NOC:Principles of Vibration Control


Lecture 1 - Introduction to Vibration control


Lecture 2 - Strategies and Steps in Vibration Control


Lecture 3 - Strategies, Active control, Detuning and Decoupling


Lecture 4 - Viscous damping model


Lecture 5 - Coulomb and Hysteretic damping model


Lecture 6 - Energy Dissipation in Structural Materials


Lecture 7 - Material Selection Criterion against Damping


Lecture 8 - Design for Enhanced Material Damping


Lecture 9 - Linear Viscoelastic Materials and Models


Lecture 10 - Maxwell and 3-Parameter Models


Lecture 11 - Complex modulus and Applications of VEM


Lecture 12 - Basics of Dynamic Vibration Absorber


Lecture 13 - Modelling of Dynamic Vibration Absorber


Lecture 14 - Proof mass Actuator


Lecture 15 - Springs for Vibration Isolation


Lecture 16 - Introduction to Active Vibration Control


Lecture 17 - Basics of Classical Control System


Lecture 18 - Basics of State Space Control


Lecture 19 - Controllability and Observability of System


Lecture 20 - Full State Feedback Control


Lecture 21 - SMSS Laboratory Demonstration