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Mod-01 Lec-01 Introduction, Motivation and Overview

Mod-01 Lec-02 Overview of SS Approach and Matrix Theory

Mod-01 Lec-03 Review of Numerical Methods

Mod-02 Lec-04 An Overview of Static Optimization -- I

Mod-02 Lec-05 An Overview of Static Optimization -- II

Mod-03 Lec-06 Review of Calculus of Variations -- I

Mod-03 Lec-07 Review of Calculus of Variations -- II

Mod-03 Lec-08 Optimal Control Formulation Using Calculus of Variations

Mod-04 Lec-09 Classical Numerical Methods to Solve Optimal Control Problems

Mod-05 Lec-10 Linear Quadratic Regulator (LQR) -- I

Mod-05 Lec-11 Linear Quadratic Regulator (LQR) -- II

Mod-05 Lec-12 Linear Quadratic Regulator (LQR) -- III

Mod-05 Lec-13 Linear Quadratic Regulator (LQR) -- III

Mod-06 Lec-14 Discrete-time Optimal Control

Mod-07 Lec-15 Overview of Flight Dynamics -- I

Mod-07 Lec-16 Overview of Flight Dynamics -- II

Mod-07 Lec-17 Overview of Flight Dynamics -- III

Mod-08 Lec-18 Linear Optimal Missile Guidance using LQR

Mod-09 Lec-19 SDRE and θ -- D Designs

Mod-10 Lec-20 Dynamic Programming

Mod-10 Lec-21 Approximate Dynamic Progr (ADP),Adaptive Critic (AC)

Mod-11 Lec-22 Transcription Method to Solve Optimal Control Problems

Mod-11 Lec-23 Model Predictive Static Programming (MPSP) and Optimal Guidance of Aerospace Vehicles

Mod-11 Lec-24 MPSP for Optimal Missile Guidance

Mod-11 Lec-25 Model Predictive Spread Control (MPSC) and Generalized MPSP (G-MPSP) Designs

Mod-12 Lec-26 Linear Quadratic Observer & An Overview of State Estimation

Mod-12 Lec-27 Review of Probability Theory and Random Variables

Mod-12 Lec-28 Kalman Filter Design -- I

Mod-12 Lec-29 Kalman Filter Design -- II

Mod-12 Lec-30 Kalman Filter Design -- III

Mod-13 Lec-31 Integrated Estimation, Guidance & Control -- I

Mod-13 Lec-32 Integrated Estimation, Guidance & Control -- II

Mod-14 Lec-33 LQG Design; Neighboring Optimal Control & Sufficiency Condition

Mod-15 Lec-34 Constrained Optimal Control -- I

Mod-15 Lec-35 Constrained Optimal Control -- II

Mod-15 Lec-36 Constrained Optimal Control -- III

Mod-16 Lec-37 Optimal Control of Distributed Parameter Systems -- I

Mod-16 Lec-38 Optimal Control of Distributed Parameter Systems -- II

Mod-17 Lec-39 Take Home Material: Summary -- I

Mod-17 Lec-40 Take Home Material: Summary -- I

Description:

Delve into the comprehensive world of optimal control, guidance, and estimation in this extensive course. Explore fundamental concepts like state-space approach, matrix theory, and numerical methods before diving into static optimization and calculus of variations. Master the Linear Quadratic Regulator (LQR) and its applications in flight dynamics and missile guidance. Investigate advanced topics such as discrete-time optimal control, dynamic programming, and adaptive critic designs. Learn about transcription methods, Model Predictive Static Programming (MPSP), and their applications in aerospace vehicle guidance. Study state estimation techniques, including Kalman filter design and integrated estimation, guidance, and control systems. Examine constrained optimal control and the optimal control of distributed parameter systems. Gain practical knowledge through numerous lectures covering theoretical foundations and real-world applications in aerospace engineering and control systems.

Optimal Control, Guidance and Estimation

NPTEL

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#Engineering #Aerospace Engineering #Electrical Engineering #Signal Processing #Kalman Filter #Computer Science #Algorithms #Dynamic programming #Mathematics #Applied Mathematics #Numerical Methods #Mathematical Analysis #Calculus of Variation