# Issues with X location in a Particle Swarm Optimizer

I am making a Particle Swarm Optimizer(PSO), it is pretty much done and runs but there seems to be issues with the locations of the particles and the location of gBest.

When I run a function such as X^4 - 2X^3 my PSO will give me a final gBest value of approximately -1.68 which is close enough but the corresponding location will be incorrect, it should be giving me an x-value of approximately 1.5 but it will return a value of anything between 0 and 1.5. I have tried numerous different ways of updating velocities and locations for the particles but the way I have it now is the best it has worked as of yet. I am unsure as to why the locations are not working correctly so any help is appreciated.

I have attached the Particle, Swarm and Vector classes as I believe that the problem has to be in here somewhere.

Vector class: public class Vector {

``````double x, y, z;

public Vector(double x, double y, double z) {

this.x = x;
this.y = y;
this.z = z;
}

public void setLocation(double x, double y, double z) {

setX(x);
setY(y);
setZ(z);
}

private void setX(double x) {

this.x = x;
}

private void setY(double y) {

this.y = y;
}

private void setZ(double z) {

this.z = z;
}

public String toString() {

return "x: " + x + " Y: " + y + " Z: " + z;
}

public double getX() {

return x;
}

public double getY() {

return y;
}

public void multiply(double d) {

x *= d;
y *= d;
z *= d;
}

public void subtract(Vector v) {

x -= v.x;
y -= v.y;
z -= v.z;
}

x += v.x;
y += v.y;
z += v.z;
}
``````

}

Particle class: public class Particle {

``````private FunctionChoices function;
private Vector location;
private Vector velocity;
double minRange = -100;
double maxRange = 101;
private double pBest;
private Vector pBestLocation;

public Particle(FunctionChoices function) {

this.function = function;
location = new Vector(0, 0, 0);
velocity = new Vector(0, 0, 0);
pBestLocation = new Vector(0, 0, 0);
setInitialPosition();
pBest = getInitialPBest();
}

private void setInitialPosition() {

location.setLocation(x, y, z);
}

private double getInitialPBest() {

if(function == FunctionChoices.testFunction1) {

pBestLocation = location;
return Functions.testFunction1(location.getX());
}

else if(function == FunctionChoices.testFunction2) {

pBestLocation = location;
return Functions.testFunction2(location.getX());
}

else {

return 0;
}
}

private double getFitness() {

if(function == FunctionChoices.testFunction1) {

return Functions.testFunction1(location.getX());
}

else if(function == FunctionChoices.testFunction2) {

return Functions.testFunction2(location.getX());
}

else {

return 0;
}
}

public void updatePBest(Particle particle) {

double currentFitness = getFitness();

if(currentFitness < particle.getPBest()) {

pBest = currentFitness;
pBestLocation = location;
}
}

public double getPBest() {

return pBest;
}

public Vector getPBestLocation() {

return pBestLocation;
}

public Vector getLocation() {

return location;
}

public Vector getVelocity() {

return velocity;
}

public void setVelocity(Vector velocity) {

this.velocity = velocity;
}

public void updateLocation() {

}
``````

}

Swarm class: public class Swarm {

``````FunctionChoices function;
int numberOfParticles;
int numberOfIterations;
ArrayList<Particle> particles;
double gBest = Double.POSITIVE_INFINITY;
Vector gBestLocation;
double inertia = 0.729844;
double social = 1.496180;
double inertiaTest = 0.36;
double socialTest = 075;

public Swarm(FunctionChoices function, int numberOfParticles, int numberOfIterations) {

this.function = function;
this.numberOfParticles = numberOfParticles;
this.numberOfIterations = numberOfIterations;
particles = new ArrayList<Particle>();
gBestLocation = new Vector(0, 0, 0);
execute();
}

private void execute() {

//Particle particle;

for(int i = 0; i < numberOfParticles; i++) {

Particle particle = new Particle(function);
updateGBest(particle);
}

double oldGBest = gBest;
System.out.println("--------------------------EXECUTING-------------------------");
System.out.println("Global Best Evaluation (Iteration " + 0 + "):\t"  + gBest);

for(int i = 0; i < numberOfIterations; i++) {

if(gBest < oldGBest) {

System.out.println("Global Best Evaluation (Iteration " + (i + 1) + "):\t" + gBest);
oldGBest = gBest;
}

for(int j = 0; j < particles.size(); j++) {

//System.out.println("old pBest = " + particles.get(j).getPBest());
particles.get(j).updatePBest(particles.get(j));
//System.out.println("new pBest = " + particles.get(j).getPBest());
//System.out.println("old gBest: " + gBest);
updateGBest(particles.get(j));
//System.out.println("new gBest: " + gBest);
}

for(int j = 0; j < particles.size(); j++) {

System.out.println("Particle " + j + " Old position: " + particles.get(j).getLocation());
updateVelocity(particles.get(j));
particles.get(j).updateLocation();
System.out.println("Particle " + j + " New position: " + particles.get(j).getLocation());
}
}

System.out.println("---------------------------RESULT---------------------------");
System.out.println("x = " + gBestLocation.getX());
System.out.println("y = " + gBestLocation.getY());
System.out.println("Final Best Evaluation: " + gBest);
System.out.println("---------------------------COMPLETE-------------------------");
}

private void updateGBest(Particle particle) {

if(particle.getPBest() < gBest) {

gBest = particle.getPBest();
gBestLocation = particle.getPBestLocation();
}
}

private void updateVelocity(Particle particle) {

Vector oldVelocity = particle.getVelocity();
Vector pBest = particle.getPBestLocation();
//System.out.println("pBest: " + pBest);
Vector gBest = gBestLocation;
Vector currentLocation = particle.getLocation();
//System.out.println("cL: " + currentLocation);

Random random = new Random();
double r1 = random.nextDouble();
double r2 = random.nextDouble();

Vector newVelocity = oldVelocity;
newVelocity.multiply(inertiaTest);
//System.out.println("New Velocity1: " + newVelocity);

pBest.subtract(currentLocation);
pBest.multiply(socialTest);
pBest.multiply(r1);
//System.out.println("pBest: " + pBest);
//System.out.println("New Velocity2: " + newVelocity);

gBest.subtract(currentLocation);
gBest.multiply(socialTest);
gBest.multiply(r2);