Lectures related to Nonlinear Analysis of Structures

Zero-stability and absolute-stability

Explores zero-stability and absolute-stability in numerical methods, including Forward Euler, Backward Euler, Crank-Nicolson, and Heun's methods.

Numerical Analysis: Stability in ODEs

Covers the stability analysis of ODEs using numerical methods and discusses stability conditions.

System of ODEs

Explores numerical methods for solving ODE systems, stability regions, and absolute stability importance.

Structures and Mechanisms: Static (Rigid) Structures

Covers the analysis of static (rigid) structures, including equilibrium and free-body diagrams.

Numerical Methods: Euler and Crank-Nicolson

Covers Euler and Crank-Nicolson methods for solving differential equations.

Error Estimation in Numerical Methods

Explores error estimation in numerical methods for solving ordinary differential equations, emphasizing the impact of errors on solution accuracy and stability.

Advanced Numerical Analysis: Space Discretization

Explores advanced space discretization techniques in numerical analysis for solving differential systems efficiently and accurately.

Euler Backward Method: ODEs

Explores the Euler backward method for ODEs, discussing stability, error reduction, and implicit vs explicit methods.

Numerical Methods: Runge-Kutta Approximation

Covers the Runge-Kutta method for approximating solutions of differential equations.

Nonlinear Analysis of Structures

Explores the nonlinear analysis of structures, covering stiffness formulations, typical behavior under loading, and empirical equations for steel and concrete components.

Nonlinear Analysis of Structures: Model Fidelities & Plasticity

Introduces model fidelities, plastic hinges, and concentrated plasticity in nonlinear structural analysis.

Finite Element Analysis: Advanced Mechanisms in Engineering

Provides an overview of advanced mechanisms analysis using Finite Element Method and Finite Element Analysis in engineering applications.

Explicit Stabilised Methods: Applications to Bayesian Inverse Problems

Explores explicit stabilised Runge-Kutta methods and their application to Bayesian inverse problems, covering optimization, sampling, and numerical experiments.

Diffusion-Convection: Modeling and Schemes

Covers modeling and numerical schemes for diffusion-convection problems.

Explicit Stabilised Methods: Stochastic Differential Equations

Covers explicit stabilized methods for stiff stochastic differential equations, analyzing their properties and applications.

Space Trusses & Frames

Covers space trusses, frames, and machines, emphasizing equilibrium analysis and structural design principles.

Transition to Smart Cities: Complexity and Interdependencies

Delves into the complexity and interdependencies of transitioning to smart cities, emphasizing the importance of a holistic approach.

The Wrong Method: Polynomial Interpolation

Explores the inefficiencies of the incorrect method for polynomial interpolation.

Ordinary Differential Equations: Methods and Applications

Explores ordinary differential equations and numerical integration methods for stability and accuracy.

Nonlinear Analysis of Structures

Covers flexibility-based fiber beam-column elements and force-based elements for nonlinear structural analysis, including section flexibilities, stiffness matrices, and residual forces.