial applications such as environment monitoring, remote sensing, and battlefield intelligence. Unstructured and landmark-deficient operating conditions impose significant challenges in achieving accurate mapping and localisation. This research will develop a framework for image-based mapping and fusion ....Simultaneous localisation and image fusion for robotic explorations. Australia has played a leading role in the field of autonomous system research that s becoming increasingly prevalent in industrial applications such as environment monitoring, remote sensing, and battlefield intelligence. Unstructured and landmark-deficient operating conditions impose significant challenges in achieving accurate mapping and localisation. This research will develop a framework for image-based mapping and fusion, thus contributing to the key enabling technologies for autonomous systems. The outcomes of this project will contribute to the current international leadership of Australia in this fast-evolving technology.Read moreRead less