DCS; Industrial control system
Product
Article
NameDescriptionContent
English 简体中文
NEW CENTER
Current Location:
Home >> journalism >> Ensuring Cyber Resiliency for OT Systems

Ensuring Cyber Resiliency for OT Systems

From:THOMAS | Author:H | Time :2024-11-27 | 302 Browse: | Share:

Ensuring Cyber Resiliency for OT Systems

Cyber resilience is the ability for an entity to continuously deliver the intended outcome despite cyber-attacks. In this case, the “entity” could likely be your plant and the “intended outcome” is the results produced by your operational technology (OT) efforts. Stated simply, being cyber resilient means your operations stay in operation even though they may be under cyber-attack.

“Cyberworthiness” is an assessment of the resilience of a system from cyber-attacks. It is applicable to software and hardware elements like standalone software, code deployed on an Internet site, browsers, manufacturing equipment or Industrial Internet of Things (IIoT) devices.

Whether intentional—as in a cyber-attack—or unintentional—as in a failed software update—adverse cyber events negatively impact the availability, integrity, or confidentiality of networked OT and information technology (IT) systems and associated services.
 

Cybersecurity versus cyber resilience

Cyber resilience is designed to prevent systems and networks from being derailed in the event that security is compromised. The manufacturing line, refinery or pipeline “stays” operational. Cyber resilience means that cybersecurity is effective without compromising the usability of OT systems (Figure 1).

Figure 1: Cyber resilience means that cybersecurity is effective without compromising the usability of OT systems.

According to Phil Tonkin, field CTO at Dragos, cybersecurity is concerned with the protection of digital systems, whereas cyber resilience considers the real-world implications of cyber events—extending beyond the digital defense perimeter to encompass the ability of an organization to maintain its core functions and recover swiftly from any form of cyber disruption. “In the world of OT, infrastructure owners as asset managers are concerned with the integrity and reliability of their assets. An electric company needs to worry about keeping a reliable, efficient and clean energy supply to its customers, how they achieve that is resilience. It’s not just protecting the system against compromise but managing the risks of downstream effects.”

Greg Hale, editor and founder of ISSSource, said that resiliency is a plan to find ways to keep the plant/network/system up and running despite an ongoing attack. It is related closely to the business continuity plan. “Cybersecurity, on the other hand, is the overall general idea of protecting assets. The government says resilience entails the ability of a system to anticipate, withstand, recover from and adapt to cyberattacks and natural or accidental disruptions,” he said.

Hale wrote in a recent article in The Source: “A core meaning behind cybersecurity is keeping systems up and running and secure against any kind of attack. But when an organization does suffer a hit, the next step in the ladder of protection needs to be resilience—how to stay up and running no matter the type of assault.”

“Cybersecurity focuses on the implementation of capabilities and controls such as identification, detection, protection and so on, whereas resilience relates to the ability to withstand attacks, bring appropriate response and ability to recover swiftly,” said Mansur Abilkasimov, vice president of Cyber and Product Security Strategy and Governance at Schneider Electric.



Need for cyber resilience is real

Hale points out that one of the classic cases of a lack of cyber resilience is the Colonial Pipeline incident a few years back (Figure 2). “There was a ransomware attack on the company’s IT department and while OT systems remained up and capable of running, the company shut down completely for about four or five days ‘out of an abundance of caution.’ The real reason was the company’s billing system was run on the IT side and if that was held for ransom, the company could not bill its customers and therefore not make any money, so they had to shut everything down. Even though OT was not affected, they had no plan on what they should do to stay running in case of an attack.”

Figure 2: One of the classic cases of a lack of cyber resilience is the Colonial Pipeline incident.

Roy Kok, senior partner and Alliances specialist CLPA at Mitsubishi Electric Automation Inc. said that cyber resilience becomes an interesting challenge for Mitsubishi Electric going forward “because we’re the only company that’s offering combined networking. Most industrial automation companies have a control network and an information network, the control network being focused on deterministic performance and also being dedicated to doing the control. And then of course, the information network is open to the IT world, performance management, quality and so on.”

