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I am trying to aproximate sine function usign NEAT algorithm but am getting some problem accomplish this.

Right now i am using 100 training example, but dynamic examples. Each time i ask a random angle to input to my network.

My network starts with 1 input node, and 1 output node.

for(count = 0; count < 100; count++) {
    double angle = get_random_angle();
    angles[count] = angle;
}


for(count = 0; count < 100; count++) {
   double in[2] = {1.0, angles[count]};
   net->load_sensors(in);
   success = net->activate();
   out[count] = (*(net->outputs.begin()))->activation;
   net->flush();
}

The error for that organism is the sum of errors in distances between the right sin and the guessed one.

for(count = 0; count < 100; count++) {
    double err = fabs(distance_to_target(angles[count], out[count]));
    errorsum = errorsum + err;
}

My get_random_angle() gives me a angle between 1 and 180. My distance_to_target(..,..) uses a sin function normalized between [0,1], (sin(x) + 1)*0.5.

If someone could help i apreciate.

Another question is, how can i test a winner genome in NEAT? Right now i am printing to a file a winning genome, and then read it like this:

void test() {
  Genome *start_genome;
  char curword[20];
  int id;


  cout << "Loading winner" << endl;
  ifstream iFile("winner",ios::in); 
  iFile>>curword;
  iFile>>id;
  cout<<"Reading in Genome id "<<id<<endl;
  start_genome=new Genome(id,iFile);
  iFile.close();
  Network *net = start_genome->genesis(0);

 while(true) {
    cout << "Enter value: " << endl;
    double angle = 0.0;
    cin >> angle;
    double in[2] = {1.0, angle};
    net->load_sensors(in);
    net->activate();
    float result = (*(net->outputs.begin()))->activation;
    net->flush();
    cout << "Result: " << endl;
    cout << setprecision(4) << result << endl;
 }

}

But somehow this give me differente answers than i see in the training period, even when i ask a same angle that i see in training.

Thanks

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