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477:(OOP) became possible within industrial control systems. This led to the development of both programmable automation controllers (PAC) and industrial PCs (IPC). These are platforms programmed in the five standardized IEC languages: ladder logic, structured text, function block, instruction list and sequential function chart. They can also be programmed in modern high-level languages such as C or C++. Additionally, they accept models developed in analytical tools such as
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need for cyber defense capabilities to defend critical infrastructure control systems from cyber attack, such as power, water and wastewater, and safety controls, affect the physical environment. The MOSAICS JCTD prototype will be shared with commercial industry through
Industry Days for further research and development, an approach intended to lead to an innovative, game-changing capabilities for cybersecurity for critical infrastructure control systems.
430:
monitor the whole process. With the coming of electronic processors, high-speed electronic signalling networks and electronic graphic displays it became possible to replace these discrete controllers with computer-based algorithms, hosted on a network of input/output racks with their own control processors. These could be distributed around the plant and would communicate with the graphic displays in the control room. The concept of
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measurements to a permanently-staffed central control room. Often the controllers were behind the control room panels, and all automatic and manual control outputs were individually transmitted back to plant in the form of pneumatic or electrical signals. Effectively this was the centralisation of all the localised panels, with the advantages of reduced manpower requirements and consolidated overview of the process.
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to re-configure and debug, and PLC control enabled networking of signals to a central control area with electronic displays. PLCs were first developed for the automotive industry on vehicle production lines, where sequential logic was becoming very complex. It was soon adopted in a large number of other event-driven applications as varied as printing presses and water treatment plants.
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The boundaries between DCS and SCADA/PLC systems are blurring as time goes on. The technical limits that drove the designs of these various systems are no longer as much of an issue. Many PLC platforms can now perform quite well as a small DCS, using remote I/O and are sufficiently reliable that some
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While the DCS was tailored to meet the needs of large continuous industrial processes, in industries where combinatorial and sequential logic was the primary requirement, the PLC evolved out of a need to replace racks of relays and timers used for event-driven control. The old controls were difficult
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However, whilst providing a central control focus, this arrangement was inflexible as each control loop had its own controller hardware so system changes required reconfiguration of signals by re-piping or re-wiring. It also required continual operator movement within a large control room in order to
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The introduction of distributed control allowed flexible interconnection and re-configuration of plant controls such as cascaded loops and interlocks, and interfacing with other production computer systems. It enabled sophisticated alarm handling, introduced automatic event logging, removed the need
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of large industrial plants has evolved through many stages. Initially, control was from panels local to the process plant. However this required personnel to attend to these dispersed panels, and there was no overall view of the process. The next logical development was the transmission of all plant
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in function, but using multiple means of interfacing with the plant. They can control large-scale processes that can include multiple sites, and work over large distances. This is a commonly-used architecture industrial control systems, however there are concerns about SCADA systems being vulnerable
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Quite complex systems can be created with networks of these controllers communicating using industry-standard protocols. Networking allows the use of local or remote SCADA operator interfaces, and enables the cascading and interlocking of controllers. However, as the number of control loops increase
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each. These are usually panel mounted which allows direct viewing of the front panel and provides means of manual intervention by the operator, either to manually control the process or to change control setpoints. Originally these would be pneumatic controllers, a few of which are still in use, but
505:
Joint
Capability Technology Demonstration (JCTD) known as MOSAICS (More Situational Awareness for Industrial Control Systems) is the initial demonstration of cybersecurity defensive capability for critical infrastructure control systems. MOSAICS addresses the Department of Defense (DOD) operational
264:
The processors receive information from input modules, process the information and decide control actions to be performed by the output modules. The input modules receive information from sensing instruments in the process (or field) and the output modules transmit instructions to the final control
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or PLCs. SCADA control functions are usually restricted to basic overriding or supervisory level intervention. A feedback control loop is directly controlled by the RTU or PLC, but the SCADA software monitors the overall performance of the loop. For example, a PLC may control the flow of cooling
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for high-level process supervisory management. The operator interfaces which enable monitoring and the issuing of process commands, such as controller setpoint changes, are handled through the SCADA supervisory computer system. However, the real-time control logic or controller calculations are
245:
A distributed control system (DCS) is a digital process control system (PCS) for a process or plant, wherein controller functions and field connection modules are distributed throughout the system. As the number of control loops grows, DCS becomes more cost effective than discrete controllers.
