format version = 1.0
 
 
 begin solution of problem metabol3                      
 
 date = 13-Nov-08 08:19:55
 url = http://www.cs.chalmers.se/~dag/identification
 
 // Settings for the Gennemark & Wedelin (2007) algorithm
 randomStarts_ =  60  1
 smoothingParameter =   4.2
 randomSeed =  3
 
 
 
 // VARIABLE  3
  
reaction_1 of variable_3
has type = biMolecularMassAction         
has variable X1 = variable_4
has variable X2 = variable_1
has parameter k1 =   0.178837243063E-02
  
reaction_2 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_5
has parameter k1 =  -0.750954442853E+00
has parameter k2 =   0.283533575607E+01
has parameter k3 =   0.319480028482E+00
  
reaction_3 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_2
has parameter k1 =  -0.583898001853E+01
has parameter k2 =   0.129786392144E+02
has parameter k3 =   0.654905928969E+00
  
reaction_4 of variable_3
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_1
has parameter k1 =  -0.695645014035E+01
has parameter k2 =   0.837637586149E+01
has parameter k3 =   0.487444070496E+00
  
reaction_5 of variable_3
has type = michaelisMenten               
has variable X1 = variable_4
has parameter k1 =   0.870759050722E+00
has parameter k2 =   0.682980589812E+01
  
 
 
 // VARIABLE  4
  
reaction_1 of variable_4
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_1
has parameter k1 =   0.695645014035E+01
has parameter k2 =   0.837637586149E+01
has parameter k3 =   0.487444070496E+00
  
reaction_2 of variable_4
has type = michaelisMenten               
has variable X1 = variable_4
has parameter k1 =  -0.870759050722E+00
has parameter k2 =   0.682980589812E+01
  
 
 
 // VARIABLE  5
  
reaction_1 of variable_5
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_3
has variable X2 = variable_2
has parameter k1 =   0.583898001853E+01
has parameter k2 =   0.129786392144E+02
has parameter k3 =   0.654905928969E+00
  
reaction_2 of variable_5
has type = michaelisMenten               
has variable X1 = variable_5
has parameter k1 =  -0.937285998883E+00
has parameter k2 =   0.685286953396E+01
  
 
 
 // VARIABLE  6
  
reaction_1 of variable_6
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_7
has variable X2 = variable_3
has parameter k1 =   0.335056825532E+01
has parameter k2 =   0.205160572874E+01
has parameter k3 =   0.420227057077E+01
  
reaction_2 of variable_6
has type = michaelisMenten               
has variable X1 = variable_6
has parameter k1 =  -0.115262906106E+01
has parameter k2 =   0.509125276543E+01
  
 
 
 // VARIABLE  7
  
reaction_1 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_7
has variable X2 = variable_6
has parameter k1 =  -0.124076959506E+01
has parameter k2 =   0.329648864235E+00
has parameter k3 =   0.175425127765E+01
  
reaction_2 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_7
has variable X2 = variable_3
has parameter k1 =  -0.335056825532E+01
has parameter k2 =   0.205160572874E+01
has parameter k3 =   0.420227057077E+01
  
reaction_3 of variable_7
has type = michaelisMentenNonCompInhib   
has variable X1 = variable_6
has variable X2 = variable_1
has parameter k1 =   0.117173283946E+01
has parameter k2 =   0.460482185544E+01
has parameter k3 =   0.500000000000E+02
  
reaction_4 of variable_7
has type = michaelisMenten               
has variable X1 = variable_3
has parameter k1 =   0.328030458645E+00
has parameter k2 =   0.928608922484E+01
  
 
 
