M5 Room

Softwarised Networks

M5 builds the CeTI Core Communication Platform (C3PO), implemented in open-source software, to enable rapid integration of new research concepts and achieving technological sovereignty.

Key Questions

Creating a software-defined network for rapid deployment of new solutions.

Exploring modular, energy-efficient solutions in specific use cases.

Optimizing AI for distributed network operations focusing on resilience.

Approach

  • Software-defined platform: Development of a 6G platform and distributed networks, with performance and energy consumption data.
  • Open communication networks: Dynamic network coding models for 5G/6G networks.
  • Resilient AI-powered networks: Development of OpenRAN systems with AI for fault-tolerance and real-time failure detection.

Expected Results

  • First version of C3PO ready for testing in U rooms.
  • Scalable network infrastructure with low latency and high reliability.
  • Secure multi-domain network slicing for fixed and mobile networks.

 

Our Latest Research Results

  • Revolutionary Neural Learning Unit Accelerates On-Device AI Training While Cutting Energy Consumption

    Whether it is a robotic arm in an automated factory, an autonomous vehicle navigating a warehouse, or haptic gloves in virtual reality—precise real-time orientation tracking is essential. A new study ...

  • When Biology Meets Engineering – Controlling Physical Systems with Living Neural Networks

    Could the future of computing be biological? As we look beyond traditional silicon chips for more adaptive and energy-efficient solutions, a fascinating question arises: Can we use Synthetic Biologic ...

  • Revolutionizing 5G for Mission-Critical Applications – A New Era of Reliability and Low Latency

    As 5G and future cellular networks evolve to support critical real-time applications like telesurgery, remote robotics, and autonomous driving, balancing extreme reliability with ultra-low latency be ...