LSR/Examples/fuzzylite-mamdani/AllTerms.fcl

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2020-06-04 19:21:01 +02:00
//Code automatically generated with fuzzylite 6.0.
FUNCTION_BLOCK AllTerms
VAR_INPUT
AllInputTerms: REAL;
END_VAR
VAR_OUTPUT
AllOutputTerms: REAL;
END_VAR
FUZZIFY AllInputTerms
RANGE := (0.000 .. 6.500);
TERM A := Sigmoid 0.500 -20.000;
TERM B := ZShape 0.000 1.000;
TERM C := Ramp 1.000 0.000;
TERM D := Triangle 0.500 1.000 1.500;
TERM E := Trapezoid 1.000 1.250 1.750 2.000;
TERM F := Concave 0.850 0.250;
TERM G := Rectangle 1.750 2.250;
TERM H := (2.000, 0.000) (2.250, 1.000) (2.500, 0.500) (2.750, 1.000) (3.000, 0.000);
TERM I := Gaussian 3.000 0.200;
TERM J := Cosine 3.250 0.650;
TERM K := GaussianProduct 3.500 0.100 3.300 0.300;
TERM L := Spike 3.640 1.040;
TERM M := Bell 4.000 0.250 3.000;
TERM N := PiShape 4.000 4.500 4.500 5.000;
TERM O := Concave 5.650 6.250;
TERM P := SigmoidDifference 4.750 10.000 30.000 5.250;
TERM Q := SigmoidProduct 5.250 20.000 -10.000 5.750;
TERM R := Ramp 5.500 6.500;
TERM S := SShape 5.500 6.500;
TERM T := Sigmoid 6.000 20.000;
END_FUZZIFY
DEFUZZIFY AllOutputTerms
RANGE := (0.000 .. 6.500);
TERM A := Sigmoid 0.500 -20.000;
TERM B := ZShape 0.000 1.000;
TERM C := Ramp 1.000 0.000;
TERM D := Triangle 0.500 1.000 1.500;
TERM E := Trapezoid 1.000 1.250 1.750 2.000;
TERM F := Concave 0.850 0.250;
TERM G := Rectangle 1.750 2.250;
TERM H := (2.000, 0.000) (2.250, 1.000) (2.500, 0.500) (2.750, 1.000) (3.000, 0.000);
TERM I := Gaussian 3.000 0.200;
TERM J := Cosine 3.250 0.650;
TERM K := GaussianProduct 3.500 0.100 3.300 0.300;
TERM L := Spike 3.640 1.040;
TERM M := Bell 4.000 0.250 3.000;
TERM N := PiShape 4.000 4.500 4.500 5.000;
TERM O := Concave 5.650 6.250;
TERM P := SigmoidDifference 4.750 10.000 30.000 5.250;
TERM Q := SigmoidProduct 5.250 20.000 -10.000 5.750;
TERM R := Ramp 5.500 6.500;
TERM S := SShape 5.500 6.500;
TERM T := Sigmoid 6.000 20.000;
METHOD : COG;
ACCU : MAX;
DEFAULT := nan;
END_DEFUZZIFY
RULEBLOCK
AND : MIN;
OR : MAX;
ACT : MIN;
RULE 1 : if AllInputTerms is A then AllOutputTerms is T
RULE 2 : if AllInputTerms is B then AllOutputTerms is S
RULE 3 : if AllInputTerms is C then AllOutputTerms is R
RULE 4 : if AllInputTerms is D then AllOutputTerms is Q
RULE 5 : if AllInputTerms is E then AllOutputTerms is P
RULE 6 : if AllInputTerms is F then AllOutputTerms is O
RULE 7 : if AllInputTerms is G then AllOutputTerms is N
RULE 8 : if AllInputTerms is H then AllOutputTerms is M
RULE 9 : if AllInputTerms is I then AllOutputTerms is L
RULE 10 : if AllInputTerms is J then AllOutputTerms is K
RULE 11 : if AllInputTerms is K then AllOutputTerms is J
RULE 12 : if AllInputTerms is L then AllOutputTerms is I
RULE 13 : if AllInputTerms is M then AllOutputTerms is H
RULE 14 : if AllInputTerms is N then AllOutputTerms is G
RULE 15 : if AllInputTerms is O then AllOutputTerms is F
RULE 16 : if AllInputTerms is P then AllOutputTerms is E
RULE 17 : if AllInputTerms is Q then AllOutputTerms is D
RULE 18 : if AllInputTerms is R then AllOutputTerms is C
RULE 19 : if AllInputTerms is S then AllOutputTerms is B
RULE 20 : if AllInputTerms is T then AllOutputTerms is A
END_RULEBLOCK
END_FUNCTION_BLOCK