format version = 1.0
 
 
 begin solution of problem metabol3                      
 
 date = 13-Nov-08 11:45:31
 url = http://www.cs.chalmers.se/~dag/identification
 
 // Settings for the Gennemark & Wedelin (2007) algorithm
 randomStarts_ =  60  1
 smoothingParameter =   4.2
 randomSeed =  5
 
 
 
 // VARIABLE  3
  
reaction_1 of variable_3
has type = biMolecularMassAction         
has variable X1 = variable_4
has variable X2 = variable_1
has parameter k1 =   0.334749216923E-03
  
reaction_2 of variable_3
has type = biMolecularMassAction         
has variable X1 = variable_6
has variable X2 = variable_2
has parameter k1 =   0.232607023214E-03
  
reaction_3 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_2
has parameter k1 =  -0.530820874120E+01
has parameter k2 =   0.530977992779E+01
has parameter k3 =   0.937988758289E+00
  
reaction_4 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_5
has variable X2 = variable_2
has parameter k1 =   0.133410670435E+01
has parameter k2 =   0.719664046475E+00
has parameter k3 =   0.403301696203E+02
  
reaction_5 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_1
has parameter k1 =  -0.611352530909E+01
has parameter k2 =   0.756532575785E+01
has parameter k3 =   0.600346153686E+00
  
 
 
 // VARIABLE  4
  
reaction_1 of variable_4
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_1
has parameter k1 =   0.611352530909E+01
has parameter k2 =   0.756532575785E+01
has parameter k3 =   0.600346153686E+00
  
reaction_2 of variable_4
has type = michaelisMenten               
has variable X1 = variable_4
has parameter k1 =  -0.767338588123E+00
has parameter k2 =   0.463292912321E+01
  
 
 
 // VARIABLE  5
  
reaction_1 of variable_5
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_2
has parameter k1 =   0.530820874120E+01
has parameter k2 =   0.530977992779E+01
has parameter k3 =   0.937988758289E+00
  
reaction_2 of variable_5
has type = michaelisMenten               
has variable X1 = variable_5
has parameter k1 =  -0.942985718207E+00
has parameter k2 =   0.441466494599E+01
  
 
 
 // VARIABLE  6
  
reaction_1 of variable_6
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_7
has variable X2 = variable_3
has parameter k1 =   0.669676693615E+01
has parameter k2 =   0.342398886268E+01
has parameter k3 =   0.128184310884E+01
  
reaction_2 of variable_6
has type = michaelisMenten               
has variable X1 = variable_6
has parameter k1 =  -0.997534921035E+00
has parameter k2 =   0.603427087918E+01
  
 
 
 // VARIABLE  7
  
reaction_1 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_7
has variable X2 = variable_6
has parameter k1 =  -0.150135955438E+02
has parameter k2 =   0.477789987706E+00
has parameter k3 =   0.409442550474E+02
  
reaction_2 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_6
has parameter k1 =   0.110266575435E+02
has parameter k2 =   0.148905202445E+01
has parameter k3 =   0.500000000000E+02
  
reaction_3 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_4
has variable X2 = variable_6
has parameter k1 =   0.466302084219E+01
has parameter k2 =   0.100000000000E+00
has parameter k3 =   0.401814568413E+02
  
 
 
