fuzzy logic control lect 5 fuzzy logic control basil hamed electrical engineering islamic university...
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Fuzzy Logic Control
Lect 5 Fuzzy Logic ControlBasil Hamed
Electrical Engineering Islamic University of Gaza
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Content
• Classical Control• Fuzzy Logic Control• The Architecture of Fuzzy Inference Systems• Fuzzy Control Model
– Mamdani Fuzzy models– Larsen Fuzzy Models– Sugeno Fuzzy Models– Tsukamoto Fuzzy models
• Examples
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CONVENTIONAL CONTROL
• Closed-loop control takes account of actual output and compares this to desired output
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Measurement
DesiredOutput
+-
ProcessDynamics
Controller/Amplifier
OutputInput
• Open-loop control is ‘blind’ to actual output
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Digital Control System Configuration
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CONVENTIONAL CONTROL
Example: design a cruise control systemAfter gaining an intuitive understanding of the plant’s dynamics and establishing the design objectives, the control engineer typically solves the cruise control problem by doing the following:1. Developing a model of the automobile dynamics (which may model vehicle and power train dynamics, tire and suspension dynamics, the effect of road grade variations, etc.).2. Using the mathematical model, or a simplified version of it, to design a controller (e.g., via a linear model, develop a linear controller with techniques from classical control).
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CONVENTIONAL CONTROL
3. Using the mathematical model of the closed-loop systemand mathematical or simulation-based analysis to study its performance (possibly leading to redesign).
4. Implementing the controller via, for example, a microprocessor, and evaluating the performance of the closed-loop system (again, possibly leading to redesign).
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CONVENTIONAL CONTROL
Mathematical model of the plant:– never perfect– an abstraction of the real system– “is accurate enough to be able to design a controller that will work.”!– based on a system of differential equations
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Fuzzy Control
Fuzzy control provides a formal methodology for representing, manipulating, and implementing a human’s heuristic knowledge about how to control a system.
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Fuzzy Systems
Fuzzy Knowledge base
Input FuzzifierInferenceEngine
Defuzzifier Output
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Fuzzy Control Systems
Fuzzy Knowledge base
FuzzifierInferenceEngine
Defuzzifier Plant Output
Input
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Fuzzy Logic Control• Fuzzy controller design consist of turning
intuitions, and any other information about how to control a system, into set of rules.
• These rules can then be applied to the system.
• If the rules adequately control the system, the design work is done.
• If the rules are inadequate, the way they fail provides information to change the rules.
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Components of Fuzzy system
• The components of a conventional expert system and a fuzzy system are the same.
• Fuzzy systems though contain `fuzzifiers’.– Fuzzifiers convert crisp numbers into fuzzy
numbers,• Fuzzy systems contain `defuzzifiers',
– Defuzzifiers convert fuzzy numbers into crisp numbers.
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Conventional vs Fuzzy system Components of a ...conventional expert fuzzysystem system
knowledgemodel
physicaldevice
precise
value
physicaldevice
fuzzymodel
valuefuzzy
valuefuzzy
precise
value
precise
precise
value
value
fuzzifier
defuzzifier
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In order to process the input to get the output reasoning there are six steps involved in the creation of a rule based fuzzy system:
1. Identify the inputs and their ranges and name them.
2. Identify the outputs and their ranges and name them.
3. Create the degree of fuzzy membership function for each input and output.
4. Construct the rule base that the system will operate under
5. Decide how the action will be executed by assigning strengths to the rules
6. Combine the rules and defuzzify the output
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Fuzzy Logic Control
Type of Fuzzy Controllers:• Mamdani• Larsen• TSK (Takagi Sugeno Kang)• Tsukamoto• Other methods
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Fuzzy Control Systems
Mamdani
Fuzzy models
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Mamdani Fuzzy models
• The most commonly used fuzzy inference technique is the so-called Mamdani method.
• In 1975, Professor Ebrahim Mamdani of London University built one of the first fuzzy systems to control a steam engine and boiler combination.
Original Goal: Control a steam engine & boiler combination by a set of linguistic control rules obtained from experienced human operators.
