Model tp070
! Source version 1
! Simple APM canonicalizer version 1.3
! APM backend version 1.1
Parameters
e1 = -1
e2 = 1
d1 = 7.658
d2 = 7.685
e = e1
d = d1
yobs_1 = 0.00189
yobs_2 = 0.1038
yobs_3 = 0.268
yobs_4 = 0.506
yobs_5 = 0.577
yobs_6 = 0.604
yobs_7 = 0.725
yobs_8 = 0.898
yobs_9 = 0.947
yobs_10 = 0.845
yobs_11 = 0.702
yobs_12 = 0.528
yobs_13 = 0.385
yobs_14 = 0.257
yobs_15 = 0.159
yobs_16 = 0.0869
yobs_17 = 0.0453
yobs_18 = 0.01509
yobs_19 = 0.00189
c_1 = 0.1
c_2 = 1
c_3 = c_2 + 1
c_4 = c_3 + 1
c_5 = c_4 + 1
c_6 = c_5 + 1
c_7 = c_6 + 1
c_8 = c_7 + 1
c_9 = c_8 + 1
c_10 = c_9 + 1
c_11 = c_10 + 1
c_12 = c_11 + 1
c_13 = c_12 + 1
c_14 = c_13 + 1
c_15 = c_14 + 1
c_16 = c_15 + 1
c_17 = c_16 + 1
c_18 = c_17 + 1
c_19 = c_18 + 1
s_0 = 0
End Parameters
Variables
x_1 = 2, >= 0.00001, <= 100
x_2 = 4, >= 0.00001, <= 100
x_3 = 0.04, >= 0.00001, <= 1
x_4 = 2, >= 0.00001, <= 100
obj
End Variables
Intermediates
b = x_3 + (1 - x_3)*x_4
ycal_1 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_1/d)^(x_2 - 1) * exp(x_2 - &
b*c_1*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_1/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_1*x_1/(7.658*x_4))
ycal_2 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_2/d)^(x_2 - 1) * exp(x_2 - &
b*c_2*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_2/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_2*x_1/(7.658*x_4))
ycal_3 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_3/d)^(x_2 - 1) * exp(x_2 - &
b*c_3*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_3/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_3*x_1/(7.658*x_4))
ycal_4 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_4/d)^(x_2 - 1) * exp(x_2 - &
b*c_4*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_4/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_4*x_1/(7.658*x_4))
ycal_5 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_5/d)^(x_2 - 1) * exp(x_2 - &
b*c_5*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_5/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_5*x_1/(7.658*x_4))
ycal_6 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_6/d)^(x_2 - 1) * exp(x_2 - &
b*c_6*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_6/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_6*x_1/(7.658*x_4))
ycal_7 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_7/d)^(x_2 - 1) * exp(x_2 - &
b*c_7*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_7/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_7*x_1/(7.658*x_4))
ycal_8 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_8/d)^(x_2 - 1) * exp(x_2 - &
b*c_8*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_8/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_8*x_1/(7.658*x_4))
ycal_9 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_9/d)^(x_2 - 1) * exp(x_2 - &
b*c_9*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_9/7.658)^(x_1 - 1) &
* exp(x_1 - b*c_9*x_1/(7.658*x_4))
ycal_10 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_10/d)^(x_2 - 1) * exp(x_2 - &
b*c_10*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_10/7.658)^(x_1 - &
1) * exp(x_1 - b*c_10*x_1/(7.658*x_4))
ycal_11 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_11/d)^(x_2 - 1) * exp(x_2 - &
b*c_11*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_11/7.658)^(x_1 - &
1) * exp(x_1 - b*c_11*x_1/(7.658*x_4))
ycal_12 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_12/d)^(x_2 - 1) * exp(x_2 - &
b*c_12*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_12/7.658)^(x_1 - &
1) * exp(x_1 - b*c_12*x_1/(7.658*x_4))
ycal_13 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_13/d)^(x_2 - 1) * exp(x_2 - &
