Services

Multi-robotic coordination

We use O-RAN 5G network to provide handover management and Quality of Service (QoS) controlled connectivity for robots:

  • Design, development, and deployment of xApps for seamless and reliable robotic control over telecommunications networks.
  • Real-time coordination of multiple robots to execute complex and mission-critical operations with precision.
  • AI-driven solutions for adaptive and efficient management of network resources, ensuring optimal performance for critical tasks.

O-RAN Near-RT RIC and xApps

We maximise the resource utilisation of 5G system with the use of the Near-RT RIC and xApps:

  • Provision of an O-RAN Near-RT RIC platform with extensible capabilities designed to support diverse robotic and network applications.
  • Development of AI-driven xApps optimized for maintaining User Equipment (UE) Quality of Service (QoS) and enhancing overall telecommunications system performance.
  • Strategic collaboration with telecom operators to maximize network resource utilization and deliver superior QoS control.

Training and Technical Support

Over 20 years of experience in telecommunications training:

  • Delivering comprehensive training programs for operators and researchers, covering the operation and optimization of 5G and O-RAN technologies.
  • Providing ongoing technical support to ensure the seamless operation, scalability, and reliability of integrated systems.

Collaboration with Research Partners

We conduct research in both 6G telecommunications systems and robotics:

  • Engaging in joint R&D projects to drive innovation in integrating robotics with advanced telecommunications systems.
  • Providing support for experimental studies and prototyping, enabling the exploration of groundbreaking applications in robotics and telecom convergence.

Simulation and Test Environment

We develop the 5G/6G system simulation environment to for xApp tests and AI/ML training purposes:

  • Creation of sophisticated virtual environments for simulating and evaluating interactions between robotics and telecommunications networks.
  • Development of stress testing frameworks and performance evaluation tools to assess system resilience under diverse scenarios and workloads.