Statements (380)
Predicate | Object |
---|---|
gptkbp:instanceOf |
gptkb:academic
gptkb:technology Control System Engineering concept aeronautical system automation system industrial control system |
gptkbp:abbreviation |
gptkb:DCS
|
gptkbp:alternativeName |
control_system
Autopilot_System Control_Theory Distributed_Control_System Electronic_control_unit Fire_Control_System Flight_Control_System Industrial_control_system SCADA_system distributed_control_system flight_control_system traction_control_system |
gptkbp:application |
gptkb:robot
Aerospace Industrial automation Electrical engineering HVAC systems Process control Automotive systems Power systems |
gptkbp:appliesTo |
biological systems
electrical systems mechanical systems economic systems |
gptkbp:canBe |
cloud-based
centralized distributed multi-axis single-axis in approach in cruise in landing |
gptkbp:category |
gptkb:aircraft
automation control engineering industrial automation process control Control System remote monitoring data acquisition fire support weapon guidance |
gptkbp:component |
gptkb:human-machine_interface
gptkb:plant_species gptkb:radar gptkb:Actuator detector shooting Control System Controller actuators sensors Feedback Programmable Logic Controller data acquisition system supervisory control and data acquisition display unit communication infrastructure Disturbance Reference input cockpit controls control surfaces flight management system automation system remote terminal unit ballistic computer data input device fire director gun laying system target tracking system supervisory computer |
gptkbp:contrastsWith |
Programmable Logic Controller
centralized control system |
gptkbp:controlledBy |
gptkb:bar
gptkb:navigation speed heading |
gptkbp:controls |
gptkb:bar
gptkb:navigation industrial equipment actuators pitch airspeed roll yaw |
gptkbp:criticalFor |
public safety
critical infrastructure flight safety economic stability |
gptkbp:defines |
A system that manages, commands, directs, or regulates the behavior of other devices or systems
|
gptkbp:developedBy |
gptkb:Sperry_Corporation
1960s 20th century early 20th century |
gptkbp:enables |
gptkb:legislation
gptkb:remote_control automation process automation remote monitoring real-time data collection target acquisition pilot to maneuver aircraft alarm processing historical data logging safety interlocks automatic aiming fire solution calculation firing control lead angle computation weapon stabilization plant optimization reduced human intervention |
gptkbp:feature |
redundancy
data acquisition scalability fault tolerance real-time monitoring alarm management historical data storage remote operation decentralized control |
gptkbp:features |
gptkb:IEC_62443
gptkb:ISA/IEC_62443 gptkb:NIST_SP_800-82 malware cybersecurity threats unauthorized access data interception |
gptkbp:field |
gptkb:Mathematics
gptkb:Physics gptkb:mathematics Engineering engineering systems theory Automation |
gptkbp:focusesOn |
automatic control
|
gptkbp:fullName |
gptkb:Supervisory_Control_and_Data_Acquisition_system
|
gptkbp:function |
automatic control of vehicle
control aircraft movement |
gptkbp:hasApplication |
gptkb:medicine
aerospace engineering biology chemical engineering communications economics process control robotics automotive engineering power systems |
gptkbp:hasComponent |
gptkb:communication
operator interface controller field device |
gptkbp:hasSubfield |
stochastic control
distributed control optimal control adaptive control nonlinear control decentralized control digital control robust control linear control |
gptkbp:hasType |
gptkb:Closed-loop_control_system
gptkb:Open-loop_control_system |
gptkbp:improves |
safety
efficiency pilot workload management |
gptkbp:industry |
gptkb:drug
oil and gas power generation food and beverage water treatment chemical |
gptkbp:introducedIn |
1970s
early 20th century |
gptkbp:maintainedBy |
system integrators
maintenance technicians |
gptkbp:manufacturer |
gptkb:Yokogawa
