Statements (50)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
Control System
|
| gptkbp:analyzes |
time-invariant systems
|
| gptkbp:appliesTo |
aerospace engineering
electrical engineering mechanical engineering |
| gptkbp:basedOn |
gptkb:superposition_principle
gptkb:Nyquist_stability_criterion partial differential equations mathematical modeling impulse response frequency response methods Bode stability criterion Routh-Hurwitz criterion convolution integral stability criteria system linearization |
| gptkbp:compatibleWith |
state-space representation
|
| gptkbp:contrastsWith |
Modern Control Systems
|
| gptkbp:focusesOn |
linear systems
|
| gptkbp:historicallyDeveloped |
before 1960s
|
| https://www.w3.org/2000/01/rdf-schema#label |
Classical Control Systems
|
| gptkbp:limitation |
cannot handle nonlinear systems
cannot handle time-varying systems limited to SISO systems |
| gptkbp:partOf |
engineering curriculum
|
| gptkbp:studies |
feedback
stability closed-loop systems open-loop systems steady-state response system poles system zeros transient response |
| gptkbp:taughtAt |
undergraduate engineering courses
|
| gptkbp:uses |
gptkb:Laplace_transform
gptkb:Bode_plot gptkb:Nyquist_plot gptkb:PID_controller block diagrams transfer function frequency response root locus frequency domain analysis time domain analysis derivative controller integral controller lead-lag compensator proportional controller |
| gptkbp:bfsParent |
gptkb:Fuzzy_Control_Systems
|
| gptkbp:bfsLayer |
6
|