Thales, Flinders University to Automate Launch and Recovery of Royal Australian Navy Bluefin 9 AUV

Thales Australia and Flinders University have signed a Memorandum of Understanding (MoU) to conduct a study into the development of an automation system for the launch and recovery process of the General Dynamics Mission Systems Bluefin 9 Autonomous Underwater Vehicle (AUV), procured by the Royal Australian Navy under its Deployable Mine Counter Measures project.

Current launch and recovery processes for AUVs require human involvement in the deployment of the AUV from an Unmanned Surface Vehicle (USV); through either direct placement and retrieval from the water or activation from the platform. This collaboration will determine how best to increase the safety for navy personnel by removing ’the person from the mission’ through an end-to-end automation process.

“The concept of Automatic Launch and Recovery Systems from a USV would revolutionise the current method of deployment.” Thales Underwater Systems Director, Troy Stephen said.

“Not only would it completely remove the person from the minefield but it could eliminate many of the current limitations of Unmanned Underwater Vessels (UUV) such as transit time, battery drain, communications and mission risk. The autonomation of this process will provide a significant enhancement to the Navy’s capability”

In this study, Thales Australia will act as the design authority, working with key stakeholders to ensure that all capability and safety requirements are being met to allow Royal Australian Navy personnel to execute their mission safely.

Flinders University, world leaders in marine environments and autonomy, and a key academic partner in the recently announced $15 million TAS-CRC project, will provide subject matter expertise to investigate potential concepts for the Automatic Launch and Recovery System from a USV.

“As a research leader in autonomous marine vehicle systems, we look forward to contributing to strengthening Australia’s sovereign defence capabilities by developing and applying advanced imaging, guidance and control technology for unmanned underwater vehicles engaged in mine counter measure activities. This will open the way to keeping manned vessels and personnel out of dangerous minefields,” said Professor Robert Saint, Deputy Vice-Chancellor (Research), Flinders University.

“This study is an important step forward in Navy’s transition towards autonomy; particularly in the field of mine countermeasures with its defined phases of Detection, Classification, Identification and Neutralisation. The complexity of this shift requires genuine partnership and collaboration between Defence, Industry and Academia and we’re pleased to be working with Flinders University on this crucial study,” said Troy Stephen, Director Underwater Systems, Thales Australia.




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