se 207: modeling and simulation lecture 1: introduction 207_term07… · se 207: modeling and...
TRANSCRIPT
![Page 1: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/1.jpg)
SE 207: Modeling and SimulationUnit 1
Introduction to Modeling and Simulation
Dr. Samir Al-AmerTerm 072
![Page 2: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/2.jpg)
Unit Contents and ObjectivesLesson 1: IntroductionLesson 2: Classification of Systems
Unit 1 Objectives:To give an overview of the course (Modeling & simulation). Define important terminologies Classify systems/models
![Page 3: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/3.jpg)
SE 207: Modeling and SimulationUnit 1
Introduction to Modeling and Simulation
Lecture 1: Introduction
Reading Assignment: Chapter 1 (Sections 1.1, 1.2)
![Page 4: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/4.jpg)
SystemsWhat is a system?
![Page 5: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/5.jpg)
SystemsA system is any set of interrelated components acting together to achieve a common objective.
Definition covers systems of different typesSystems vary in size, nature, function, complexity,…Boundaries of the system is determined by the scope of the studyCommon techniques can be used to treat them
![Page 6: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/6.jpg)
ExamplesBattery
Consists of anode, cathode, acid and other components These components act together to achieve one objective
Car Electrical systemConsists of a battery, a generator, lamps,…achieve a common objective
SAPTCO (transportation company)Consists of Buses, drivers, stations,…Achieves a common objective
The Boundaries of the system is determined by the scope of the study
![Page 7: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/7.jpg)
SystemsA system is any set of interrelated components acting together to achieve a common objective.
inputs system outputs
![Page 8: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/8.jpg)
SystemsInputs (excitations) :
signals that cause changes in the systems variables.Represented by arrows entering the system
Outputs (responses) :measured or calculated variables
Shown as arrows leaving the system
Systems (process)Defined the relationship between the inputs and outputsRepresented by a rectangular box
![Page 9: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/9.jpg)
The choice of inputs/outputs/process depends on the purpose of the study
Some Possible InputsInlet flow rateTemperature of entering materialConcentration of entering material
Some Possible OutputsLevel in the tankTemperature of material in tankOutlet flow rateConcentration of material in tank
What inputs and outputs are needed when we want to model the temperature of the water in the tank?
![Page 10: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/10.jpg)
Modeling and SimulationModeling:
Obtain a set of equations (mathematical model) that describes the behavior of the system
A model describes the mathematical relationship between inputs and outputs
Simulation: Use the mathematical
model to determine the response of the system in different situations.
![Page 11: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/11.jpg)
Falling Ball ExampleA ball falling from a height of 100 meters
We need to determine a mathematical model that describe the behavior of the falling ball.
Objectives of the model: answer these questions:1. When does the ball reach ground?2. What is the impact speed?
Different assumptions results in different models
![Page 12: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/12.jpg)
Falling Ball ExampleCan you list some of the assumptions?
![Page 13: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/13.jpg)
Falling Ball ExampleAssumptions for Model 1
1. Initial position = 100 x(0) = 1002. Initial speed = 0 v(0) = 03. Location: near sea level4. The only force acting on the ball is the
gravitational force (no air resistance)
ttvttx
Solution
8.9)()8.9(5.0100)(
:2
−=−=
0)0(;100)0(
)(;8.9
:
==
=−=
vx
tvdtdx
dtdvModel
![Page 14: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/14.jpg)
Falling Ball ExampleSimulation of Model 1
The ball reaches ground at t = 4.5175 velocity = − 44.2719
![Page 15: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/15.jpg)
Falling Ball ExampleMore models
Other mathematical models are possible. One such model includes the effect of air resistance. Here the drag force is assumed to be proportional to the square of the velocity.
0)0(;100)0(
)(;8.9
:2coeffient drag theis , resistanceair
2
2
==
=+−=
=
vx
tvdtdxv
mc
dtdvModel
cwherecv
![Page 16: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/16.jpg)
How far can this stunt driver jump?