 // INITIAL VALUES
 
variable_3 of experiment_1
has initialValue =     0.1169E+01
 
variable_4 of experiment_1
has initialValue =     0.4539E+02
 
variable_5 of experiment_1
has initialValue =     0.4753E+02
 
variable_6 of experiment_1
has initialValue =     0.9899E+02
 
variable_7 of experiment_1
has initialValue =     0.1452E+01
 
variable_3 of experiment_2
has initialValue =     0.1231E+01
 
variable_4 of experiment_2
has initialValue =     0.3983E+02
 
variable_5 of experiment_2
has initialValue =     0.4234E+02
 
variable_6 of experiment_2
has initialValue =     0.8927E+02
 
variable_7 of experiment_2
has initialValue =     0.1454E+01
 
variable_3 of experiment_3
has initialValue =     0.1364E+01
 
variable_4 of experiment_3
has initialValue =     0.4320E+02
 
variable_5 of experiment_3
has initialValue =     0.4771E+02
 
variable_6 of experiment_3
has initialValue =     0.9340E+02
 
variable_7 of experiment_3
has initialValue =     0.1340E+01
 
variable_3 of experiment_4
has initialValue =     0.1358E+01
 
variable_4 of experiment_4
has initialValue =     0.4677E+02
 
variable_5 of experiment_4
has initialValue =     0.4676E+02
 
variable_6 of experiment_4
has initialValue =     0.9543E+02
 
variable_7 of experiment_4
has initialValue =     0.1295E+01
 
variable_3 of experiment_5
has initialValue =     0.1323E+01
 
variable_4 of experiment_5
has initialValue =     0.1686E+00
 
variable_5 of experiment_5
has initialValue =     0.9430E+02
 
variable_6 of experiment_5
has initialValue =     0.9544E+02
 
variable_7 of experiment_5
has initialValue =     0.1283E+01
 
variable_3 of experiment_6
has initialValue =     0.1505E+02
 
variable_4 of experiment_6
has initialValue =     0.1789E+02
 
variable_5 of experiment_6
has initialValue =     0.6510E+02
 
variable_6 of experiment_6
has initialValue =     0.6314E+01
 
variable_7 of experiment_6
has initialValue =     0.9800E+02
 
variable_3 of experiment_7
has initialValue =     0.9981E+02
 
variable_4 of experiment_7
has initialValue =     0.8737E+00
 
variable_5 of experiment_7
has initialValue =     0.7503E+00
 
variable_6 of experiment_7
has initialValue =     0.5204E+00
 
variable_7 of experiment_7
has initialValue =     0.9140E+02
 
variable_3 of experiment_8
has initialValue =     0.5025E+02
 
variable_4 of experiment_8
has initialValue =     0.4980E+02
 
variable_5 of experiment_8
has initialValue =     0.1318E+02
 
variable_6 of experiment_8
has initialValue =     0.1282E+01
 
variable_7 of experiment_8
has initialValue =     0.1022E+03
 
variable_3 of experiment_9
has initialValue =     0.8673E+02
 
variable_4 of experiment_9
has initialValue =     0.8448E+00
 
variable_5 of experiment_9
has initialValue =     0.7115E+00
 
variable_6 of experiment_9
has initialValue =     0.5708E+00
 
variable_7 of experiment_9
has initialValue =     0.8665E+02
 
variable_3 of experiment_10
has initialValue =     0.1085E+03
 
variable_4 of experiment_10
has initialValue =     0.9573E+00
 
variable_5 of experiment_10
has initialValue =     0.8294E+00
 
variable_6 of experiment_10
has initialValue =     0.6240E+00
 
variable_7 of experiment_10
has initialValue =     0.8836E+02
 
variable_3 of experiment_11
has initialValue =     0.1155E+01
 
variable_4 of experiment_11
has initialValue =     0.5333E+02
 
variable_5 of experiment_11
has initialValue =     0.4503E+02
 
variable_6 of experiment_11
has initialValue =     0.7806E+02
 
variable_7 of experiment_11
has initialValue =     0.1346E+01
 
variable_3 of experiment_12
has initialValue =     0.1269E+01
 
variable_4 of experiment_12
has initialValue =     0.9480E+02
 
variable_5 of experiment_12
has initialValue =     0.6383E+00
 
variable_6 of experiment_12
has initialValue =     0.9882E+02
 
variable_7 of experiment_12
has initialValue =     0.1423E+01
 
 
 
 // ERROR 
 // error = -L + lambda * K
 // residual = -L
 error =   1071.48323
 residual =   896.483226
  
 end of solution of problem metabol3