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D2.1 Analysis of Indicators and Metrics for Vulnerability Representation

Submitted by dcarboni on
Defines how vulnerability data is structured and consumed by automated security analysis tools in IoT environments.
Outcome Type
Report
Lens
Civilian
Source Organisation
TELEMETRY Project — University of Southampton (EC grant 101119747)
What it is

Technical report defining the concept of "Indicators" in the TELEMETRY framework: how vulnerability data is generated, structured and consumed by automated security analysis tools across IoT use cases. Includes an updated system architecture with examples from real industrial deployment scenarios.

Why it matters

Standardised vulnerability indicators are a missing link in IoT security automation. This deliverable provides a reusable conceptual and technical framework enabling practitioners to consistently measure, represent and act on security vulnerabilities in complex IoT systems. It is directly relevant to compliance with the NIS2 Directive and the Cyber Resilience Act, offering a practical foundation for organisations seeking to automate vulnerability assessment and meet evolving EU cybersecurity regulatory requirements.

Release Date
Target Audiences
National authorities
EU institutions
Industry & SMEs
Research & Academia
JRC Cybersecurity Taxonomy
Vulnerability analysis and response
DOI
10.5281/zenodo.17142311
Licence
CC BY 4.0

D1.1 Use Cases, Requirements and Architecture Specification and Evaluation Plan

Submitted by dcarboni on
Defines the architecture and security testing requirements for IoT ecosystems across aviation, manufacturing and telecommunications.
Outcome Type
Report
Lens
Civilian
Source Organisation
TELEMETRY Project (EC grant 101119747)
What it is

Technical deliverable defining three real-world IoT security testing use cases (aviation, manufacturing, telecommunications), along with TELEMETRY's requirements, tool architecture, and an interoperability evaluation plan for automated security testing of IoT software and hardware ecosystems.

Why it matters

IoT ecosystems face increasingly complex security threats across critical infrastructure sectors. This deliverable provides a reusable, open architecture and validated use cases that cybersecurity practitioners can adapt to test IoT software, hardware and ecosystems. Its multi-sector scope — spanning aviation, manufacturing and telecommunications — enables cross-domain knowledge transfer and supports civilian organisations in building robust, standards-aligned security testing capabilities for connected devices.

Release Date
Target Audiences
National authorities
EU institutions
Industry & SMEs
Research & Academia
JRC Cybersecurity Taxonomy
Security testing and validation
Vulnerability analysis and response
DOI
10.5281/zenodo.17141389
Licence
CC BY 4.0
Image
TELEMETRY D1.1 record on Zenodo — Use Cases, Requirements and Architecture

SAMA PARTNERS Business Solutions GmbH

Short name
SAMA PARTNERS
Profile type
Organisation
Country
Organisation type
SME
Contact name
Christopher Beck
Contact phone
User role in organisation
Administrative Officer
Knowledge Domains
Dual-use rating
Low
Profile completeness
100%