Description
This book contains a comprehensive coverage of the subject ranging from conventional control to modern control including non-linear control, digital control systems and applications of fuzzy logic. Emphasis has been laid on the pedagogical aspects of the subject. Table Of ContentsFundamentals of control systemsRevision of Laplace transform and matrix algebraTransfer functionControl system componentsMathematical modelling of physical systemsBlock diagramsSignal-flow graphsTime domain analysis of control systemsFeedback characteristics of control systemsStabilityRoot locus methodFrequency domain analysisBode plotPolar plotNyquist plotCompensatorsState variable approachDigital control systemsNon-linear control systemsSalient FeaturesFrequency domain design methods using Root Locus Technique, Bode/Polar/Nyquist PlotDetailed chapter on Digital ControlComputer aided learning environment thoroughly tested MATLAB programs with outputAppendix on Fuzzy Logic and MATLAB fundamentals242 solved numerical problems250 multiple-choice questions373 practice problems with answers
This book contains a comprehensive coverage of the subject ranging from conventional control to modern control including non-linear control, digital control systems and applications of fuzzy logic. Emphasis has been laid on the pedagogical aspects of the subject. Table Of ContentsFundamentals of control systemsRevision of Laplace transform and matrix algebraTransfer functionControl system componentsMathematical modelling of physical systemsBlock diagramsSignal-flow graphsTime domain analysis of control systemsFeedback characteristics of control systemsStabilityRoot locus methodFrequency domain analysisBode plotPolar plotNyquist plotCompensatorsState variable approachDigital control systemsNon-linear control systemsSalient FeaturesFrequency domain design methods using Root Locus Technique, Bode/Polar/Nyquist PlotDetailed chapter on Digital ControlComputer aided learning environment thoroughly tested... Read More