Presentation of the ATENA view and testbed ATENA H2020 WORKSHOP A new cybersecurity for interdependent Critical Infrastructures Dr. Leonid Lev – Manager, Innovative ICT Projects for Governance Luxembourg 18/10/2018
What are the main Problems of Validation and Demonstration in the R&D projects End users are ready to provide small facilities or training centers but they are not ready to install new applications or provide facilities for cyber attack. Possible threats could not be demonstrated in the real environment. Usually no real data or real scenarios are provided, even rarer the combination of real data and real scenarios could be provided. End user do not provide remote access to the real equipment, applications and infrastructures. The laboratories of universities or SMEs could not create a seemingly infinite infrastructure for parallel serving of several users, most of them use SW models and some PCs and PLCs to represent IACSs. 2
What is Smart Validation 3
Hybrid Environment for Design and Validation (HEDVa) for Industrial Control Systems (ICS) Environment for research projects of the European Programs Environment for validation of the future systems that will be installed at IEC premises Environment for validation of cyber security technologies and policies Environment for design and validation of new innovative projects in cooperation with Israel government 4
Smart grid Critical Infrastructure 5
HEDVa Configuration 6
Power Generator Emulator 7
Substation Emulation 8
Distribution Emulation 9
Smart Home (1) 10
Smart Home (2) 11
Data Repository 12
ATENA Validation and Demonstration System(1) 13
ATENA Validation and Demonstration System(2) 14
ATENA Validation and Demonstration System 15
ATENA Integrated Use Case (1) 16
ATENA Integrated Use Case (2) ROMA3 ATENA ’ s MODEL ITrust Of the Use Case ENEA OPC SWDE memory Share CI Leonardo UC MULTITEL OPC memory Share CRAT Water CI Cimplicity Data Repository Operational MODBUS Files DB OPC 2x Field 3x IEC HEDVa legend Elctrical grid + Gas CI To be done done 17
ATENA Integrated Use Case (3) Under implementation by IEC Under implementation by Multitel RAO C++ application on PC model(s) RAO model Communicator PLC (ECI, WCI...) (ECI) OPC C++ variables Simulation model(s) Messages Windows WM_COPYDATA Connection PC/PLC 18
ATENA Use Case Example Domains involved in the case Gas Pressure PRMS Gas Flow Diesel Generator (Active&Reactive Power) LOAD Frequency Distribution system Voltage POWER STATION OVERLOAD Normal operation single generator of diesel-generator and distribution Start Event: The LOAD of the consumer has increased system without spare energy End Event: Gas flow PRMS The LOAD > Nominal load increased source NO YES Diesel PRMS generator NO is ready LOAD shedding to work Gas Flow=0 YES End Event: YES Frequency protection Disconnection of worked the generator main switch Power outage End Event: Return to Distribution system normal Operation End Event: Emergency stop of diesel Diesel generator generator Is NOT READY 19 towork
ATENA Use Case Demonstrating Cyber Attack 20
Main Results Deliverables D7.1 Validation Plan, M18 (R) D7.2 Validation System Implementation and Aggregation (Interim Report), M24 (R, DEM) D7.3 Demonstration of the ATENA Prototype (Interim DEM) ), M24 (R, DEM) D7.4Validation System Implementation and Aggregation (Final Report), M36 (R, DEM) D7.5 Final ATENA prototype validation and evaluation of validation results (Final report), M36 (R, DEM) 21
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