INNOVATION

    Driving Innovation in
    High-Fidelity Simulation

    OUR INNOVATION

    Born from a decade of collaboration between Deakin University and the Australian Army, UMS was created to solve a real-world challenge: how to train operators safely and effectively for unpredictable, high-risk environments. Our Reconfigurable Driver Simulator (RDS) sets a new standard for mobility simulation — adaptable, immersive, and mission-ready.

    A PLATFORM BUILT FOR PRECISION

    Our core technology, the RDS, is a reconfigurable, high-fidelity motion simulator designed to mimic real-world vehicle dynamics across road, off-road, and urban environments. It combines:

    • True-to-life motion feedback
    • Modular control systems
    • Custom vehicle configuration
    • Fully immersive, responsive visuals
    RDS SPECIFICATION SHEET (PDF)

    LOCAL INNOVATION. GLOBAL POTENTIAL.

    UMS is proudly Australian-owned and operated. Our systems are designed, engineered and manufactured in Melbourne, giving us the agility to tailor solutions for unique training demands — and to support clients long-term.

    OUR INNOVATIVE EFFORTS

    Our innovation efforts are showcased through numerous successful projects and initiatives since our inception.

    Customer-Centric Design

    Our design philosophy centres around the needs of our customers, using our knowledge to create a product that meet their desired objectives.

    Advanced Manufacturing

    Our state-of-the-art manufacturing facilities enable us to produce high-quality, innovative products that set industry standards.

    Sustainable Solutions

    We are committed to sustainability, developing products and processes that minimise environmental impact and promote eco-friendly practices.

    Collaborative Innovation

    We foster a culture of collaboration and creativity, encouraging our teams to think outside the box and bring forward innovative solutions.

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    UMS-Cabin-Cockpit

    SAFE, REALISTIC
    AND COST EFFECTIVE

    • Low/no incidence of simulator sickness.
    • Very high levels of trainee engagement.
    • Advanced training/training-to-failure in a safe, controlled environment building preparedness.
    • Reduced potential for negative training outcomes.
    • Greatly reduced requirement for on vehicle training.

    PROVEN ROBOTIC
    MOTION PLATFORM

    • Six independent axes of rotation (two continuous)
    • Extended workspace, able to move into positions not possible with the hexapod platform
    • High reliability and long service life
    • Low maintenance requirements
    • Low life-cycle costs