Development of an Automated Control System for Selection of Optimal Process Parameters in Welding Using Solar Energy Concentration. The objective of this proposed research is to develop an intelligent control system for selection of optimal process parameters in welding using solar energy concentration. This investigation endeavours to address the complex interaction between welding process parameters and quality of weld. The results of the work will lead to signicant advancement of knowledge ....Development of an Automated Control System for Selection of Optimal Process Parameters in Welding Using Solar Energy Concentration. The objective of this proposed research is to develop an intelligent control system for selection of optimal process parameters in welding using solar energy concentration. This investigation endeavours to address the complex interaction between welding process parameters and quality of weld. The results of the work will lead to signicant advancement of knowledge in automation of the welding process and will generate global interest due to its innovation and applications in automotive manufacturing and steel fabrication industries. The research activity proposed in this application is expected to further strengthen the links between QUT and Mokpo National University and will enhance the capabilities of both universities in attracting funding from local manufacturing industries.Read moreRead less
Studies on the Weld Characterstics and Weldability of Welded Joints with Alternate Supply of Shileding Gases in Welding. In today's dynamic changing environment, for industries to remain internationally competitive, traditional manufacturing techniques used for welding have to become more flexible and intelligent to attain better adaptability and higher productivity. In industrial applications of MIG/MAG welding processes, various types of shielding gases are used based on type of work material ....Studies on the Weld Characterstics and Weldability of Welded Joints with Alternate Supply of Shileding Gases in Welding. In today's dynamic changing environment, for industries to remain internationally competitive, traditional manufacturing techniques used for welding have to become more flexible and intelligent to attain better adaptability and higher productivity. In industrial applications of MIG/MAG welding processes, various types of shielding gases are used based on type of work material and weld quality required. In this proposed research, experimental studies will be conducted on welding productivity by using different shielding gas combinations. The aim of this project is to conduct experimental analysis on weld arc phenomenon, weld pool behavior, and weld quality and to build an intelligent system for the selection of optimum combination shielding gas mixtures. In addition this study also aims to examine how the microstructure and mechanical properties of different welds are influenced by the use of different shielding gases combinations.Read moreRead less
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
Integration of GPS/Pseudolites/INS to Geo-Reference Airborne Surveying and Mapping Sensors. This project aims to develop and test an innovative geo-referencing system for airborne surveying and mapping sensors. The proposed new system will be based on the deep integration of measurements from Global Positioning System (GPS), Inertial Navigation Systems (INS), and Pseudo-satellites (Pseudolites). This new system design can significantly improve the accuracy and reliability of the existing syste ....Integration of GPS/Pseudolites/INS to Geo-Reference Airborne Surveying and Mapping Sensors. This project aims to develop and test an innovative geo-referencing system for airborne surveying and mapping sensors. The proposed new system will be based on the deep integration of measurements from Global Positioning System (GPS), Inertial Navigation Systems (INS), and Pseudo-satellites (Pseudolites). This new system design can significantly improve the accuracy and reliability of the existing systems. This research will include theoretical analysis, algorithm development, system implementation, and performance evaluation, towards an operational geo-referencing system addressing ever-increasing demand for rapid acquisition of high quality spatial data from airborne sensors.Read moreRead less
Modelling of Pulse Current Parameters and Design of Fuzzy Logic Controller for Uniform Metal Transfer in Pulsed Gas Metal Arc Welding of Aluminium Alloy. The use of aluminium alloys in automotive and aerospace industry is growing across the world. In order to improve the use of aluminium alloy in various industries, the welding process for aluminium need to be improved. The objective of this research is to develop an intelligent controller for welding power source, which is capable of selectin ....Modelling of Pulse Current Parameters and Design of Fuzzy Logic Controller for Uniform Metal Transfer in Pulsed Gas Metal Arc Welding of Aluminium Alloy. The use of aluminium alloys in automotive and aerospace industry is growing across the world. In order to improve the use of aluminium alloy in various industries, the welding process for aluminium need to be improved. The objective of this research is to develop an intelligent controller for welding power source, which is capable of selecting process parameters automatically for varying pulse conditions in welding of aluminium alloys. The fundamental understanding about development of proposed intelligent system with smart controller for uniform metal transfer will create global interest across the welding industry and will create a new market potential throughout world where use of aluminium as a base material is growing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561136
Funder
Australian Research Council
Funding Amount
$376,352.00
Summary
36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diver ....36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diverse as detection of extra-solar planets and nearby supernovae. The camera will also lead to collaborative research with ANU's newly-funded Skymapper telescope, as well as the Anglo-Australian Observatory's 6dF and 2dF instruments.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883093
Funder
Australian Research Council
Funding Amount
$285,000.00
Summary
A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator con ....A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator controlled devices, such as cars and mining machinery, and to develop effective strategies to reduce the risk of vehicle accidents.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347673
Funder
Australian Research Council
Funding Amount
$186,000.00
Summary
Haptic Research Facility. There is an urgent need for the establishment of a unique Haptic research facility for virtual prototyping applications, assembly planning in a virtual environment, virtual maintenance analysis, collision detection, maintenance path planning and teleoperation, including laparoscopy. The realism of these applications can be substantially improved by the inclusion of a six degree-of-freedom force and torque feedback 'Haptic device', together with the Delmia simulation sui ....Haptic Research Facility. There is an urgent need for the establishment of a unique Haptic research facility for virtual prototyping applications, assembly planning in a virtual environment, virtual maintenance analysis, collision detection, maintenance path planning and teleoperation, including laparoscopy. The realism of these applications can be substantially improved by the inclusion of a six degree-of-freedom force and torque feedback 'Haptic device', together with the Delmia simulation suite, virtual prototyping / assembly software, to make working in three-dimension more natural, efficient and intuitive. The facility will support high quality fundamental research and development across Australia's manufacturing, automotive and aerospace industries as well as surgical applications. Read moreRead less
Special Research Initiatives - Grant ID: SR0354599
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
An Integrated Intelligent Bio-machines Network. The increasing use of computing, advanced materials, electronic control with biological or human applications has provided the need to strengthen the nexus of these discipline areas. This proposal is expected to identify the critical areas of integration that can be realistically developed into meaningful technologies and products in the short-to-medium term. The significance of this network is to enhance the science and technology required for sy ....An Integrated Intelligent Bio-machines Network. The increasing use of computing, advanced materials, electronic control with biological or human applications has provided the need to strengthen the nexus of these discipline areas. This proposal is expected to identify the critical areas of integration that can be realistically developed into meaningful technologies and products in the short-to-medium term. The significance of this network is to enhance the science and technology required for systems and products such as bionic eyes, legs, muscles and larynxes. These products and systems characterize the essence of this network: The integration of hardware and software with wetware (Humans).Read moreRead less