Synthetic T&E

We deliver Synthetic T&E solutions across multiple domains to measure, characterise and qualify digital, hardware and human orientated systems operating in the electromagnetic spectrum (EMS).

Our Synthetic T&E offering qualifies the performance of complex systems in a simulated environment using digital systems, hardware (eg. sensors) and humans-in-the-loop.

Our long-term partnership with Defence has enabled us to become a pre-eminent supplier of domain-agnostic Synthetic T&E solutions comprising products, managed services and technical consulting. Our approach is tailored to suit the complexity of the problem and the needs of our customers.


Built on a foundation of immersive, augmented and synthetic technologies, our Synthetic T&E services helps mitigate the cost, complexities and barriers of real-world testing.

With the right composition, Synthetic T&E can assist with technology acceleration, by providing a fit-for-purpose proving ground to evaluate new technologies and techniques before transitioning into the field.

Our solutions employ a system of systems approach. We integrate high precision measurement, digital modelling, hardware and human integration and a structured simulation and analysis framework to achieve high confidence solutions across air, land, maritime, space and joint force contexts.

Our Capabilities

Aurizn has deep technical knowledge and experience across EMS system operations, comprising of RF, EO/IR technologies and electronic, embedded software domains.

Project Management

We deliver outcomes using qualified and experienced Project Managers, part of our Project Management Office, tailoring services to suit the scale and needs of each project and customers.

Systems Engineering

The principles of systems engineering is deeply entrenched in our workforce and engineering management systems, providing an interdisciplinary perspective to delivering solutions.

Software Development

Our expertise is in adopting the optimal software development process, technology stack and architecture to suit the specific needs of the project through life.

Embedded Systems (including FPGA)

We architect, design, and develop FPGA based-systems and firmware for embedded control systems for data acquisition, sensors and effectors, and high resilience solutions.

Radio Frequency (RF) systems

Our skills in high-fidelity digital and synthetic modelling of RF sensors/effectors and scene generators, are used to support synthetic test and evaluation and novel sensor development programs.

Electro-optical (EO) and Laser systems

With significant pedigree in EO and Laser systems, we design and deliver high performance sensors, data acquisition systems, processing tool-chains and hardware-in-the-loop systems for laboratory and field operations.

Artificial Intelligence

We use AI to deliver asymmetric capability for Defence, to advance science and technology solutions, improve mission survivability and create a more secure future.

Electronic engineering

Our internal rapid prototyping facility supports the design and delivery of hardware and embedded solutions to support technology acceleration requirements.

Simulation & Analysis

Wtih domain knowledge across Air, Land, Maritime and Space, we deliver high-fidelity, simulation infrastructure, experimentation and analysis to provide outcomes across the capability development lifecycle.

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How we are delivering outcomes using Synthetic T&E

Our domain agnostic approach to delivering test, evaluation and capability development outcomes for Defence covers both laboratory and field deployable configurations.

Improved platform and mission survivability for in-service and next generation platforms, through enhanced signature management, improved sensors and optimised tactics, techniques and procedures (TTPs).

Hardware-in-the-loop incorporating synthetic scene generation, bespoke optical projection systems and digital injection techniques to stimulate a range of sensor technologies

Modelling of EMS effects including platform, mission and environmental parameters to support performance analysis and tactics development across all domains.

Operator management consoles to configure and control integrated hardware, human and digital oriented systems for laboratory and field based experimentation.

Laboratory and field deployable data acquisition systems which measure complex platform and environmental effects across the electromagnetic spectrum (EMS).

Use of Artificial Intelligence and Machine Learning techniques to develop data driven models for highly complex systems.

High performance computing technologies to deliver high fidelity, low latency simulation and system performance, eg real-time operating systems, distributed computing and FPGA's.


Aurizn offers a number of unique and customisable products to create insights and solve problems.

  • Infinite Studio
  • Immersive VR
  • Generic Vehicle Architecture
Infinite Studio

Infinite Studio

Real-time multispectral simulations and signature predictions

Delivering real-time performance and customisable environment, Infinite Studio is user-friendly and integrates with existing simulation architectures. It supports dynamic modelling, simulations and multi-spectral research and development across a range of complex scenarios:

  • Spectrally-based sensor modelling, from visible to long-wave Infrared
  • Air, Land, Maritime and Space environment visualisations
  • Large-scale image generation for Machine Learning applications
  • Dynamic views and multiple viewpoints

Immersive VR

Immersive VR

Real world human performance insights

Aurizn’s Immersive VR solution enables true human performance insight with benefits across the scientific and training domains.

This industry leading product integrates high precision technology to provide a flexible which can be adapted to your use-case, delivering realism and versatility and creating training and simulation outcomes for human-orientated operations.

The dome configuration enables multiple simulation participants to be immersed in a dynamic and high precision visual and aural landscape. High precision tracking systems provide accurate position and motion vectors for both personnel and apparatus (ie simulated weapons), with additional human performance metrics available through the use of eye tracking and biometric sensors.

Collectively the system delivers a correlated human performance system, which provides a deep understanding of their level of engagement, behaviour and decision-making capacity. The same capability can deliver outcomes in both the scientific experimentation and training preparedness domains.

Generic Vehicle Architecture

Generic Vehicle Architecture

Accelerate GVA conformance with ease and precision.

Our Generic Vehicle Architecture (GVA) Middleware provides significant cost and risk reduction across the development and integration lifecycle for platform and sub-system manufacturers.


We offer a globally leading and licensable GV software framework comprising a core Software Development Kit (SDK) with Application Layer to support specific configurations.

The framework includes an implementation of the Australian Land Data Model (AS-LDM) with options for additional concurrent versions and regional implementation (ie NATO and UK).

Our GVA experience and middleware can also be used for conformance assessment and GVA and to support iterative testing.

Aurizn can assist you in rapidly in adopting GVA to standardise interfaces for many sub-systems and scenarios including:

·      Platform services

·      Video sources

·      Gateways between sub-systems eg radar system, cross domain solutions

·      Data logging and analytics

·      Health and Usage Monitoring Systems (HUMS)

Case Studies

We have a strong reputation for taking on complex challenges. Find out more about the ground breaking work and projects Aurizn has successfully undertaken and delivered for clients.

digital flare helicopter model
Digital Flare Model
Aurizn developed a physics-based and validated Digital Flare Model for DSTG to enable simulated testing of scenarios to improve platform survivability.
active moment apparatus
Active Movement Extent Discrimination Apparatus: Technology Refresh
We ran a technology refresh to the Active Movement Extent Discrimination Apparatus, which is used by NASA to support research into astronaut rehabilitation strategies to counter long term effects of micro-gravity exposure.
defence helicopter with military inside
Electro Optic Survivability Integration Laboratory (EOSIL)
We supported DSTG with a technical refresh of its turn-key high-precision test and evaluation capability for Threat Warning Systems to support more efficient survivability assessments.
aerial view of a cityscape
Cross Domain Desktop Compositor
Working closely with CSIRO, we developed a new cross domain desktop compositor to advance data security for Defence.
TCS - soldier
Tactile Cueing System
We accelerated the technology maturity of a Tactile Cueing System from TRL 3 to TRL 7, resulting in improved outcomes for pilots when hovering.
defence helicopter flying over water
Electromagnetic Spectrum Synthetic Environment
We supported continuous evaluation of Electronic Warfare Self Protection (EWSP) systems and Tactics, Techniques and Procedures (TTPs) to improve effectiveness.
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