With combined networking, cyber resilience is increasingly important. “Our protocol is called CC-Link IE TSN. IE stands for ‘industrial Ethernet.’ TSN [time-sensitive networking] is the enhancement to the Ethernet spec that happened back in 2016, which allows you to have deterministic performance. It’s like setting up a private channel on Ethernet that guarantees that your control will have deterministic performance regardless of anything else on the network. The spec has been enhanced to allow scheduling of communications, which means that means devices on a network know when they have an opportunity to speak—traffic shaping.”
  • D20MIC10BASE-T 820-0756 Network card
  • WES13-3 5167-0001-0210 CPU/Auxiliary Control board
  • WES13-3 2508-21001 Embedded digital module
  • D20ME 526-2005-216943 control module
  • D20EME 0526-21170-1 Enhanced Master Communications Module for D20 Substation RTUs
  • 2400-21004 / 2010-3101-0442 – Redundant Power Supply Module for Mark VIe Turbine Control
  • PACSystems™ IC695CPE400 RX3i 64 MB
  • DS200DCFBG2BNC DC2000 DC Feedback Board
  • OLDI Ethernet interface module 56SAM-844
  • IS200BPPBH2CAA Mark VIe Power Supply Module
  • IS210MACCH2AEG Motor Control and Communication Module
  • IS210MACCH2AGG Mark VIe Speedtronic Turbine Control Module
  • IS200AEPAH1AFD Printed circuit board
  • IS200AEPAH1ACB Analog I/O Module
  • IS200WREAS1ADB AERO TRIP TB DBRD sub-board
  • IS200WETAH1AEC large board component made Mark VI system
  • IS200AEPAH1AHD A High-Precision Excitation Control Board for Turbine Systems
  • IS200WEMAH1AEA Control board
  • IS210MACCH1AGG processor card
  • IS230TNRLH1B Discrete Output Modular Assembly
  • Mark V Series DS200PCCAG1ACB PCB Power Connect Card
  • DS200SI0CG1AEA Instantaneous overcurrent card
  • DS200SHVMG1AGE Analog I/O board
  • DS200SI0CG1A6A Input/Output Module
  • DS200SHVMG1AFE SCR High Voltage Interface Board
  • DS200RT8AG3AHC Relay Output Terminal Board
  • DS200FSAAG1ABA PCB Field Supply Gate Amplifier Board
  • 531X307LTBAFG1 F31X307LTBA LAN I/O Terminal Board
  • ABB AFS670 19" Ruggedized Switch AFS670-EREEDDDSSEEEEEEEPZYX05.1.0
  • NI Controller for VXI VXIPC-871B
  • IS200EPMCH1GE Mark VIe Patch Cord Power Distribution Card
  • VMICPCI-7632-03310 IS215UCCAH3A 350-657362-003310J GE gas turbine system control processor board
  • WEA13-13 2508-21001 Control Module / I/O Board
  • WES5120 2340-21004 Controller Main Module
  • WES5120 2340-21006 Field Controller Master Unit Module
  • ​ WESDAC D20ME 18-MAR-13 Excitation Control Module
  • D20 EME 2400-21004 Ethernet communication and expansion module
  • GE DS3800XTFP1E1C Thyristor Fan Out Board Brand
  • GE SR745-W2-P1-G1-HI-A-L-R-E Feeder protection relay
  • GE IS230TNDSH2A Discrete Output Relay Module Brand
  • GE Fanuc IS200TDBSH2ACC Mark VI Terminal Board Brand
  • GE PMC-0247RC-282000 350-93750247-282000F Disk Drive
  • GE PMC-0247RC-282000 350-93750247-282000F Disk Drive
  • GE VMIVME-1150 Serial Communications Controller
  • GE VMIVME-5576 Fiber-Optic Reflective Memory with Interrupts
  • GE VMIC Isolated Digital Output VMIVME-2170A
  • GE MULTILIN 760 FEEDER MANAGEMENT RELAY 760-P5-G5-S5-HI-A20-R-E
  • GE IS200AEPAH1BKE IS215WEPAH2BB Printed circuit board
  • GE IS210BPPCH1A Mark VIe I/O Pack Processor Card
  • GE IS220PRTDH1A 336A4940CSP6 High-Performance RTD Input Module
  • GE IS220PDIAH1BE 336A5026ADP4 Discrete Input Module
  • GE IS420ESWBH3A IONET Switch Module
  • GE 516TX 336A4940DNP516TX 16-port Ethernet switch
  • GE EVMECNTM13 Embedded control module
  • GE EVPBDP0001 EVPBDP032 control module
  • GE Hydran M2-X Enhanced Monitoring with Extended Sensor Life
  • GE UR6CH Digital I/O Module
  • GE IC695CPU315-CD Central processing unit
