Presentation is loading. Please wait.

Presentation is loading. Please wait.

Discrete-time Systems Prof. Siripong Potisuk. Input-output Description A DT system transforms DT inputs into DT outputs.

Published byMatilda Floyd Modified over 8 years ago

Similar presentations

Presentation on theme: "Discrete-time Systems Prof. Siripong Potisuk. Input-output Description A DT system transforms DT inputs into DT outputs."— Presentation transcript:

1 Discrete-time Systems Prof. Siripong Potisuk

2 Input-output Description A DT system transforms DT inputs into DT outputs

3 System Interconnection - Build more complex systems - Modify response of a system

4 Examples of Systems Second Difference

5 Moving Average

6 Linear Time Invariance (LTI) A system is time-invariant if the behavior and characteristics of the system are fixed over time.

7

8 Response of an LTI System

9

10

11 (Also referred to as Impulse response)

12

13

14 Properties of Convolution Sum A discrete-time LTI system is completely characterized by its impulse response, i.e., completely determines its input-output behavior.  There is only one LTI system with a given h[n] The role of h [n] and x [n] can be interchanged Commutative Property

15 The Distributive Property is equivalent to

16 The Associative Property is equivalent to

17 Causality

18 - The impulse response of a causal LTI system must be zero before the impulse occurs. - Causality for a linear system is equivalent to the condition of initial rest. Stability for LTI Systems: A necessary and sufficient condition for an LTI system to be BIBO stable is that the impulse response is absolutely summable. Causality for LTI Systems:

19 Time-domain Description of DT LTI Systems A general Nth-order linear constant-coefficient difference equation Recursive equation, i.e., expresses the output at time n in terms of previous values of the input and output

20 Solutions of LCCDE’s - The complete solution depends on both the causal input x[n] and the initial conditions, y[-1], y[-2],……, y[-N ]. - The solution can be decomposed into a sum of two parts:

21 Finite Impulse Response (FIR) The equation is nonrecursive, i.e., previously computed values of the output are not used to recursively compute the present value of the output. The impulse response is seen to have finite duration and given by

22 Infinite Impulse Response (IIR) If the system is initially at rest, the impulse response will have infinite duration.

23 Example Consider the difference equation

Download ppt "Discrete-time Systems Prof. Siripong Potisuk. Input-output Description A DT system transforms DT inputs into DT outputs."

Similar presentations

Signals and Systems – Chapter 2

Signals and Systems – Chapter 2
Digital Signal Processing – Chapter 11 Introduction to the Design of Discrete Filters Prof. Yasser Mostafa Kadah

Digital Signal Processing – Chapter 11 Introduction to the Design of Discrete Filters Prof. Yasser Mostafa Kadah
Discrete-Time Linear Time-Invariant Systems Sections

Discrete-Time Linear Time-Invariant Systems Sections
16.362 Signal and System I Causality ROC for n < 0 causal All z -n terms, not include any z terms If and only if ROC is exterior of a circle and include.

Signal and System I Causality ROC for n < 0 causal All z -n terms, not include any z terms If and only if ROC is exterior of a circle and include.
AMI 4622 Digital Signal Processing

AMI 4622 Digital Signal Processing
Lecture 4: Linear Systems and Convolution

Lecture 4: Linear Systems and Convolution
DT systems and Difference Equations Monday March 22, 2010

DT systems and Difference Equations Monday March 22, 2010
EE-2027 SaS, L11 1/13 Lecture 11: Discrete Fourier Transform 4 Sampling Discrete-time systems (2 lectures): Sampling theorem, discrete Fourier transform.

EE-2027 SaS, L11 1/13 Lecture 11: Discrete Fourier Transform 4 Sampling Discrete-time systems (2 lectures): Sampling theorem, discrete Fourier transform.
Lecture 6: Linear Systems and Convolution

Lecture 6: Linear Systems and Convolution
Frequency Response of Discrete-time LTI Systems Prof. Siripong Potisuk.

Frequency Response of Discrete-time LTI Systems Prof. Siripong Potisuk.
Signals and Systems Lecture #5

Signals and Systems Lecture #5
Discrete-Time Convolution Linear Systems and Signals Lecture 8 Spring 2008.

Discrete-Time Convolution Linear Systems and Signals Lecture 8 Spring 2008.
Discrete-time Systems Prof. Siripong Potisuk. Input-output Description A DT system transforms DT inputs into DT outputs.

Discrete-time Systems Prof. Siripong Potisuk. Input-output Description A DT system transforms DT inputs into DT outputs.
Analysis of Discrete Linear Time Invariant Systems

Analysis of Discrete Linear Time Invariant Systems
Digital Signals and Systems

Digital Signals and Systems
1 Signals & Systems Spring 2009 Week 3 Instructor: Mariam Shafqat UET Taxila.

1 Signals & Systems Spring 2009 Week 3 Instructor: Mariam Shafqat UET Taxila.
Chapter 2: Discrete time signals and systems

Chapter 2: Discrete time signals and systems
CE Digital Signal Processing Fall 1992 Z Transform

CE Digital Signal Processing Fall 1992 Z Transform
EE3010 SaS, L7 1/19 Lecture 7: Linear Systems and Convolution Specific objectives for today: We’re looking at continuous time signals and systems Understand.

EE3010 SaS, L7 1/19 Lecture 7: Linear Systems and Convolution Specific objectives for today: We’re looking at continuous time signals and systems Understand.
Time Domain Representation of Linear Time Invariant (LTI).

Time Domain Representation of Linear Time Invariant (LTI).

Similar presentations

Ads by Google