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Mamdani fuzzy inference
The Mamdani-style fuzzy inference process is performed in four steps:
1. Fuzzification of the input variables,
2. Rule evaluation;
3. Aaggregation of the rule outputs, and finally
4. Defuzzification.
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Operation of Fuzzy System
Crisp Input
Fuzzy Input
Fuzzy Output
Crisp Output
Fuzzification
Rule Evaluation
Defuzzification
Input Membership Functions
Rules / Inferences
Output Membership Functions
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Inference Engine
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Fuzzy Knowledge base
Fuzzy Knowledge base
I nput FuzzifierI nference
EngineDefuzzifier OutputI nput Fuzzifier
I nferenceEngine
Defuzzifier Output
Using If-Then type fuzzy rules converts the fuzzy input to the fuzzy output.
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We examine a simple two-input one-output problem that includes three rules:
Rule: 1 Rule: 1IF x is A3 IF project_funding is adequateOR y is B1 OR project_staffing is smallTHEN z is C1 THEN risk is low
Rule: 2 Rule: 2IF x is A2 IF project_funding is marginalAND y is B2 AND project_staffing is largeTHEN z is C2 THEN risk is normal
Rule: 3 Rule: 3IF x is A1 IF project_funding is inadequateTHEN z is C3 THEN risk is high
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Step 1: Fuzzification■ Take the crisp inputs, x1 and y1 (project funding and
project staffing)■ Determine the degree to which these inputs belong to
each of the appropriate fuzzy sets.
Crisp Inputy1
0.1
0.71
0y1
B1 B2
Y
Crisp Input
0.20.5
1
0
A1 A2 A3
x1
x1 X
(x = A1) = 0.5
(x = A2) = 0.2
(y = B1) = 0.1
(y = B2) = 0.7
project funding project staffing
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Step 2: Rule Evaluation• take the fuzzified inputs, (x=A1) = 0.5, (x=A2) = 0.2, (y=B1)
= 0.1 and (y=B2) = 0.7
• apply them to the antecedents of the fuzzy rules.
• If a given fuzzy rule has multiple antecedents, the fuzzy operator (AND or OR) is used to obtain a single number that represents the result of the antecedent evaluation. This number (the truth value) is then applied to the consequent membership function.
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Step 2: Rule Evaluation
To evaluate the disjunction of the rule antecedents, we use the OR fuzzy operation. Typically, fuzzy expert systems make use of the classical fuzzy operation union:
AB(x) = max [A(x), B(x)]
Similarly, in order to evaluate the conjunction of the rule antecedents, we apply the AND fuzzy operation intersection:
AB(x) = min [A(x), B(x)]
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Mamdani-style rule evaluation
A3
1
0 X
1
y10 Y
0.0
x1 0
0.1C1
1
C2
Z
1
0 X
0.2
0
0.2C1
1
C2
Z
A2
x1
Rule 3:
A11
0 X 0
1
Zx1
THEN
C1 C2
1
y1
B2
0 Y
0.7
B10.1
C3
C3
C30.5 0.5
OR(max)
AND(min)
OR THENRule 1:
AND THENRule 2:
IF x is A3 (0.0) y is B1 (0.1) z is C1 (0.1)
IF x is A2 (0.2) y is B2 (0.7) z is C2 (0.2)
IF x is A1 (0.5) z is C3 (0.5)
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• Now the result of the antecedent evaluation can be applied to the membership function of the consequent.
• The most common method is to cut the consequent membership function at the level of the antecedent truth.
• This method is called clipping (Max-Min
Composition) .• The clipped fuzzy set loses some information.• Clipping is still often preferred because:
• it involves less complex and faster mathematics• it generates an aggregated output surface that is
easier to defuzzify.
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While clipping is a frequently used method, scaling (Max-Product Composition) offers a better approach for preserving the original shape of the fuzzy set.
The original membership function of the rule consequent is adjusted by multiplying all its membership degrees by the truth value of the rule antecedent.
This method, which generally loses less information, can be very useful in fuzzy expert systems.
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Clipped and scaled membership functions
Degree ofMembership1.0
0.0
0.2
Z
Degree ofMembership
Z
C2
1.0
0.0
0.2
C2
Max-Product Composition Max-Min Composition
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Step 3: Aggregation of The Rule Outputs• Aggregation is the process of unification of the
outputs of all rules.
• We take the membership functions of all rule consequents previously clipped or scaled and combine them into a single fuzzy set.
