Robotics

Advanced robotic and autonomous systems

We design and develop advanced robotic and autonomous systems that combine precision engineering, intelligent perception, and adaptive control. Our expertise covers the full stack of robotics, from sensing and perception to motion planning, autonomy, and cloud connectivity, enabling smart, efficient, and safe operation.

Our solutions give robots the ability to perceive and understand their surroundings through state-of-the-art computer vision, object detection, recognition, and tracking technologies. Using 3D sensing with LIDAR, radar, and depth cameras, along with sensor fusion from IMU, GPS, and visual inputs, our systems achieve precise localisation and mapping in dynamic environments. This allows real-time obstacle detection, environment mapping, and continuous path planning for mobile and field robots.

Robust system software and middleware that seamlessly connect hardware and software components within complex robotic and embedded systems. Our expertise includes integration with the Robot Operating System (ROS / ROS 2) and advanced communication middleware such as DDS, MQTT, CAN, and EtherCAT, ensuring reliable data exchange and interoperability.

We also leverage powerful simulation environments like Gazebo, Webots, and Isaac Sim for testing, validation, and digital twin development. Combined with real-time operating systems (RTOS) and optimized low-level firmware and motor control drivers, our solutions deliver deterministic performance, scalability, and seamless hardware-software interaction across diverse platforms.

Scalable deployment and intelligent system management through advanced Edge-AI and cloud technologies.

Our develop on-device AI inference for real-time perception, combined with cloud-based model training and over-the-air (OTA) updates for seamless improvements in performance and functionality. We also develop digital twins that allow remote monitoring, diagnostics, and optimisation of robotic fleets, ensuring efficient operation, predictive maintenance, and continuous evolution of connected intelligent systems.

Safety and reliability

We apply rigorous standards such as ISO 13849 and ISO 26262, implement advanced cybersecurity measures, and design redundant, fail-safe architectures to ensure dependable operation in mission-critical environments.

Robotics

Advanced robotic and autonomous systems

We develop Human–Robot Interaction (HRI) (Interfaces and intelligence for safe, intuitive collaboration)

Speech and Voice Recognition;

Gesture and Facial Recognition;

Natural Language Understanding;

Emotion Detection and Response;

Safety Zones and Proximity Sensing

Safety and reliability

We apply rigorous standards such as ISO 13849 and ISO 26262, implement advanced cybersecurity measures, and design redundant, fail-safe architectures to ensure dependable operation in mission-critical environments.