List some assumptions for solving this problem
![Page 17: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/17.jpg)
Stunt driverAssumptions:
Point mass Mass of car+driver =MInitial speed = v0
Angle of inclination =aNo drag force
Model can be obtained to give the distance covered by the jump in terms of M,a, v0,…
![Page 18: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/18.jpg)
How do we obtain mathematical models?Modeling
(Theoretical)Construct a simplified version using idealized elementsWrite element lawsWrite interaction lawsCombine element laws and interaction laws to obtain the model
Identification(Experimental)Conduct an experimentCollect dataFit data to a modelVerify the model
![Page 19: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/19.jpg)
Force on the car driverWhat is the force acting on the driver when the car moves over a rough surface?Input: the shape of the roadOutput: force acting on the driverSystem model:describes the relation between input and output.
![Page 20: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/20.jpg)
Modeling Using Idealized ElementsA simplified representation of the car by idealized elementsSelect relevant variablesWrite element lawsWrite interaction lawsObtain the model
Wheel axel
chassis
seat
driver
![Page 21: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/21.jpg)
What is covered in this courseModeling of Systems
Idealized Elements (mechanical & electrical) Element lawsInteraction lawsObtaining the model
Solution of the ModelAnalytic solution using Laplace transform Simulation using SIMULINK
![Page 22: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/22.jpg)
SummarySystems: set of components, achieve common objective
Inputs: signals affecting the systemOutputs: measured or calculated variables Process: relating input and output
Modeling: Derive mathematical description of system
Simulation: solving the mathematical model
Examples of modeling and simulationTopics covered in the course
![Page 23: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/23.jpg)
SE 207: Modeling and SimulationUnit 1
Introduction to Modeling and Simulation
Lecture 2: Classification of systems
Reading Assignment: Chapter 1
![Page 24: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/24.jpg)
Classification of SystemsSystems can be classified based on different criteria
Spatial characteristics: lumped & distributed Continuity of the time variable:continuous & discrete-time & hybridQuantization of dependent variable: Quantized & Non-quantized Parameter variation: time varying & fixed (time-invariant) Superposition principle: linear & nonlinear
![Page 25: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/25.jpg)
Continuity of time variable
t tt0 t1 t2
Continuous-time SignalThe signal is defined for all t in an interval [ti, tf]
Discrete-time Signal
The signal is defined for a finite number of time points {t0, t1,…}
![Page 26: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/26.jpg)
Give ExamplesGive examples of
continuous time signal
Discrete time signal
![Page 27: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/27.jpg)
Examples of signals
t tt0 t1 t2
Temperature Sensor that provides Continuous reading of the temperature
temperature
Digital Temperature Sensor that provides reading of the temperature every 30 Seconds
![Page 28: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/28.jpg)
Classification of Signals
Continuous-time,nonquantized
(Analog signal)Discrete-time,nonquantized
Continuous-time,quantized Discrete-time,quantized
(Digital Signal)
![Page 29: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/29.jpg)
Classification of Signals and Systems
Classification of Signals
Classification of Systems
![Page 30: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/30.jpg)
Classification of SystemsSystems are classified based on
• Spatial Characteristics (physical dimension,size)
• Continuity of time
• Linearity
• Time variation
• Quantization of variables
![Page 31: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/31.jpg)
Spatial CharacteristicsLumped Models:Lumped models are obtained by ignoring the physical dimensions of the system.
• A mass is replaced by its center of mass (a point of zero radius)
• The temperature of a room is measured at a finite number of points.
• Lumped models can be described by a finite set of state variables.
Distributed Models:• Dimensions of the system is considered
• Can not be described by a finite set of state variables.
![Page 32: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/32.jpg)
Spatial Characteristics
Lumped Models:• Only one independent variable ( t )
• No dependence on the spatial coordinates
• Modeled by ordinary differential equations
• Needs a finite number of state variables
Distributed Models:• More than one independent variable
• Depends on on the spatial coordinates or some of them.
• Modeled by partial differential equations
• Needs an infinite number of state variables
![Page 33: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/33.jpg)
QuestionsGive examples of
Distributed modelsLumped models
![Page 34: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/34.jpg)
Continuity of timeContinuous Systems:The input, the output and state variables are defined over a range of time.