 // INITIAL VALUES
 
variable_3 of experiment_1
has initialValue =     0.1225E+01
 
variable_4 of experiment_1
has initialValue =     0.5838E+02
 
variable_5 of experiment_1
has initialValue =     0.4706E+02
 
variable_6 of experiment_1
has initialValue =     0.8355E+02
 
variable_7 of experiment_1
has initialValue =     0.1452E+01
 
variable_3 of experiment_2
has initialValue =     0.1200E+01
 
variable_4 of experiment_2
has initialValue =     0.3983E+02
 
variable_5 of experiment_2
has initialValue =     0.4946E+02
 
variable_6 of experiment_2
has initialValue =     0.1014E+03
 
variable_7 of experiment_2
has initialValue =     0.1453E+01
 
variable_3 of experiment_3
has initialValue =     0.1345E+01
 
variable_4 of experiment_3
has initialValue =     0.4320E+02
 
variable_5 of experiment_3
has initialValue =     0.4427E+02
 
variable_6 of experiment_3
has initialValue =     0.1064E+03
 
variable_7 of experiment_3
has initialValue =     0.1349E+01
 
variable_3 of experiment_4
has initialValue =     0.1354E+01
 
variable_4 of experiment_4
has initialValue =     0.5970E+02
 
variable_5 of experiment_4
has initialValue =     0.4676E+02
 
variable_6 of experiment_4
has initialValue =     0.8839E+02
 
variable_7 of experiment_4
has initialValue =     0.1320E+01
 
variable_3 of experiment_5
has initialValue =     0.1557E+01
 
variable_4 of experiment_5
has initialValue =     0.1765E+00
 
variable_5 of experiment_5
has initialValue =     0.9379E+02
 
variable_6 of experiment_5
has initialValue =     0.9358E+02
 
variable_7 of experiment_5
has initialValue =     0.1283E+01
 
variable_3 of experiment_6
has initialValue =     0.1628E+02
 
variable_4 of experiment_6
has initialValue =     0.1789E+02
 
variable_5 of experiment_6
has initialValue =     0.8537E+02
 
variable_6 of experiment_6
has initialValue =     0.6209E+01
 
variable_7 of experiment_6
has initialValue =     0.9337E+02
 
variable_3 of experiment_7
has initialValue =     0.1075E+03
 
variable_4 of experiment_7
has initialValue =     0.8916E+00
 
variable_5 of experiment_7
has initialValue =     0.7674E+00
 
variable_6 of experiment_7
has initialValue =     0.5135E+00
 
variable_7 of experiment_7
has initialValue =     0.9564E+02
 
variable_3 of experiment_8
has initialValue =     0.4753E+02
 
variable_4 of experiment_8
has initialValue =     0.5354E+02
 
variable_5 of experiment_8
has initialValue =     0.1583E+02
 
variable_6 of experiment_8
has initialValue =     0.1265E+01
 
variable_7 of experiment_8
has initialValue =     0.9822E+02
 
variable_3 of experiment_9
has initialValue =     0.1209E+03
 
variable_4 of experiment_9
has initialValue =     0.8530E+00
 
variable_5 of experiment_9
has initialValue =     0.7200E+00
 
variable_6 of experiment_9
has initialValue =     0.5747E+00
 
variable_7 of experiment_9
has initialValue =     0.1166E+03
 
variable_3 of experiment_10
has initialValue =     0.1110E+03
 
variable_4 of experiment_10
has initialValue =     0.9545E+00
 
variable_5 of experiment_10
has initialValue =     0.8362E+00
 
variable_6 of experiment_10
has initialValue =     0.6140E+00
 
variable_7 of experiment_10
has initialValue =     0.8193E+02
 
variable_3 of experiment_11
has initialValue =     0.1227E+01
 
variable_4 of experiment_11
has initialValue =     0.6161E+02
 
variable_5 of experiment_11
has initialValue =     0.4460E+02
 
variable_6 of experiment_11
has initialValue =     0.8317E+02
 
variable_7 of experiment_11
has initialValue =     0.1353E+01
 
variable_3 of experiment_12
has initialValue =     0.1248E+01
 
variable_4 of experiment_12
has initialValue =     0.9624E+02
 
variable_5 of experiment_12
has initialValue =     0.6432E+00
 
variable_6 of experiment_12
has initialValue =     0.9157E+02
 
variable_7 of experiment_12
has initialValue =     0.1409E+01
 
 
 
 // ERROR 
 // error = -L + lambda * K
 // residual = -L
 error =   2801.56118
 residual =   2611.56118
  
 end of solution of problem metabol3