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PLCs can range from small modular devices with tens of inputs and outputs (I/O) in a housing integral with the processor, to large rack-mounted modular devices with a count of thousands of I/O, and which are often networked to other PLC and SCADA systems. They can be designed for multiple
257:. It also enables more sophisticated alarm handling, introduces automatic event logging, removes the need for physical records such as chart recorders and allows the control equipment to be networked and thereby located locally to the equipment being controlled to reduce cabling.
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for physical records such as chart recorders, allowed the control racks to be networked and thereby located locally to plant to reduce cabling runs, and provided high-level overviews of plant status and production levels. For large control systems, the general commercial name
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water through part of an industrial process to a set point level, but the SCADA system software will allow operators to change the set points for the flow. The SCADA also enables alarm conditions, such as loss of flow or high temperature, to be displayed and recorded.
181:(PLCs), though SCADA and PLC systems are scalable down to small systems with few control loops. Such systems are extensively used in industries such as chemical processing, pulp and paper manufacture, power generation, oil and gas processing, and telecommunications.
462:(RTUs) to send supervisory data back to a control centre. Most RTU systems always had some capacity to handle local control while the master station is not available. However, over the years RTU systems have grown more and more capable of handling local control.
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SCADA's history is rooted in distribution applications, such as power, natural gas, and water pipelines, where there is a need to gather remote data through potentially unreliable or intermittent low-bandwidth and high-latency links. SCADA systems use
791:
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SCADA systems actually manage closed-loop control over long distances. With the increasing speed of today's processors, many DCS products have a full line of PLC-like subsystems that weren't offered when they were initially developed.
832:"More Situational Awareness for Industrial Control Systems (MOSAICS): Engineering and Development of a Critical Infrastructure Cyber Defense Capability for Highly Context-Sensitive Dynamic Classes: Part 2 โ Development โ HDIAC"
812:"More Situational Awareness for Industrial Control Systems (MOSAICS): Engineering and Development of a Critical Infrastructure Cyber Defense Capability for Highly Context-Sensitive Dynamic Classes: Part 1 โ Engineering โ HDIAC"
855:
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A DCS control room where plant information and controls are displayed on computer graphics screens. The operators are seated as they can view and control any part of the process from their screens, whilst retaining a plant
260:
A DCS typically uses custom-designed processors as controllers and uses either proprietary interconnections or standard protocols for communication. Input and output modules form the peripheral components of the system.
193:
Panel mounted controllers with integral displays. The process value (PV), and setvalue (SV) or setpoint are on the same scale for easy comparison. The controller output is shown as MV (manipulated variable) with range
489:. IPC's have the advantage of powerful multi-core processors with much lower hardware costs than traditional PLCs and fit well into multiple form factors such as DIN rail mount, combined with a touch-screen as a
792:"More Situational Awareness For Industrial Control Systems (MOSAICS) Joint Capability Technology Demonstration (JCTD): A Concept Development for the Defense of Mission Critical Infrastructure โ HDIAC"
493:, or as an embedded PC. New hardware platforms and technology have contributed significantly to the evolution of DCS and SCADA systems, further blurring the boundaries and changing definitions.
202:
A control loop using a discrete controller. Field signals are flow rate measurement from the sensor, and control output to the valve. A valve positioner ensures correct valve operation.
341:
The SCADA concept was developed as a universal means of remote access to a variety of local control modules, which could be from different manufacturers allowing access through
442:(DCS) was coined to refer to proprietary modular systems from many manufacturers which integrated high-speed networking and a full suite of displays and control racks.
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and other digital communication buses that carry not only input and output signals but also advanced messages such as error diagnostics and status signals.
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Additionally, a DCS provides supervisory viewing and management over large industrial processes. In a DCS, a hierarchy of controllers is connected by
235:
Functional manufacturing control levels. DCS (including PLCs or RTUs) operate on level 1. Level 2 contains the SCADA software and computing platform.
174:
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A DCS enables easy configuration of plant controls such as cascaded loops and interlocks, and easy interfacing with other computer systems such as
409:
A pre-DCS era central control room. Whilst the controls are centralised in one place, they are still discrete and not integrated into one system.
384:
Siemens
Simatic S7-400 system in a rack, left-to-right: power supply unit (PSU), CPU, interface module (IM) and communication processor (CP).
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473:, the industry moved towards increased code standardization with reusable, hardware-independent control software. For the first time,
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166:(SPs), and derive command functions that are used to control a process through the final control elements (FCEs), such as
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158:(DCSs) with many thousands of field connections. Control systems receive data from remote sensors measuring
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891:(PhD thesis). Department of Communication and Systems Faculty of Mathematics, Computing and Technology:
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The SCADA software operates on a supervisory level as control actions are performed automatically by
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arrangements of digital and analog inputs and outputs, extended temperature ranges, immunity to
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Galloway, Brendan; Hancke, Gerhard P. (2012). "Introduction to
Industrial Control Networks".
