Innovative X-by-Wire Control Systems for Improved Vehicle Manoeuvrability and Stability. Future automobiles will be equipped with safety-critical ‘x-by-wire’ systems, such as ‘steer-by-wire’, ‘brake-by-wire’, and ‘drive-by-wire’, to enable active safety control and improve reliability and performance. This project aims to develop a new coordinated control strategy based on an in-depth understanding of the fundamental dynamics and stability characteristics of vehicles. Corresponding x-by-wire sys ....Innovative X-by-Wire Control Systems for Improved Vehicle Manoeuvrability and Stability. Future automobiles will be equipped with safety-critical ‘x-by-wire’ systems, such as ‘steer-by-wire’, ‘brake-by-wire’, and ‘drive-by-wire’, to enable active safety control and improve reliability and performance. This project aims to develop a new coordinated control strategy based on an in-depth understanding of the fundamental dynamics and stability characteristics of vehicles. Corresponding x-by-wire systems will then be implemented, using a novel networked bilateral-control concept and new haptic devices for enhancing the overall performance and safety of vehicles. This project will lead to the innovative design of vehicle active safety systems for automobile manufacturing in Australia and the rest of the world.Read moreRead less
Optimisation methods for coherent quantum signal estimation and filtering. The project aims to develop an innovative systems theory and optimisation methods to enhance the design of components for next-generation quantum communication networks. It will advance new theoretical knowledge and efficient algorithms that can be applied to make networks more efficient and less costly. New technologies set to emerge within the next decade including specialised quantum processors and transformative cyber ....Optimisation methods for coherent quantum signal estimation and filtering. The project aims to develop an innovative systems theory and optimisation methods to enhance the design of components for next-generation quantum communication networks. It will advance new theoretical knowledge and efficient algorithms that can be applied to make networks more efficient and less costly. New technologies set to emerge within the next decade including specialised quantum processors and transformative cyber security systems will require ultra-fast networks, and the project will contribute significantly to advancing these technologies. This will benefit the Australia's economy and reinforce Australia's leadership in the quantum technological revolution through innovative engineering approaches.Read moreRead less
Supervised autonomy for autonomous underwater vehicles (AUVs) using limited bandwidth communication channels. The project aims to improve the feedback link between an autonomous underwater vehicle (AUV) and an operator by developing novel acoustic communication schemes that exploit developments in machine learning, network, and communication theory and represents a step towards truly autonomous and intelligent surveying using AUV systems.
Context-aware verification and validation framework for autonomous driving. This project aims to enhance the reliability and safety of emerging self-driving vehicles, through a framework that supports the validation and verification of autonomous driving systems. This project expects to generate new knowledge in areas of software engineering, intelligent transport, and machine learning, using a multi-disciplinary research combining expertise from various fields. Expected outcomes of this project ....Context-aware verification and validation framework for autonomous driving. This project aims to enhance the reliability and safety of emerging self-driving vehicles, through a framework that supports the validation and verification of autonomous driving systems. This project expects to generate new knowledge in areas of software engineering, intelligent transport, and machine learning, using a multi-disciplinary research combining expertise from various fields. Expected outcomes of this project are a family of new context-aware techniques to verify and validate complex behaviours in autonomous driving. This should provide significant benefits, such as safe autonomous driving systems and the improved journey experience and security for road users.Read moreRead less
Subsurface Atomic Force Microscopy using Dual Probes. The proposal aims to develop a new microscopy method for imaging nano-scale structures buried below the surface of a sample; for example, metal conductors in a computer processor chip. The expected outcome is a new method for creating subsurface images with an application focus on semiconductor device inspection and quality control. The proposed microscope is expected to create new economic opportunities including new commercial products, int ....Subsurface Atomic Force Microscopy using Dual Probes. The proposal aims to develop a new microscopy method for imaging nano-scale structures buried below the surface of a sample; for example, metal conductors in a computer processor chip. The expected outcome is a new method for creating subsurface images with an application focus on semiconductor device inspection and quality control. The proposed microscope is expected to create new economic opportunities including new commercial products, intellectual property, and the potential for a start-up venture. The benefits to Australia should include the creation of new job opportunities and the development of local expertise in a high-value market sector.Read moreRead less
Combustion Modelling and Control for Biomass Fuelled Boilers . This Project aims to improve the operation of bio-fuelled boilers in the sugar industry by using novel approaches to modelling and control of the combustion process. In the sugar industry, sugarcane residue is used as biofuel for boilers. The steam from the boilers is used to crystallise sugar and generate electricity, which is used to power machinery and is also exported to the grid. However, due to poor fuel consistency and poor c ....Combustion Modelling and Control for Biomass Fuelled Boilers . This Project aims to improve the operation of bio-fuelled boilers in the sugar industry by using novel approaches to modelling and control of the combustion process. In the sugar industry, sugarcane residue is used as biofuel for boilers. The steam from the boilers is used to crystallise sugar and generate electricity, which is used to power machinery and is also exported to the grid. However, due to poor fuel consistency and poor combustion conditions, critical problems arise that hinder production. Expected outcomes include: improved sugar production, safer operation of boilers, reduced downtime, and better electricity co-generation.