gptkb:ABB gptkb:Emerson gptkb:Honeywell gptkb:Schneider_Electric gptkb:Siemens |
gptkbp:marketLeaders |
gptkb:Emerson_Electric
gptkb:ABB gptkb:Honeywell gptkb:Schneider_Electric gptkb:Siemens gptkb:Rockwell_Automation gptkb:GE_Digital |
gptkbp:modernization |
digital electronics
|
gptkbp:monitors |
gptkb:pilot
gptkb:HMI gptkb:DCS gptkb:SCADA industrial equipment sensors |
gptkbp:notableExample |
gptkb:Aegis_Combat_System
gptkb:FCS_of_M1_Abrams_tank gptkb:Mark_1_Fire_Control_Computer |
gptkbp:notableIdea |
gptkb:Kalman_filter
gptkb:Bode_plot gptkb:PID_controller gptkb:Nyquist_criterion gptkb:Lyapunov_function stability controllability observability pole-zero analysis root locus state feedback |
gptkbp:notablePerson |
gptkb:James_Clerk_Maxwell
gptkb:Norbert_Wiener gptkb:Rudolf_E._Kálmán gptkb:Harry_Nyquist gptkb:Hendrik_W._Bode |
gptkbp:operatedBy |
automation engineers
industrial engineers control system operators |
gptkbp:purpose |
control industrial processes
monitor industrial processes improve accuracy of weapon systems |
gptkbp:regulates |
aviation authorities
|
gptkbp:relatedConcept |
gptkb:signal_processing
gptkb:Laplace_transform gptkb:Z-transform gptkb:Bode_plot gptkb:Nyquist_plot gptkb:PID_controller gptkb:SCADA gptkb:State-space_representation Stability Automation Process control Cybernetics Mechatronics Redundancy Adaptive control Automation pyramid Block diagram Cascade control Classical control theory Controllability Digital control Distributed control system Disturbance rejection Error signal Feedback loop Feedforward control Frequency response Modern control theory Nonlinear control Observability Optimal control Programmable logic controller Robust control Root locus Sensitivity function Servomechanism Setpoint Signal flow graph Stability margin Steady-state error Supervisory control System dynamics System identification System modeling Time response Transfer function Transient response |
gptkbp:relatedTo |
gptkb:PLC
gptkb:car gptkb:radar gptkb:signal_processing gptkb:DCS gptkb:SCADA gptkb:Supervisory_Control_and_Data_Acquisition gptkb:Process_Automation_Controller gptkb:Industrial_Internet_of_Things gptkb:RTU gptkb:fire_direction_center automation cybernetics industrial automation process control target tracking autopilot close-in weapon system avionics fly-by-wire system system identification ballistics flight management system automatic train operation cyber-physical system fire-control computer fire-control director gun laying |
gptkbp:requires |
actuators
sensors control algorithms |
gptkbp:standardizedBy |
gptkb:ISA-95
gptkb:IEC gptkb:IEC_60870 gptkb:IEC_61850 gptkb:NIST gptkb:NIST_SP_800-82 ISA |
gptkbp:studies |
dynamical systems
|
gptkbp:supportsProtocol |
gptkb:IEC_60870-5-104
gptkb:IEC_61850 gptkb:Foundation_Fieldbus gptkb:HART gptkb:Modbus gptkb:OPC gptkb:Profibus gptkb:DNP3 gptkb:BACnet gptkb:Ethernet/IP gptkb:Profinet gptkb:Fieldbus |
gptkbp:threats |
gptkb:BlackEnergy
gptkb:Industroyer gptkb:Sandworm gptkb:Dragonfly gptkb:Stuxnet gptkb:Triton |
gptkbp:type |
fly-by-wire system
hydromechanical flight control system manual flight control system |
gptkbp:usedFor |
controlling industrial processes
monitoring industrial processes |
gptkbp:usedIn |
gptkb:aircraft
gptkb:military gptkb:satellite electric power generation industrial automation manufacturing oil and gas process control water treatment plants ships artillery power generation tanks water treatment naval vessels oil and gas pipelines |
gptkbp:uses |
gptkb:Laplace_transform
feedback partial differential equations actuators controllers mathematical modeling sensors state-space representation frequency domain analysis time domain analysis transfer functions |
gptkbp:vulnerableTo |
cyber attack
|
gptkbp:bfsParent |
gptkb:MCAS_(Maneuvering_Characteristics_Augmentation_System)
gptkb:Ab-Soul gptkb:Advanced_LIGO gptkb:DeltaV_control_systems gptkb:FCS gptkb:Hall-effect_thruster gptkb:Fuzzy_Logic gptkb:mathematical_optimization gptkb:Aegis_Combat_System gptkb:Energy_Storage_System gptkb:Powered_Exoskeleton |
gptkbp:bfsLayer |
5
|