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Autonomous Systems

For an Efficient, Reliable and Safe Future

Autonomous Systems

Autonomous Systems

For an Efficient, Reliable and Safe Future

The future of Autonomous Aerospace System

The future of  Autonomous  Aerospace System

Making autonomous flights safer and more efficient is the paradigm shift in the way we perceive and operate in aerospace. Precision in situations, awareness, and the ability to navigate adverse conditions (intelligent flight system) are key drivers of safety. The precision systems that are involved in computation, prediction, taking independent decisions, and applying controls are essential for smoother and more efficient flight. 

The aerospace industry is investing in sensor technology, high-speed communication, advanced AI/ML algorithms, and avionics platforms integrating them. Such that these platforms perform reliably in all weather conditions and in all environments. Technologies are now maturing to fuse all available sensor information, building an accurate perception of the environment and algorithms equipped to predict and maneuver to make an autonomous flight. 

Tata Elxsi helps customers adapt to the autonomous transformation through solution accelerators like SensorFusion and AutonomAI to accelerate the transformation. This includes the ability to customize and adapt quickly to the platform and further help with case-level customization tuned for critical applications in autonomous flights. This translates into object detection, monitoring, and tracking to take predefined control actions. 

The future of  Autonomous  Aerospace System
Here’s How We Can Help You​

Here’s How We Can Help You​

Here’s How We Can Help You​

Increase in autonomy to reduce human errors and incorporation of artificial intelligence in autonomous systems

  • Autonomous system development for obstacle detection, autonomous navigation, Verification and validation, System integration, Sensor fusion software framework​


To build fully autonomous systems, closed-loop simulations between sensors, control software, and intelligence algorithms are necessary.

  • Algorithm Verification, Sensor modeling, Synthetic Data Generation, Environment Simulation, Virtual Validation​


Build Collison Avoidance and develop edge decision making is critical for an autonomous flight in all terrain condition.

  • Situation awareness algorithm, decision making through object detection, identification and navigation

Service Framework

Autonomous Systems

Why Tata Elxsi?

  • Authority in LiDaR-based Situation Awareness Systems and Control Systems for Safety and Efficiency​
  • More than 800 engineers focusing on delivering Autonomous systems​
  • Re-usable solutions accelerators for reducing cost and  decreasing time to market of digital solutions​
  • Deep expertise in ARP4754 systems engineering​
  • Model Based Design Engineering for the development, enabling faster simulation, integration, testing and certification​
  • Deep experience in implementing Airborne Software, Hardware DO178C and MIL standards
  • Solution architecture to allow easy scalability and integration with open standards – no vendor lock-in.

In Focus

2D & 3D SVS Development for ADAS – Surround View System
Case Study

2D & 3D SVS Development for ADAS – Surround View System

Design and Development of Motor Control Unit (MCU) for EVs
Case Study

Design and Development of Motor Control Unit (MCU) for EVs

LIDAR-based Rotor Proximity Warning System (R-PWS) Development
Case Study

LIDAR-based Rotor Proximity Warning System (R-PWS) Development

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