381dp321: digital signal processing last update on august 27, 2014 doug young suh [email protected]...

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381DP321: Digital Signal Processing Last update on August 27, 2014 Doug Young Suh [email protected] 03/16/22

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381DP321: Digital Signal Processing

Last update on August 27, 2014

Doug Young [email protected]

04/21/23

Class materials

Class material download Webdisk.khu.ac.kr ~/note Guest login UN: 006187 PW: dsp2014

Class hour: TTH10:30-11:45 Rm???

First noteHaykin_ch1_RB.ppt

MeetingBillboard meeting

http://cmm.khu.ac.kr signals & systems I welcome your questions.

Face-to-face meeting ITSD Building Incubator 5 020-5436-4451 [email protected]

Facebook?doug young suhClan:

Textbook and grading policy Oppenheim and Schafer “Discrete-time Signal Processing 2ed.”

Chapter 1~4 with right brain Chapter 1. Introduction Chapter 2. Discrete-time Signals and Systems Chapter 3. The Z transform Chapter 4. Sampling of Continuous-time Signals Chapter 5. Transform Analysis of LTI Systems

3 Quizes (70%) : 20% + 20% + 30% 3 Homeworks(20%) : C/C++ programming Attendance (10%)

Oppenheim(MIT)The founder of the DSP field

Schafer(Ga.Tech) Mercereau(Ga.Tech)

Doug Young Suh(KHU)

DSP Family

04/21/23 Media Lab. Kyung Hee University 5

Ph.D.Ph.D.

Ph.D.Ph.D.Committee

You in DSP321

C/C++ Homework Modifying well-proven programs

Webdisk.khu.ac.kr Guest login UN: 006187 PW: dsp2014

Refer to *.doc and *.avi files. Full 10 points if you submit

Bonus to better idea Bonus to better mathematical analysis

Do not include whole C-source Several lines are OK.

Filename “921team_name.doc”

The Billboardhttp://cmm.khu.ac.krIn the spirit of Web2.0Wikipedia vs. BritannicaLet’s enhance quality of our class

all together!!

Digital signal processing?

Signal Processing

signal

signal

Pattern Recognition

signal

information

CG orTTS

information

signal

381DP321 Digital signal processing(3-0-0): Basic of digital signal processing such as signal and signal processing, structure of signal processing, good point and weak point of digital signal processing. Random theory and signal reconstruction, Indicated characteristics of time for non continuous signal and system, Fourier transform, structure of digital filler and Finite Impulse Response (FIR) filter and Infinite Impulse Response (IIR) filter.

Related subjects

381DP321: Digital Signal Processing

381PC111Principles of communication System

381DC221 Data Communications

Mobile communications

Image processing

381CE321Control System

Engineering

381CT111Circuit Theory I

381MA211: Mathematics for computer 381MA101-2 Mathematics I-II

381MA101 Mathematics I: Limits, Continuity. Derivatives of functions defined by graphs, tables and formulas. Differencing power, polynomial, exponential, trigonometric, logarithmic, inverse trigonometric functions and differentiation. Differentiation rules: product rule, quotient rule, chain rule, etc. Indeterminate form. In functions defined by graphs, tables and formulas. Fundamental theorem of calculus. Parameterized curves. Optimization. Techniques of integration. Improper integrals. Convergence and divergence of Numerical methods of integration. Applications of integration. First and second order linear constant coefficient homogeneous and inhomogeneous differential equations. Approximation of functions by means of polynomials. Mathematical Induction. Sequences. Series. Taylor series. Power series. Fourier series.

381MA102 Mathematics II: (Prerequisite: 381MA101 Mathematics1): Introduction to Multivariable Calculus. Polar coordinates. Analysis of functions of several variables, vector valued functions, partial derivatives, and multiple integrals. Vector analysis. Optimization techniques, parametric equations, line integrals, surface integrals and major theorems concerning their applications: Green’s Theorem, Divergence Theorem, Gauss Theorem, Stokes Theorem, etc. Complex Variable. Functions of a complex variable. Derivatives and Cauchy-Riemann equations. Integrals and Cauchy integral theorem. Power and Laurent Series. Residue theory. Conformal mapping and applications. Fourier series.

381MA211: Mathematics for computer (Prerequisite: 381MA102 Mathematics2) : Systems of linear equations and solutions. Introduction to vector product space, bases, orthonormal bases and applications in Fourier series, Laplace transformation, z-transformation, Fourier-transformation, etc. Matrices a root and Eigen-functions. First order differential equations: modeling equations. Higher order linear ordinary differential equations: Solution base problems. Linear system of first order differential equations with constant eigenvalue method of solution. Numerical solution of initial value problems for Difference equations and finite difference solutions. Engineering applications.

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