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Aggregation of the rule outputs
00.1
1C1
Cz is 1 (0.1)
C2
0
0.2
1
Cz is 2 (0.2)
0
0.5
1
Cz is 3 (0.5)
ZZZ
0.2
Z0
C30.5
0.1
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Step 4: Defuzzification• Fuzziness helps us to evaluate the rules, but the
final output of a fuzzy system has to be a crisp number.
• The input for the defuzzification process is the aggregated output fuzzy set and the output is a single number.
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There are several defuzzification methods, but probably the most popular one is the centroid technique.
It finds the point where a vertical line would slice the aggregate set into two equal masses. Mathematically this centre of gravity (COG) can be expressed as:
b
a
A
b
a
A
dxx
dxxx
COG
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Centroid defuzzification method finds a point representing the centre of gravity of the fuzzy set, A, on the interval, ab.
A reasonable estimate can be obtained by calculating it over a sample of points.
( x )
1.0
0.0
0.2
0.4
0.6
0.8
160 170 180 190 200
a b
210
A
150X
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Centre of gravity (COG):
4.675.05.05.05.02.02.02.02.01.01.01.0
5.0)100908070(2.0)60504030(1.0)20100(
COG
1.0
0.0
0.2
0.4
0.6
0.8
0 20 30 40 5010 70 80 90 10060
Z
Degree ofMembership
67.4
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The Reasoning Scheme
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Max-Min Composition is used.
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Examples for Mamdani Fuzzy Models
Example #1Single input single output Mamdani fuzzy model with 3 rules:
If X is small then Y is small R1
If X is medium then Y is medium R2
Is X is large then Y is large R3
X = input [-10, 10] Y = output [0,10]Using centroid defuzzification, we obtain the
following overall input-output curve
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Single input single output antecedent & consequent MFs
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Example #2 (Mamdani Fuzzy models ) Two input single-output Mamdani fuzzy model with 4 rules:
If X is small & Y is small then Z is negative large
If X is small & Y is large then Z is negative small
If X is large & Y is small then Z is positive small
If X is large & Y is large then Z is positive large
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Two-input single output antecedent & consequent MFs 39Basil Hamed
X = [-5, 5]; Y = [-5, 5]; Z = [-5, 5] with max-min composition & centroid defuzzification, we can determine the overall input output surface
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Overall input-output surface40Basil Hamed
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Larsen Fuzzy models
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Inference method: Larsen– product operator(•) for a fuzzy implication– max-product operator for the composition
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The Reasoning Scheme
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Max-Product Composition is used.
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Fuzzy Control Systems
Sugeno
Fuzzy Models
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Sugeno Fuzzy Models
• Also known as TSK fuzzy model – Takagi, Sugeno & Kang, 1985
• Goal: Generation of fuzzy rules from a given input-output data set.
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Mamdani-style inference, requires to find the centroid of a two-dimensional shape by integrating across a continuously varying function. In general, this process is not computationally efficient.
Michio Sugeno suggested to use a single spike, a singleton, as the membership function of the rule consequent.
A fuzzy singleton, is a fuzzy set with a membership function that is unity at a single particular point on the universe of discourse and zero everywhere else.
Sugeno Fuzzy Control
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Sugeno-style fuzzy inference is very similar to the Mamdani method.
Sugeno changed only a rule consequent. Instead of a fuzzy set, he used a mathematical function of the input variable.
The format of the Sugeno-style fuzzy rule is
IF x is A AND y is BTHEN z is f (x, y)
• where x, y and z are linguistic variables• A and B are fuzzy sets on universe of discourses X and Y• f (x, y) is a mathematical function
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The most commonly used zero-order Sugeno fuzzy model applies fuzzy rules in the following form:
IF x is A AND y is BTHEN z is k
where k is a constant.
• In this case, the output of each fuzzy rule is constant. • All consequent membership functions are represented
by singleton spikes.
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Fuzzy Rules of TSK Model
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If x is A and y is B then z = f(x, y)
Fuzzy Sets Crisp Function
f(x, y) is very often a
polynomial function w.r.t. x
and y.
