Exemplo n.º 1
0
/* Returns a sample from stable distribution */
double Stable(RndState *S, int param, double alpha, double beta)
{
	double X, theta=M_PI*(Uniform(S)-0.5);

	// These methods come from John Nolan's book about
	// stable distributions. They return standardised stable random 
	// numbers in the S(alpha,beta;0) parameterisation

	if (beta==0) {
		if (alpha==1) {
			X=tan(theta);
		} else {
			double W=Exponential(S);
			X=sin(alpha*theta)/cos(theta)*pow(cos((alpha-1)*theta)/(W*cos(theta)),1/alpha-1);
		}
	} else {
		double W=Exponential(S);
		double zeta=beta*tan(alpha*M_PI/2);
		if (alpha==1) {
			double b=2*beta/M_PI;
			double bt=1+b*theta;
			X=bt*tan(theta) - b*log(W*cos(theta)/bt);
		} else {
			double ath = alpha*theta; 
			double a1th = theta-ath; 
			X = ((sin(ath) + zeta*cos(ath))/cos(theta))
				 * pow((cos(a1th) + zeta*sin(a1th))/(W*cos(theta)),1/alpha-1);
			if (param==0) X=X-zeta;
		}
	}
	return X;
}
Exemplo n.º 2
0
double GetArrival(unsigned int *j)
{
	const double mean[2] = {1/L1, 1/L2};	
	static double arrival[2] = {START, START};
	static int init = 1;
	double temp;
	
	if (init) {
		SelectStream(0);
		arrival[0] += Exponential(mean[0]);
		SelectStream(1);
		arrival[1] += Exponential(mean[1]);
		init=0;
	}

	if (arrival[0] <= arrival[1])
		*j = 0;
	else
		*j = 1;

	temp = arrival[*j];
	SelectStream(*j);
	arrival[*j] += Exponential(mean[*j]);

	return temp;
}
Exemplo n.º 3
0
    void Behavior3(){
        // doba dojeni
        double time;
        if (Random()<=0.1)
            time = Exponential(15);
        else
            time = Exponential(8);

        scheduleAt(Time() + time, SLOT(Krava::Behavior4));
    }
Exemplo n.º 4
0
   long double HyperExponential(long double a, long double m1, long double b, long double m2)
/* =========================================================
 * Returns ...
 * NOTE: everything must be > 0.0
 * =========================================================
 */
{
  long double r = Random();
  long double he = 0.0;
  if (r < a)
    he = Exponential(m1);
  else
    he = Exponential(m2);
  return he;
}
Exemplo n.º 5
0
double GetService(int j, int n)
{
	const double mean[5] = {1/M1CLET, 1/M2CLET,
                            1/M1CLOUD, 1/M2CLOUD,
                            1/MSETUP};	
    SelectStream(j + n + 2);
    return Exponential(mean[j + n]);
}
Exemplo n.º 6
0
void FailureProcess::Behavior(void)
{
    Seize(oven_fac, 1);
    //std::cout << "PORUCHA PECE " << Time << std::endl;
    refuse_orders = true;
    Wait(Exponential(FAILURE_WAIT_TIME));
    Release(oven_fac);
    refuse_orders = false;
    //std::cout << "KONEC PORUCHY PECE " << Time << std::endl;
}
Exemplo n.º 7
0
/**
		This function initializes all global generators by @a seed value.

@param seed The seed value of all generators.
*/
void srand(RandomValue seed)
{
	OMNI_MT_CODE(sync::AutoLock guard(g_lock()));

	g_rand() = Random(seed);
	g_unif() = Uniform(seed);
	g_norm() = Normal(seed);
	g_exp() = Exponential(seed);

	g_seed() = seed;
}
Exemplo n.º 8
0
   double Erlang(long n, double b)
/* ================================================== 
 * Returns an Erlang distributed positive real number.
 * NOTE: use n > 0 and b > 0.0
 * ==================================================
 */
{ 
  long   i;
  double x = 0.0;

  for (i = 0; i < n; i++) 
    x += Exponential(b);
  return (x);
}
Exemplo n.º 9
0
   long Poisson(double m)
/* ================================================== 
 * Returns a Poisson distributed non-negative integer. 
 * NOTE: use m > 0
 * ==================================================
 */
{ 
  double t = 0.0;
  long   x = 0;

  while (t < m) {
    t += Exponential(1.0);
    x++;
  }
  return (x - 1);
}
Exemplo n.º 10
0
//----------------------------------------------
void AirPort::execute()
{
	int id=0;
	double lambda=5.;
	long double gen=0;
	bool active=true;

	while (active)
	{
		switch(phase)
		{
		case 0:
			activate(Exponential(lambda,seed));
			active=true;
			phase=1;
			break;
		case 1:
			int numPass=static_cast<int>(5*Uniform(seed)+8);
			for(int i=0;i<numPass;i++)
			{
				gen=Uniform()+1;
				if(gen>=1 && gen<1.2)
					id=1;
				if(gen>=1.2 && gen<1.4)
					id=2;
				if(gen>=1.4&& gen<1.70)
					id=3;
				if(gen>=1.7&&gen<2.0)
					id=4;
				ap.addPass(new Passsenger(Clock,id));
			}
			active=false;
			phase=0;
			break;
		
		}
	}
}
Exemplo n.º 11
0
 void Behavior() {
     // zivotni cyklus
     scheduleAt(Time() + Exponential(15*60), SLOT(Krava::Behavior2) ); // 15hod
 }
Exemplo n.º 12
0
Arquivo: main.c Projeto: jmikulka/des
static void *foo(void *arg __unused__)
{
	/* actual time */
	double _time = cur_time;

	/* seize the facility */
	debug("< Seize(fac)   PID: %d >", CURRENT());
	Seize(&fac, CURRENT());

	/* after succesfull seize, save time into stats */
	save_time(fac.stats, cur_time - _time);

	/* wait for time */
	debug("< Wait(fac)    PID: %d >", CURRENT());
	Wait(Exponential(1.25));

	/* release the facility */
	debug("< Release(fac) PID: %d >", CURRENT());
	Release(&fac);

	/* terminating the process */
	debug("< Quit()       PID: %d >", CURRENT());
	Quit();

	return NULL;
}

int main(void)
{
	/* Facility initialization */