The OzBot Raider will enable armed forces to undertake validation and compliance testing of weapons without risk to personnel or any compromise in scenario realism

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Deakin University has entered a partnership with RCR, one of Australia’s leading multi-disciplinary infrastructure and engineering firms, for the development of a world-first robotics-driven target system, for use by armed forces in training to enable better accuracy. The unmanned tug-operated unit was displayed by Deakin’s Institute for Intelligent Systems Research and Innovation (IISRI) at the recent Australia’s Land Forces 2016 defence exhibition show in Adelaide. The research engineers behind the unique technology, dubbed the OzBot Raider, will present the system to the Australian Army next month. The joint venture with RCR will enable the system to be commercialised globally, by allied forces. IISRI Director Professor Nahavandi said the OzBot Raider was the latest innovation from Deakin’s long-term cutting-edge research program concerning the design of systems to improve Australian Defence capabilities and technologies. OzBot Raider Features Modular design – allows a wide variety of targets, including simulated thermal or acoustic payloads, or panels lined with high-tech coatings. Can be configured to operate on a graded track and deployed within an hour to a new location. On-board sensors allow the speed and location of the target to be monitored or adjusted in real time and ensure that all runs are consistently performed to the defined test parameters. High-definition cameras mounted on both the tug and trailer provide operators with real-time view of the down-range operations and allow targeting accuracy to be assessed during or at the end of each run. Will provide local industry with job opportunities, as construction of the system leverages local suppliers and fabricators, with significant potential to be exported to allied countries around the world. Relatively low-cost system, can operate in GPS-denied areas, is battery powered with spare packs able to be charged from a standard power outlet or small generator, intrinsically safe, offers low heat generation and is its modular design allows for quick and easy in-field servicing. Use of a cable-guided, self-driven tug greatly reduces the complexity of command and control demands, allowing both cost and complexity to be kept to a minimum. The tug uses a high-torque, high speed DC electric motor and will follow any straight, graded path, as defined by the guide cable, while on-board sensors accurately monitor key system parameters. It can automatically slow or halt the system if an error is detected. The target-trailer connects to the tug via a 360° rotating hitch, which allows the trailer to naturally swing around and follow the tug each time the tug changes direction. Unique design allows the tug to perform continuous runs back and forth without human intervention.  

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