Case Studies

Australian Research & Experimental Submarine (ARES) – design and simulation for submarines in an industry 4.0 environment

Design an Australian Research & Experimental Submarine – ARES (5-10m long) with the ability to reconfigure external shape and Fwd/aft control planes configurations (cross or X-rudder) to simulate existing or future shapes.

2021-04-12T11:32:08+09:30July 4th, 2020|

Engineering, design and lab based testing of whole of vehicle health usage monitoring system (vHUMS) for defence vehicles

A fully operating HUMS system will provide significant cost savings in terms of real time warning on potential failure, improve preparedness of vehicle platforms for operational needs, and reduced fleet management costs. It will also significantly increase operator safety. This project builds on a body of research work by the Partners that established the theoretical feasibility of thermo-mechanical measurement to determine energy dissipated in shock absorbers.

2021-04-12T11:33:38+09:30July 4th, 2020|

Next Generation Solutions for Passive Inverse Synthetic Aperture Radar (ISAR) and Improved Situational Awareness

Passive ISAR utilises existing transmitters such as TV, radio or satellite, and addresses the challenge of combining multichannel transmissions to enhance passive ISAR imaging performance. These systems can be deployed covertly to offer improved situational awareness to Special Forces practically anywhere, paving the way for development and commercialisation of next generation situational awareness solutions of benefit across Army, RAAF and RAN.

2020-07-09T13:43:25+09:30June 24th, 2020|

AI Enabling Australia’s Future Submarine

There are significant opportunities to increase the operational capability of Australia's Future Submarine through the application of Artificial Intelligence techniques to combat system functions. This project assessed these opportunities and outlined a roadmap for the implementation of an Artificial Intelligence capability for Australia’s Future Submarine to support the broader strategic goal of SEA1000 to deliver a regionally superior submarine.

2020-07-09T17:52:33+09:30June 24th, 2020|

Developing Autonomous Seakeeping Capability for Unmanned Surface Vessels (USV)

This project aimed to better understand the seakeeping performance of USVs, and from this, to develop improved autonomous seakeeping capability that would enable a USV to operate under severe sea state conditions. This capability will enhance the capacity of USVs to complete complex missions in complex environments and assist industry with developing advanced sensor payloads for USVs.

2020-07-06T14:08:48+09:30June 24th, 2020|

Realising the Benefit of Augmented Reality (AR) Devices in Military Applications

While Augmented Reality (AR) activities are increasingly important, there are certain key problems that limit the effectiveness of the technology. For example, 30-40% of the population are stereo blind, yet AR relies on stereo vision. There are open questions concerning how the conflict between AR demands and natural viewing impact spatial attention and cognitive performance, especially under fatigue. The research for this project was supported by simulation and modelling to understand risks and identify ways of realising enhanced capabilities through development of a prototype adaptive AR interface.

2020-07-09T12:35:51+09:30June 24th, 2020|

Identifying Combat and Combat-Related Stigma Through The Language of a Deployed Australian Military Population

As stigma is perpetuated through communication between individuals, language use has significant ramifications. This pilot project aimed to identify the characteristics and prevalence of stigmatising language and advise how it can be changed and minimised to achieve more sustainable outcomes in recruitment, retention, combat readiness and capability.

2021-02-01T10:22:01+09:30June 23rd, 2020|