Security for smart Electricity GRIDs Project type: Collaborative - PowerPoint PPT Presentation

Security for smart Electricity GRIDs Project type: Collaborative project – small or medium scale focused research project Grant agreement no: 607109 Thematic Priority: FP7-SEC-2013-1 October 1 st , 2014 Start date of project: Duration: 36 months Coordinator: TNO, The Netherlands SEGRID is supported by the EU FP7 Programme under Contract No. 607109 1

SEGRID Partners Distribution System Operators Manufacturers Knowledge institutes Universities 2

SEGRID Project targets 1. Identifying threats and potential future cyber-attack pathways, for the SEGRID use cases; 2. Determining the gap between currently available security for smart grids and what is needed for the SEGRID use cases; 3. Developing the necessary new security methods and measures for privacy, communication and system security in smart grids; 4. Building up a realistic test environment (Security Integration Test Environment, SITE) to test and verify new security methods and measures; 5. Evaluating and improving current risk management methodologies in order to make them optimally suited to identify and address the key risk factors of smart grids of 2020; 6. Feeding the established results from the SEGRID project into European and global standardisation bodies, industry groups and smart grid 3 suppliers.

SEGRID Storyline Maturity Gaps in currently available security SOLL technology for the Smart Grid of 2020 Smart Energy Grid of 2020 New threats security is insufficient E) Automatic reconfiguration Current state of D) Load balancing regionally Known C) Dynamic power management threats B) Load balancing centrally A) Smart Metering IST Current Energy Grid Time 2012 2016 2020 4

SEGRID Work package structure M1 M1 M1 WP 2 (ABB) Use cases and security goals Application & Enhancements of Risk Assessment Testing and evaluation M1 WP 5 (ENCS) WP 1 (EDP) WP 3 (KTH) Enhancements of Vulnerability Assessment techn. M3 WP 4 (SICS) Novel Security Solutions T4.1 System T4.2 Comm. T4.3 Resilient T4.4 Privacy & Platform protocols Comm. infra by design M1 WP 6 (TNO) Dissemination & Exploitation M1 WP 7 (TNO) Project management 5

SEGRID Use cases and security goals Maturity Gaps in currently available security SOLL technology for the Smart Grid of 2020 Smart Energy Grid of 2020 New threats security is insufficient E) Automatic reconfiguration Current state of D) Load balancing regionally Known C) Dynamic power management threats B) Load balancing renewable energy A) Smart Metering IST Current Energy Grid 6 Time 2012 2016 2020

SEGRID Application & enhancement of Risk assessment Maturity Gaps in currently available security SOLL technology for the Smart Grid of 2020 Smart Energy Grid of 2020 New threats security is insufficient Risk Assessments E) Automatic reconfiguration Current state of on use cases to • identify gaps in D) Load balancing regionally current security Known C) Dynamic power management technologies threats • assess RA tools B) Load balancing renewable energy (e.g. M/490 SGIS RA, EURAM) A) Smart Metering IST Current Energy Grid 7 Time 2012 2016 2020

SEGRID Develop & enhance security tools • Enhancement of security risk assessment processes for smart grid • Develop vulnerability discovery and diagnosis tools • Enhancements of Vulnerability Assessment techniques Cyber Security Modelling Language (CySeMoL) • Developed by KTH in FP7 Viking • Tool for assessing vulnerabilities in system architecture (using probabilistic attack graphs) • SEGRID will enhance the tool by • extending functionality more towards smart grids (e.g. use cases) • automatic generation of model from an existing infrastructure 8

SEGRID Develop novel security solutions (to fill some of the gaps) • System & platform security • Communication protocols security • Resilient communications infrastructure • Privacy by design Privacy-by-design toolbox • Goal: Support a paradigm shift towards collecting less personally sensitive data, while supporting all functionality needed. • SEGRID will develop a privacy-by-design toolbox to be applied throughout the system development life cycle of future smart grid developments. • new privacy design patterns • homomorphic encryption techniques 9

SEGRID Security Integration Test Environment (SITE) 10

Questions Mail: info@segrid.eu Website: www.segrid.eu Telephone: +31 8886 67758 Project Coordinator: Technical Coordinator: Frank Fransen +31 6 53 72 49 00 frank.fransen@tno.nl 11