2018 Theory of Linear System

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Academic unit or major
Undergraduate major in Transdisciplinary Science and Engineering
Instructor(s)
Obara Toru  Yamashita Yukihiko  Takagi Hiroshi  Tsutsui Hiroaki  Bin Abdul Aziz Azril Haniz 
Course component(s)
Lecture / Exercise
Day/Period(Room No.)
Tue7-8(S513)  Fri1-2(S513)  
Group
-
Course number
TSE.M203
Credits
2
Academic year
2018
Offered quarter
3Q
Syllabus updated
2018/6/26
Lecture notes updated
-
Language used
Japanese
Access Index

Course description and aims

The purpose of this course is to learn how to handle complex numbers and their functions, the concept of frequency, and the theory of linear systems necessary for analyzing these systems, which are important in the study of engineering.

Student learning outcomes

To learn the basics of linear algebra, the function of complex numbers, Fourier transform, Laplace transform, z-transform, theory to model systems and to understand linear circuits and the basis of control theory.

Keywords

Determinant, eigenvalue, eigenvector, function of complex numbers, Cauchy-Riemann equations, Taylor series, Laurant series, pole, Fourier expansion, Fourier transform, Laplace transform, discrete time Fourier transform, discrete Fourier transform, z-transform, continuous time system, discrete time system, controllability, observability, and stability.

Competencies that will be developed

Intercultural skills Communication skills Specialist skills Critical thinking skills Practical and/or problem-solving skills
- - - -

Class flow

Lecture and Practice

Course schedule/Required learning

  Course schedule Required learning
Class 1 Determinant Calculation of determinant
Class 2 Eigen value and eigen vector Calculation with eigen value and eigen vector
Class 3 Function of complex numbers Calculation with functions of complex numbers
Class 4 Analytic functions and Cauchy-Riemann equation Calculation with analytic functions and Cauchy-Riemann equation
Class 5 Integral of function of complex numbers Calculation with integral of function of complex numbers
Class 6 Taylor series, Laurent series, pole, singular point, and residue equation Calculation with Taylor series, Laurent series, pole, singular point, and residue equation
Class 7 Fourier series Calculation of Fourier series
Class 8 Fourier transform Calculation of Fourier transform
Class 9 Laplace transform Calculation of Laplace transform
Class 10 Laplace inverse transform Calculation of Laplace inverse transform
Class 11 Modeling of continuous time system Modeling a continuous time system
Class 12 Analysis of continuous time system Analysis of a continuous time system
Class 13 Feedback control Calculation of Feedback control
Class 14 Controllability, observability, and stability Judgement of controllability, observability, and stability
Class 15 Transformation of discrete time function Calculation of transformation of discrete time function

Textbook(s)

Hwei P. Hsu, "Signals and Systems"

Reference books, course materials, etc.

None in particular

Assessment criteria and methods

Evaluated based on the final examination and reports.

Related courses

  • TSE.M201 : Ordinary Differential Equations and Physical Phenomena

Prerequisites (i.e., required knowledge, skills, courses, etc.)

None in particular

Other

Syllabus will be changed at any time.

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