Modern defence vehicles are becoming increasingly complex, integrating hybrid powertrains, advanced electronics, and mission-critical control systems. Engineering teams developing next-generation land platforms must validate performance, reliability, and safety under demanding real-world conditions.
The ODOS CAN-to-Cloud data platform enables defence engineering teams to remotely monitor vehicles during trials, capture high-resolution CAN data, and gain real-time visibility into mission-critical systems.
Installed directly on vehicle networks, ODOS loggers capture data from powertrains, energy systems, sensors, and control units. This data is securely transmitted to the ODOS CloudSoft platform, allowing authorised engineers to analyse vehicle behaviour in real time, whether in controlled testing environments or operational trials.
Defence vehicle development presents unique engineering challenges:
Without real-time visibility, engineering teams are forced into reactive, post-test analysis, slowing development and increasing risk.
ODOS provides a secure CAN-to-Cloud platform for real-time monitoring and analysis of defence vehicle systems.
ODOS loggers capture high-frequency CAN data directly from vehicle systems and transmit it securely to the cloud. Authorised engineering teams can monitor system performance in real time, analyse data remotely, and receive alerts when predefined thresholds are exceeded.
This enables engineers to identify issues as they occur, rather than after testing has completed, significantly improving response times and decision-making during trials.
ODOS supports a range of defence vehicle development and validation activities:
Real-Time Trial Monitoring
Monitor vehicle performance live during field trials, enabling immediate insight into system behaviour.
Hybrid and Electric Powertrain Validation
Capture and analyse high-volume CAN data from complex hybrid and electric drivetrains.
Safety-Critical System Monitoring
Track key parameters and receive alerts when thresholds are exceeded to reduce risk during testing.
Remote Diagnostics and Analysis
Enable engineering teams to investigate issues without requiring physical access to the vehicle.
Secure Data Access and Control
Ensure that sensitive vehicle data is accessible only to authorised personnel.
ODOS solutions are supporting advanced defence vehicle programmes in capturing and analysing real-world data during development and testing.
Defence systems manufacturer FNSS Savunma Sistemleri A.Ş. deployed ODOS real-time CAN-to-Cloud monitoring to gain immediate visibility into drivetrain behaviour and safety-critical parameters during vehicle trials.
By moving from post-test analysis to real-time monitoring, FNSS engineering teams were able to:
The result was faster engineering cycles, improved safety, and a more proactive approach to vehicle development, transforming testing from reactive analysis into real-time mission readiness.
👉 Read the FNSS Case Study to learn how ODOS supports defence vehicle development.
ODOS enables defence engineering teams to monitor mission-critical systems in real time, accelerate development programmes, and reduce risk during vehicle testing.
If you are developing next-generation defence platforms and require real-time visibility into system performance, ODOS can help.
Across modern industrial vehicles and machines, engineering teams need reliable access to real-world data to validate designs, diagnose issues, and continuously improve performance.
ODOS provides a complete CAN-to-Cloud data platform that combines rugged vehicle data loggers, secure connectivity, and powerful cloud analytics in one integrated system. From prototype development and field validation to fleet monitoring and long-term performance analysis, ODOS enables engineering teams to capture the data that matters, wherever machines operate.
With ODOS, organisations gain real-time visibility into their machines, accelerate development cycles, reduce downtime, and make better engineering decisions based on real operational data.
Contact us today to discuss your project or visit our contact page to get in touch.