  • GE 531X305NTBAMG1 DR Terminal Board
  • GE 531X305NTBALG1 NTB/3TB Terminal Board 531X Series
  • GE 531X305NTBAJG1 NTB/3TB Terminal Board.
  • GE 531X305NTBAHG1 NTB/3TB Terminal Board 531X
  • GE 531X305NTBAEG1 is a PCB that functions as a DR terminal board.
  • General Electric 531X305NTBACG1 NTB/3TB Terminal Board 531X
  • GE Digital Energy D20 Analog Input Module
  • GE 94-164136-001 main board Control board
  • GE 269 PLUS-D/O-100P-125V Digital motor relay
  • GALIL DMC-9940 High-performance motion controller
  • FUJI NP1BS-08 base plate
  • FUJI NP1Y32T09P1 Transistor drain type digital output module
  • FUJI NP1Y16R-08 Digital Output Module
  • FUJI NP1X3206-A High-speed digital input module
  • FUJI NP1AYH4I-MR current output module
  • FUJI NP1S-22 Power module redundancy
  • FUJI RPXD2150-1T servo drive module
  • FUJI FVR008E7S-2UX Ac frequency converter
  • FUJI Ac frequency converter FVR008E7S-2
  • FUJI FVR004G5B-2 Small general-purpose frequency converter
  • FUJI A50L-2001-0232 Industrial control module
  • FUJI A50L-001-0266#N High-performance servo amplifier
  • Honeywell FS7-2173-2RP Gas sensor
  • Honeywell 10106/2/1 Digital Input Module in Stock
  • FRCE SYS68K CPU-40 B/16 PLC core processor module
  • Foxboro FBM I/O cards PBCO-D8-009
  • Foxboro AD916AE Digital Control System (DCS) Module
  • GE SR750-P5-G5-S5-HI-A20-R-E Multilin Relay
  • FOXBORO H90 H90C9AA0117S Industrial Computer Workstation
  • FOXBORO RH928AW | I/A Series Relay Output Module
  • Foxboro N-2AX+DIO Multi-functional input/output module
  • Foxboro RH924WA FCP280 Fiber Optic Network Adapter
  • FOXBORO H92 Versatile Hardware Component In
  • Foxboro FBM218 P0922VW HART® Communication Redundant Output Interface Module
  • Foxboro E69F-TI2-J-R-S E69F Series Current-To-Pneumatic Signal Converter
  • Foxboro E69F-BI2-S Converter
  • Foxboro H92A049E0700 The host of the DCS control station
  • Foxboro H90C9AA0117S Industrial computer workstation
  • Foxboro RH101AA High-performance industrial control module
  • Foxboro P0922YU FPS400-24 I/A Series Power supply
  • FOXBORO P0973LN Chassis-based managed switch with independent power supply
  • FOXBORO P0926PA Input/output module
  • Fanuc A06B-6050-H402 3 AXIS ANALOG AC SERVO DRIVE
  • FOXBORO L0130AD L0130AE-0H Power module group
  • FOXBORO 0399085B 0303440C+0303458A Combination Control Module
  • FOXBORO SY-0399095E (SY-0303451D+SY-0303460E) Process control board
  • FOXBORO 0399071D 0303440C+0303443B Input/Output (I/O) Module
  • FOXBORO RH924UQ Redundant Controller module
  • FFOXBORO E69F-TI2-S current pneumatic converter
  • FOXBORO FBM219 RH916RH Discrete I/O Module
  • FOXBORO FBM227 P0927AC Module
  • FOXBORO 0399144 SY-0301059F SY-1025115C/SY-1025120E I/O module
  • FOXBORO SY-60399001R SY-60301001RB Industrial Control Module
  • FOXBORO 0399143 SY-0301060R SY-1025115C SY-1025120E Combined control board
  • FOXBORO 873EC-JIPFGZ electrodeless conductivity analyzer
  • FOXBORO P0916PH (High-density HART I/O Module)
  • FOXBORO 870ITEC-AYFNZ-7 Intelligent Electrochemical Transmitters
  • FOXBORO Compact FBM240. Redundant with Readback, Discrete
  • FOXBORO FBM208/b, Redundant with Readback, 0 to 20 mA I/O Module
  • FOXBORO FBM201e Analog Input (0 to 20 mA) Interface Modules
  • FOXBORO P0916WG Terminal cable
  • FOXBORO P0926MX 2-Port Splitter
  • FOXBORO AD908JQ High-Frequency Module
  • FOXBORO AD916CC Processor module
  • Foxboro DCS FBM206 Pulse Input Module
  • FOXBORO FBM216 HART® Communication Redundant Input Interface Module
  • Foxboro p0903nu 1×8 unit sub-component module
  • Foxboro P0911SM Industrial control module
  • Foxboro CM902WM I/O module
  • Foxboro CM902WL Power module