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The simplest control systems are based around small discrete controllers with a single
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603:"Operational technology (OT)Tricloud - Enabling Industrial IoT, Data analytics and AI"
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performed by networked modules which connect to other peripheral devices such as
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The
Programmable Logic Controller: its prehistory, emergence and application
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architecture that uses computers, networked data communications and
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The field inputs and outputs can either be continuously changing
627:"Reliance Electric Automax PLC 57C435 | Automation Industrial"
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670:"Cyberthreats, Vulnerabilities and Attacks on SCADA Networks"
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for a system design there is a point where the use of a
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In 1993, with the release of IEC-1131, later to become
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with sites that are widely separated geographically. A
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Supervisory control and data acquisition (SCADA) is a
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Distributed control systems can normally also support
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Process control systems and associated instrumentation
288:, such as relay contacts or a semiconductor switch.
501:SCADA and PLCs are vulnerable to cyber attack. The
338:which interface to the process plant or machinery.
60:. Unsourced material may be challenged and removed.
872:Guide to Industrial Control Systems (ICS) Security
731:Electrical Engineer's Reference book, 16th edition
654:. Automation TV: Control Global - Control Design.
162:(PVs), compare the collected data with desired
876:National Institute of Standards and Technology
860:National Institute of Standards and Technology
8:
521:Plant process and emergency shutdown systems
223:(DCS) is more manageable or cost-effective.
173:Larger systems are usually implemented by
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748:IEEE Communications Surveys and Tutorials
120:Learn how and when to remove this message
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175:supervisory control and data acquisition
940:"10 Reasons to choose PC Based Control"
935:, an open source process control system
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280:or 2 state signals that switch either
707:"PLC โ Programmable Logic Controller"
7:
58:adding citations to reliable sources
922:"New Age of Industrial Controllers"
729:M. A. Laughton, D. J. Warne (ed),
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882:Walker, Mark John (2012-09-08).
854: This article incorporates
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658:from the original on 2021-12-19.
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902:from the original on 2018-06-20
211:nearly all are now electronic.
45:needs additional citations for
770:10.1109/SURV.2012.071812.00124
370:Programmable logic controllers
332:programmable logic controllers
179:programmable logic controllers
177:(SCADA) systems, or DCSs, and
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650:Boys, Walt (18 August 2009).
376:Programmable logic controller
343:standard automation protocols
217:programmable logic controller
475:object-oriented programming
347:distributed control systems
227:Distributed control systems
156:distributed control systems
69:"Industrial control system"
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733:, Newnes, 2003 Chapter 16
536:Safety instrumented system
440:distributed control system
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241:Distributed control system
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221:distributed control system
152:industrial process control
578:"Controls | Indramat USA"
327:graphical user interfaces
136:industrial control system
18:Industrial Control System
944:Manufacturing Automation
735:Programmable Controller
677:Rosa Tang, berkeley.edu
652:"Back to Basics: SCADA"
542:Control system security
856:public domain material
705:B, Luka (2021-07-06).
547:Operational Technology
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566:NIST SP 800-82 Rev.2
185:Discrete controllers
54:improve this article
971:Control engineering
893:The Open University
432:distributed control
395:non-volatile memory
293:Foundation Fieldbus
142:) is an electronic
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265:elements, such as
255:production control
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686:on 13 August 2012
601:Mikael, Nygaard.
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487:Windows IoT
471:IEC-61131-3
110:August 2009
955:Categories
906:2018-06-20
837:2021-08-01
817:2021-08-01
797:2021-07-31
716:2024-06-01
711:Elektrovat
636:2023-12-09
631:57c435.com
612:2023-12-09
587:2024-06-01
553:References
516:Automation
80:newspapers
961:Telemetry
778:206583867
756:CiteSeerX
526:MTConnect
418:overview.
358:attacks.
219:(PLC) or
164:setpoints
150:used for
897:Archived
690:1 August
656:Archived
607:Tricloud
510:See also
497:Security
491:panel PC
483:Simulink
297:PROFIBUS
933:Proview
401:History
194:0-100%.
94:scholar
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479:MATLAB
305:Modbus
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101:JSTOR
87:books
692:2012
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363:RTUs
301:HART
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