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Examples
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R1: if X is small and Y is small then z = x +y +1
R2: if X is small and Y is large then z = y +3
R3: if X is large and Y is small then z = x +3
R4: if X is large and Y is large then z = x + y + 2
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The Reasoning Scheme
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A3
1
0 X
1
y10 Y
0.0
x1 0
0.1
1
Z
1
0 X
0.2
0
0.2
1
Z
A2
x1
IF x is A1 (0.5) z is k3 (0.5)Rule 3:
A11
0 X 0
1
Zx1
THEN
1
y1
B2
0 Y
0.7
B10.1
0.5 0.5
OR(max)
AND(min)
OR y is B1 (0.1) THEN z is k1 (0.1)Rule 1:
IF x is A2 (0.2) AND y is B2 (0.7) THEN z is k2 (0.2)Rule 2:
k1
k2
k3
IF x is A3 (0.0)
Sugeno-style rule evaluation
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Sugeno-style aggregation of the rule outputs
z is k1 (0.1) z is k2 (0.2) z is k3 (0.5) 0
1
0.1Z 0
0.5
1
Z0
0.2
1
Zk1 k2 k3 0
1
0.1Zk1 k2 k3
0.20.5
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Weighted average (WA):
655.02.01.0
805.0502.0201.0
)3()2()1(
3)3(2)2(1)1(
kkk
kkkkkkWA
0 Z
Crisp Outputz1
z1
Sugeno-style defuzzification
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Example
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R1: If X is small then Y = 0.1X + 6.4R2: If X is medium then Y = 0.5X + 4R3: If X is large then Y = X – 2
X = input [10, 10]
unsmooth
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Example
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R1: If X is small then Y = 0.1X + 6.4R2: If X is medium then Y = 0.5X + 4R3: If X is large then Y = X – 2
X = input [10, 10]
If we have smooth membership functions (fuzzy rules) the overall input-output curve becomes a smoother one.
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Example
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R1: if X is small and Y is small then z = x +y +1R2: if X is small and Y is large then z = y +3R3: if X is large and Y is small then z = x +3R4: if X is large and Y is large then z = x + y + 2
X, Y [5, 5]
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Tsukamoto Fuzzy Model The consequent of each fuzzy if-then rule: • a fuzzy set with a monotonical MF.• Overall output: the weighted average of each rule’s output.• No defuzzification.• Not as transparent as mamdani’s or Sugeno’s fuzzy model.• Not follow strictly the compositional rule of inference: the
output is always crisp.
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Example: Tsukamoto Fuzzy Model Single-input Tsukamoto fuzzy model
If X is small then Y is C1 .
If X is medium then Y is C2 .
If X is large then Y is C3 .
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Review Fuzzy Models
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If <antecedence> then <consequence>.
The same style for• Mamdani Fuzzy Models• Larsen Fuzzy Models• Sugeno Fuzzy Models• Tsukamoto Fuzzy Models
Different styles for• Mamdani Fuzzy Models• Larsen Fuzzy Models• Sugeno Fuzzy Models• Tsukamoto Fuzzy models
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How to make a decision on which method to apply Mamdani or Sugeno? Mamdani method is widely accepted for capturing
expert knowledge. It allows us to describe the expertise in human-
like manner.
Sugeno method is computationally effective and works well with optimization and adaptive techniques, which makes it very attractive in control problems, particularly for dynamic nonlinear systems.
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Tuning Fuzzy Systems 1. Review model input and output variables, and if required
redefine their ranges.
2. Review the fuzzy sets, and if required define additional sets on the universe of discourse.• The use of wide fuzzy sets may cause the fuzzy system to
perform roughly.
3. Provide sufficient overlap between neighbouring sets.• It is suggested that triangle-to-triangle and trapezoid-to-
triangle fuzzy sets should overlap between 25% to 50% of their bases.
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4. Review the existing rules, and if required add new rules to the rule base.
5. Adjust the rule execution weights. Most fuzzy logic tools allow control of the importance of rules by changing a weight multiplier.
6. Revise shapes of the fuzzy sets. In most cases, fuzzy systems are highly tolerant of a shape approximation.
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Steps in Designing a Fuzzy Logic Control System1. Identify the system input variables, their ranges, and membership
functions.