b*c_13*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_13/7.658)^(x_1 - &
1) * exp(x_1 - b*c_13*x_1/(7.658*x_4))
ycal_14 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_14/d)^(x_2 - 1) * exp(x_2 - &
b*c_14*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_14/7.658)^(x_1 - &
1) * exp(x_1 - b*c_14*x_1/(7.658*x_4))
ycal_15 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_15/d)^(x_2 - 1) * exp(x_2 - &
b*c_15*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_15/7.658)^(x_1 - &
1) * exp(x_1 - b*c_15*x_1/(7.658*x_4))
ycal_16 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_16/d)^(x_2 - 1) * exp(x_2 - &
b*c_16*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_16/7.658)^(x_1 - &
1) * exp(x_1 - b*c_16*x_1/(7.658*x_4))
ycal_17 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_17/d)^(x_2 - 1) * exp(x_2 - &
b*c_17*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_17/7.658)^(x_1 - &
1) * exp(x_1 - b*c_17*x_1/(7.658*x_4))
ycal_18 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_18/d)^(x_2 - 1) * exp(x_2 - &
b*c_18*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_18/7.658)^(x_1 - &
1) * exp(x_1 - b*c_18*x_1/(7.658*x_4))
ycal_19 = (1 + 1/(12*x_2))^e * x_3*b^x_2 * (x_2/6.2832)^(1/2) * (c_19/d)^(x_2 - 1) * exp(x_2 - &
b*c_19*x_2/7.658) + (1 + 1/(12*x_1))^e * (1 - x_3) * (b/x_4)^x_1 * (x_1/6.2832)^(1/2) * (c_19/7.658)^(x_1 - &
1) * exp(x_1 - b*c_19*x_1/(7.658*x_4))
s_1 = s_0 + (yobs_1 - ycal_1)^2
s_2 = s_1 + (yobs_2 - ycal_2)^2
s_3 = s_2 + (yobs_3 - ycal_3)^2
s_4 = s_3 + (yobs_4 - ycal_4)^2
s_5 = s_4 + (yobs_5 - ycal_5)^2
s_6 = s_5 + (yobs_6 - ycal_6)^2
s_7 = s_6 + (yobs_7 - ycal_7)^2
s_8 = s_7 + (yobs_8 - ycal_8)^2
s_9 = s_8 + (yobs_9 - ycal_9)^2
s_10 = s_9 + (yobs_10 - ycal_10)^2
s_11 = s_10 + (yobs_11 - ycal_11)^2
s_12 = s_11 + (yobs_12 - ycal_12)^2
s_13 = s_12 + (yobs_13 - ycal_13)^2
s_14 = s_13 + (yobs_14 - ycal_14)^2
s_15 = s_14 + (yobs_15 - ycal_15)^2
s_16 = s_15 + (yobs_16 - ycal_16)^2
s_17 = s_16 + (yobs_17 - ycal_17)^2
s_18 = s_17 + (yobs_18 - ycal_18)^2
s_19 = s_18 + (yobs_19 - ycal_19)^2
mf = s_19
myminfun = mf
myabsdevnod0_0 = abs(myminfun - 0.007498463574427645)
myreldevnod0_0 = abs(myminfun/0.007498463574427645 - 1)
myabsdevnod0_1 = abs(x_1 - 12.27697912756719)
myreldevnod0_1 = abs(x_1/12.27697912756719 - 1)
myabsdevnod0_2 = abs(x_2 - 4.631748162745852)
myreldevnod0_2 = abs(x_2/4.631748162745852 - 1)
myabsdevnod0_3 = abs(x_3 - 0.3128646302166193)
myreldevnod0_3 = abs(x_3/0.3128646302166193 - 1)
myabsdevnod0_4 = abs(x_4 - 2.029282825337289)
myreldevnod0_4 = abs(x_4/2.029282825337289 - 1)
myabsdevnod1_0 = (1/2)*(abs(myabsdevnod0_0 - myabsdevnod0_1) + (myabsdevnod0_0 + myabsdevnod0_1))
myreldevnod1_0 = (1/2)*(abs(myreldevnod0_0 - myreldevnod0_1) + (myreldevnod0_0 + myreldevnod0_1))
myabsdevnod1_2 = (1/2)*(abs(myabsdevnod0_2 - myabsdevnod0_3) + (myabsdevnod0_2 + myabsdevnod0_3))
myreldevnod1_2 = (1/2)*(abs(myreldevnod0_2 - myreldevnod0_3) + (myreldevnod0_2 + myreldevnod0_3))
myabsdevnod1_4 = myabsdevnod0_4
myreldevnod1_4 = myreldevnod0_4
myabsdevnod2_0 = (1/2)*(abs(myabsdevnod1_0 - myabsdevnod1_2) + (myabsdevnod1_0 + myabsdevnod1_2))
myreldevnod2_0 = (1/2)*(abs(myreldevnod1_0 - myreldevnod1_2) + (myreldevnod1_0 + myreldevnod1_2))
myabsdevnod2_4 = myabsdevnod1_4
myreldevnod2_4 = myreldevnod1_4
myabsdevnod3_0 = (1/2)*(abs(myabsdevnod2_0 - myabsdevnod2_4) + (myabsdevnod2_0 + myabsdevnod2_4))
myreldevnod3_0 = (1/2)*(abs(myreldevnod2_0 - myreldevnod2_4) + (myreldevnod2_0 + myreldevnod2_4))
zmyabsdevmax = myabsdevnod3_0
zmyreldevmax = myreldevnod3_0
End Intermediates
Equations
obj = myminfun
b >= 0
End Equations
End Model