MARE focuses on providing a coordinated solution to enhance security and privacy in 6G ecosystems by leveraging the already available 6G architecture solutions from ongoing European and international activities, thus fostering coordination and collaboration.
Therefore, the project will contribute to the creation of a secure and private 6G service provisioning platform by defining a novel security plane built on a well-defined set of open and programmable security functions, delivered as enablers of a 6G architecture, in a transparent and multi-domain/stakeholder environment, with the ability to proactively propose and assess strategies to efficiently deal with novel attacks and threats.
MARE pivots on two main contributions:
- A set of enriched security functions built upon basic primitives, referred to as DOTs, that must be composed into programmable security services to maximize security guarantees (Security Plane).
- A smart “pre-assessment” ecosystem, including simulation, emulation (with network digital twins) and real infrastructure, where security and privacy functions are analysed prior to production and deployment.
BDS R&D Spain brings a technology stack that integrates adaptive telemetry and intelligent observability to dynamically collect and process system insights, optimizing data flow while ensuring real-time workload visibility. The harmonized monitoring framework synchronizes knowledge across diverse environments, enabling real-time tracking of execution status, resource utilization, and compliance with service-level requirements.
By autonomously determining what to monitor, at what granularity, and how frequently, the system prevents data deluge while maintaining high-fidelity observability. Orchestration decisions rely on accurate, timely, and technology-agnostic intelligence, simplifying distributed infrastructure management.
Additionally, an event-driven telemetry strategy ensures self-adaptive monitoring, minimizing network congestion and enhancing system resilience. This unified approach enables scalable, efficient, and real-time observability across heterogeneous environments.