2. Identify the output variables, their ranges, and membership functions.
3. Identify the rules that describe the relations of the inputs to the outputs.
4. Determine the de-fuzzifier method of combining fuzzy rules into system outputs.
Inputs Calculate
Memberships Fuzzy Inputs Rule-Base
Fuzzy
Outputs
Combine
Outputs
Calculate
Crisp
value
Output
Fuzzification step
Defuzzification step Fuzzification step Basil Hamed 63
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EXAMPLES
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Building a Fuzzy Expert System: Case Study A service centre keeps spare parts and repairs failed
ones.
A customer brings a failed item and receives a spare of the same type.
Failed parts are repaired, placed on the shelf, and thus become spares.
The objective here is to advise a manager of the service centre on certain decision policies to keep the customers satisfied.
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Process of Developing a Fuzzy Expert System
1. Specify the problem and define linguistic variables.
2. Determine fuzzy sets.
3. Elicit and construct fuzzy rules.
4. Encode the fuzzy sets, fuzzy rules and procedures to perform fuzzy inference into the expert system.
5. Evaluate and tune the system.
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There are four main linguistic variables: average waiting time (mean delay) m, repair utilisation factor of the service centre (is the ratio of the customer arrival day to the customer departure rate) number of servers s, and initial number of spare parts n .
Step 1: Specify the problem and define linguistic variables
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Linguistic variables and their rangesLinguistic Va lue Notation Numerical Range (normalised)
Very ShortShortMedium
VSSM
[0, 0.3][0.1, 0.5][0.4, 0.7]
Linguistic Va lue Notation
Notation
Numerical Range (normalised)SmallMediumLarge
SML
[0, 0.35][0.30, 0.70]
[0.60, 1]
Linguistic Va lue Numerical RangeLowMediumHigh
LMH
[0, 0.6][0.4, 0.8][0.6, 1]
Linguistic Va lue Notation Numerical Range (normalised)Very SmallSmallRather SmallMediumRather LargeLargeVery Large
VSS
RSMRLL
VL
[0, 0.30][0, 0.40]
[0.25, 0.45][0.30, 0.70][0.55, 0.75]
[0.60, 1][0.70, 1]
Linguistic Variable: Mean Delay, m
Linguistic Variable: Number of Servers, s
Linguistic Variable: Repair Utilisation Factor,
Linguistic Variable: Number of Spares, n
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Step 2: Determine Fuzzy Sets
Fuzzy sets can have a variety of shapes. However, a triangle or a trapezoid can often provide an adequate representation of the expert knowledge, and at the same time, significantly simplifies the process of computation.
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Fuzzy sets of Mean Delay m
0.10
1.0
0.0
0.2
0.4
0.6
0.8
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1Mean Delay (normalised)
SVS M
Degree of Membership
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Fuzzy sets of Number of Servers s
0.10
1.0
0.0
0.2
0.4
0.6
0.8
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
M LS
Degree of Membership
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Fuzzy sets of Repair Utilisation Factor
0.10
1.0
0.0
0.2
0.4
0.6
0.8
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1Repair Utilisation Factor
M HL
Degree ofMembership
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Fuzzy sets of Number of Spares n
0.10
1.0
0.0
0.2
0.4
0.6
0.8
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
S RSVS M RL L VL
Degree ofMembership
Number of Spares (normalised)
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Step 3: Elicit and construct fuzzy rules
To accomplish this task, we might ask the expert to describe how the problem can be solved using the fuzzy linguistic variables defined previously.
Required knowledge also can be collected from other sources such as books, computer databases, flow diagrams and observed human behavior.
The matrix form of representing fuzzy rules is called fuzzy associative memory (FAM).