This will provide significant benefits to sugar manufacturing and biofuel energy generation in AustraliaRead moreRead less
Control strategies for Bagasse-fuelled boiler units. This project aims to improve sugar production and electricity cogeneration capabilities in the sugar industry by utilising novel control ideas for boiler units. In the sugar industry, sugarcane residue is used as biofuel for boiler units. Boilers use steam to crystallise sugar and generate electricity. However, variable steam demand and poor fuel consistency severely hinder production. The project aims to improve safe operation of boilers, red ....Control strategies for Bagasse-fuelled boiler units. This project aims to improve sugar production and electricity cogeneration capabilities in the sugar industry by utilising novel control ideas for boiler units. In the sugar industry, sugarcane residue is used as biofuel for boiler units. Boilers use steam to crystallise sugar and generate electricity. However, variable steam demand and poor fuel consistency severely hinder production. The project aims to improve safe operation of boilers, reduce downtime, and maximise electricity generated to the grid. This will provide significant benefits to sugar manufacturing and, more broadly, biofuel energy generation in Australia.Read moreRead less
Fault tolerant control based on set-theoretic methods: robustness, nonlinear effects and probabilistic developments. This project will bring benefits to Australia by developing innovative self-healing technological systems that are able to maintain appropriate levels of performance while reacting to unforeseeable faults. The project will contribute to the National Research Priority area: Frontier Technologies for Building and Transforming Australian Industries.
Scheduling and quality of service in Long Term Evolution telecommunications. There is an explosion of mobile telecommunications with over 50 billion connections expected by 2020. The next generation of mobile broadband will be based on a new technology known as Long Term Evolution (LTE) and, in this context, the goal of this project is to improve the efficiency of these systems by developing new techniques for scheduling.
Real-time friction sensing, feedback and control for dexterous prosthetic and robotic manipulation. Prosthetic and robotic hands demonstrate poor dexterity during object manipulation, often dropping objects. Humans rarely allow objects to slip because we can sense when an object is slippery and adjust our grip. Exceptionally little research has been directed at replicating this ability to sense friction. This project aims to enable artificial hands to estimate frictional properties while graspin ....Real-time friction sensing, feedback and control for dexterous prosthetic and robotic manipulation. Prosthetic and robotic hands demonstrate poor dexterity during object manipulation, often dropping objects. Humans rarely allow objects to slip because we can sense when an object is slippery and adjust our grip. Exceptionally little research has been directed at replicating this ability to sense friction. This project aims to enable artificial hands to estimate frictional properties while grasping an object. Non-invasive methods to feed back this frictional information to an amputee will also be investigated. Finally, the friction-sensing system will be used to improve robotic gripper control. The outcomes of this research will significantly advance the fields of prosthetics, telesurgery, and service and manufacturing robotics.Read moreRead less