Discrete Systems:The input, the output and state variables are defined for t={t0,t1,t2,….}. For other values of t, they are either undefined or they are of no interest.
Hybrid Systems:Contains both continuous-time and discrete time subsystems
![Page 35: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/35.jpg)
Quantization of the Dependant VariableQuantized variable: The variable is restricted to a finite or countable number of distinct values
Non-Quantized variable: The variable can assume any value within a continuous range.
![Page 36: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/36.jpg)
Classification of Signals
Continuous-time,nonquantized
(Analog signal)Discrete-time,nonquantized
Discrete-time,quantized
(Digital Signal)Continuous-time,quantized
![Page 37: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/37.jpg)
QuestionsGive examples of
Continuous signalContinuous systemDiscrete signalDiscrete system
![Page 38: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/38.jpg)
Parameter VariationsSystems can be classified based on the properties of their parameters
Time-Varying Systems
Characteristics changes with time. Some of the coefficients of the model change with time
Time-Invariant Systems
Characteristics do not change with time.
The coefficients are constants
![Page 39: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/39.jpg)
LinearityA system is linear if it satisfies the super positionprinciple. A system satisfies the superposition principle if the following conditions are satisfied:
1. Multiplying the input by any constant, multiplies the output by the same constant.
2. The response to several inputs applied simultaneously is the sum of individual response to each input applied separately.
![Page 40: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/40.jpg)
Linearity
)()(3)()(2)(
dt u(t) y(t)
2
2
0
tutytdt
tdytutty
=+
=
= ∫
u(t) y(t)
Examples of Linear Systems Examples of Nonlinear Systems
)()()()()(2)(
dt (t)u y(t)2
0
2
tutytudt
tdytutty
=+
=
= ∫
![Page 41: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/41.jpg)
LinearityExample of linear systems
∫ ∫
∫∫
∫∫
∫∫
==⇒=
+=+=
+==
+=
==
2
0
2
0111
21
2
02
2
01
2
021
2
0
21
2
022
2
011
(t)dtu(t)dtuky(t)(t)uu(t)
(t)y(t)ydt (t)u(t)dtu
]dt (t)u(t)[udt u(t) y(t)
(t)u(t)uu(t)
dt (t)u (t)y,dt (t)u (t)y
kk
Both conditions
are satisfied
u(t) y(t)
![Page 42: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/42.jpg)
LinearityExample of non-linear systems
(t)y(t)y general (t)y(t)ut2(t)ut2u(t)
u(t),(t)ut2 (t)y
11
111
1
11
−≠
==−=
−=
=
In
(t)u
If the input is multiplied by (-1) the output remains unchanged. This system is nonlinear
u(t) y(t)
![Page 43: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/43.jpg)
Classification of SystemsSpatial characteristics lumped distributed
Continuity of the time variable
continuous discrete-time hybrid
Parameter variation Fixed (time-invariant)
time varying
Quantization of dependent variable
QuantizedNon-Quantized
Superposition principle linear nonlinear
![Page 44: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/44.jpg)
KeywordsStatic modelDynamic modelQuantized variableNon-QuantizedSuper position principleSpatial characteristicsAnalog signalDigital signalIdealized elementSystem
Linear modelNonlinear modelContinuousDiscreteHybridFixedTime-invariantTime-varyingLumpedDistributedInputOutput Process
![Page 45: SE 207: Modeling and Simulation Lecture 1: Introduction 207_Term07… · SE 207: Modeling and Simulation Unit 1 Introduction to Modeling and Simulation Dr. Samir Al-Amer Term 072](https://reader030.vdocuments.us/reader030/viewer/2022040916/5e8e90f16ca1bc06f40ba5c9/html5/thumbnails/45.jpg)
SummaryClassification of signals
Continuous, discrete, quantized, non-quantizedClassification of Systems
Continuous-time systems, discrete-time systemsHybrid systemsLinear systems, nonlinear systemsTime-varying, time-invariant,