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m
s
M
RL
VL
S
RS
L
VS
S
M
MVS S
L
M
S
The square FAM representation
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The rule table
Rule m s n Rule m s n Rule m s n
1 VS S L VS 10 VS S M S 19 VS S H VL
2 S S L VS 11 S S M VS 20 S S
S
3 M S L VS 12 M S M VS 21 M S
4 VS M L VS 13 VS M M RS 22 VS M H M
M
M
M
5 S M L VS 14 S M M S 23 S M
6 M M L VS 15 M M M VS 24 M M
7 VS L L S 16 VS L M M 25 VS L H
H
H
H
H
H
RL
8 S L
L
L S 17 S L M RS 26 S L
9 M L L VS 18 M L M S 27 M L H RS
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Rule Base 11. If (utilisation_factor is L) then (number_of_spares is S)2. If (utilisation_factor is M) then (number_of_sparesis M)3. If (utilisation_factor is H) then (number_of_sparesis L)
4. If (mean_delay is VS) and (number_of_serversis S) then (number_of_sparesis VL)5. If (mean_delay is S) and (number_of_serversis S) then (number_of_sparesis L)6. If (mean_delay is M) and (number_of_serversis S) then (number_of_sparesis M)
7. If (mean_delay is VS) and (number_of_serversis M) then (number_of_sparesis RL)8. If (mean_delay is S) and (number_of_serversis M) then (number_of_sparesis RS)9. If (mean_delay is M) and (number_of_serversis M) then (number_of_spares is S)
10. If (mean_delay is VS) and (number_of_servers is L) then (number_of_sparesis M)11. If (mean_delay is S) and (number_of_servers is L) then (number_of_sparesis S)12. If (mean_delay is M) and (number_of_servers is L) then (number_of_sparesis VS)
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Cube FAM of Rule Base 2
VS VS VSVS VS VSVS VS VS
VL L M
HS
VS VS VSVS VS VSVS VS VSM
VS VS VSVS VS VSS S VSL
s
LVS S M
m
MH
VS VS VS
LVS S M
S
m
VS VS VSM
S S VSL
s
S VS VS
MVS S M
m
VS S M
m
S
RS S VSM
M RS SL
s
S
M M SM
RL M RSL
s
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Step 4: Encode the fuzzy sets, fuzzy rules and procedures to perform fuzzy inference into the expert systemTo accomplish this task, we may choose one of two options: to build our system using a programming language such as C/C++, Java, or to apply a fuzzy logic development tool such as MATLAB Fuzzy Logic Toolbox or Fuzzy Knowledge Builder.
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Step 5: Evaluate and Tune the System
The last task is to evaluate and tune the system. We want to see whether our fuzzy system meets the requirements specified at the beginning.
Several test situations depend on the mean delay, number of servers and repair utilisation factor.
The Fuzzy Logic Toolbox can generate surface to help us analyse the system’s performance.
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However, even now, the expert might not be satisfied with the system performance.
To improve the system performance, we may use additional sets Rather Small and Rather Large on the universe of discourse Number of Servers, and then extend the rule base.
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Modified Fuzzy Sets of Number of Servers s
0.10
1.0
0.0
0.2
0.4
0.6
0.8
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1Number of Servers (normalised)
RS M RL LS
Degree of Membership
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Cube FAM of Rule Base 3
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
VS VS VS
S S VS
S S VS
VL L M
VL RL RS
M M S
RL M RS
L M RS
HS
M
RL
L
RS
s
LVS S M
m
MH
VS VS VS
VS VS VS
VS VS VS
S S VS
S S VS
LVS S M
S
M
RL
L
RS
m
s
S VS VS
S VS VS
RS S VS
M RS S
M RS S
MVS S M
m
VS S M
m
S
M
RL
L
RS
s
S
M
RL
L
RS
s
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Fuzzy Control Example
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Input Fuzzy Sets
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• Angle:- -30 to 30 degrees
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Output Fuzzy Sets
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• Car velocity:- -2.0 to 2.0 meters per second
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Fuzzy Rules
• If Angle is Zero then output ? • If Angle is SP then output ? • If Angle is SN then output ? • If Angle is LP then output ? • If Angle is LN then output ?
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Fuzzy Rule Table
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Extended System
• Make use of additional information– angular velocity:- -5.0 to 5.0 degrees/ second
• Gives better control
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New Fuzzy Rules
• Make use of old Fuzzy rules for angular velocity Zero
• If Angle is Zero and Angular vel is Zero – then output Zero velocity
• If Angle is SP and Angular vel is Zero – then output SN velocity
• If Angle is SN and Angular vel is Zero – then output SP velocity
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Table Format (FAM)
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Complete Table
• When angular velocity is opposite to the angle do nothing– System can correct itself
• If Angle is SP and Angular velocity is SN – then output ZE velocity
• etc
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Example• Inputs:10 degrees, -3.5 degrees/sec• Fuzzified Values
• Inference Rules
• Output Fuzzy Sets
• Defuzzified Values
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