Advanced Robust Control

Course title

6M019300

,7M991700

Course content

The approach based on linear matrix inequality (LMI) is now an important tool in analysis and design of modern control. We will first review some basic modern control theory, and then learn from convex sets, convex functions and proceed to definition of LMIs in control theory. Thereafter, we present the system analysis (focusing on stability) and design (focusing on stabilization and robustness) with LMIs. Numerical simulations are also described and practiced in MATLAB and Simulink.

Purpose of class

The approach based on linear matrix inequality (LMI) is now an important tool in analysis and design of modern control. We will learn from convex sets, convex functions and then proceed to definition of LMIs in control theory. Thereafter, we present the system analysis (focusing on stability) and design (focusing on stabilization and robustness) with LMIs. Numerical simulations are also described and practiced in MATLAB and Simulink.

Goals and objectives

Students can understand basic modern control theory, master the definition of convex sets, convex functions and apply basic idea of convex programming.
Students can understand the definition and properties of LMIs, and perform basic simulation for solving LMIs.
Students can derive and solve LMIs for analysis and design of modern control systems.

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Report 1	Report 2	Total.
1.	30%	10%	40%
2.		30%	30%
3.		30%	30%
Total.	30%	70%	-

Language

English

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1．	Course guidance, history of LMIs in modern control theory	Comparison between classic and modern control	190minutes
2．	State space representation (SSR) of modern control systems	Review of differential equations together with simple mechanical systems and RCLs	190minutes
3．	Solutions of SSR	Review of differential equations and Laplace transform	190minutes
4．	Stability of control systems	Eigenvalues of matrices and system responses (trajectories)	190minutes
5．	Robustness and robust stability of control systems	Review norm of vectors and matrices	190minutes
6．	Review and Report 1 (system modeling, solution and stability)	Review of Week 1-5	190minutes
7．	Convex sets, convex functions, convex programming	Review of functions with one or two variables	190minutes
8．	Definition and properties of LMIs	Review positive (negative) definite properties of symmetric matrices	190minutes
9．	Stability analysis with LMIs	Review stability concept and system behavior	190minutes
10．	Robust stability analysis with LMIs	Preview of system uncertainty and its evaluation	190minutes
11．	LMI based stabilization via state feedback	Review the basic idea of state feedback in control systems	190minutes
12．	LMI based robust stabilization via state feedback (polytopic uncertainties)	Review of convex functions and the definition of polytopic uncertainties with convex sets	190minutes
13．	LMI based robust stabilization via state feedback (norm-bounded uncertainties)	Preview of the definition of bounded uncertainties with matrix norms	190minutes
14．	Review and Report 2	Review of the whole course	190minutes
Total.	-	-	2660minutes

Evaluation method and criteria

Report 1: 30%
Report 2: 70%
-------------------
PASS when reaching 60% of the whole evaluation

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
授業内と授業外でフィードバックを行います。

Textbooks and reference materials

No text books; Will deliver handouts and suggest several reference books

【1】Katsuhiko Ogata: Modern Control Engineering (5th edition), Prentice Hall, 2010

【2】岩崎徹也︓ＬＭＩと制御，昭晃堂，1997 (ISBN 4785690534)

【3】Boyd, Vandenberghe: Convex Optimization, Cambridge University Press, 2004
(http://www.stanford.edu/~boyd/cvxbook/) (ISBN 978-0-521-83378-3)

【4】Boyd, El Ghaoui, Feron, Balakrishnan: Linear Matrix Inequalities in System and Control Theory, SIAM, 1994
(http://www.stanford.edu/~boyd/lmibook/lmibook.pdf) (ISBN 0-89871-334-X)

Prerequisites

Basic knowledge of calculus and linear algebra

Office hours and How to contact professors for questions

12:30--13:00 every Monday

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge
Course that cultivates a basic problem-solving skills

Active-learning course

More than one class is interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
Applicable	Used some of the knowledge and theory with simulation in analysis and design of real plants

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
11.SUSTAINABLE CITIES AND COMMUNITIES
12.RESPONSIBLE CONSUMPTION & PRODUCTION
13.CLIMATE ACTION

Last modified : Wed Feb 21 04:06:55 JST 2024