Ejemplo n.º 1
0
Archivo: SBX.java Proyecto: nh295/MOHEA
  @Override
  public Solution[] evolve(Solution[] parents) {
    Solution result1 = parents[0].copy();
    Solution result2 = parents[1].copy();

    if (pprng.nextDouble() <= probability) {
      for (int i = 0; i < result1.getNumberOfVariables(); i++) {
        Variable variable1 = result1.getVariable(i);
        Variable variable2 = result2.getVariable(i);

        if (pprng.nextBoolean()
            && (variable1 instanceof RealVariable)
            && (variable2 instanceof RealVariable)) {
          evolve((RealVariable) variable1, (RealVariable) variable2, distributionIndex);
        }
      }
    }

    return new Solution[] {result1, result2};
  }
Ejemplo n.º 2
0
Archivo: SBX.java Proyecto: nh295/MOHEA
  /**
   * Evolves the specified variables using the SBX operator.
   *
   * @param v1 the first variable
   * @param v2 the second variable
   * @param distributionIndex the distribution index of this SBX operator
   */
  public void evolve(RealVariable v1, RealVariable v2, double distributionIndex) {
    double x0 = v1.getValue();
    double x1 = v2.getValue();

    double dx = Math.abs(x1 - x0);

    if (dx > Settings.EPS) {
      double lb = v1.getLowerBound();
      double ub = v1.getUpperBound();
      double bl;
      double bu;

      if (x0 < x1) {
        bl = 1 + 2 * (x0 - lb) / dx;
        bu = 1 + 2 * (ub - x1) / dx;
      } else {
        bl = 1 + 2 * (x1 - lb) / dx;
        bu = 1 + 2 * (ub - x0) / dx;
      }

      // use symmetric distributions
      if (bl < bu) {
        bu = bl;
      } else {
        bl = bu;
      }

      double p_bl = 1 - 1 / (2 * Math.pow(bl, distributionIndex + 1));
      double p_bu = 1 - 1 / (2 * Math.pow(bu, distributionIndex + 1));
      double u = pprng.nextDouble();

      // prevent out-of-bounds values if PRNG draws the value 1.0
      if (u == 1.0) {
        u = Math.nextAfter(u, -1.0);
      }

      double u0 = u * p_bl;
      double u1 = u * p_bu;
      double b0;
      double b1;

      if (u0 <= 0.5) {
        b0 = Math.pow(2 * u0, 1 / (distributionIndex + 1));
      } else {
        b0 = Math.pow(0.5 / (1 - u0), 1 / (distributionIndex + 1));
      }

      if (u1 <= 0.5) {
        b1 = Math.pow(2 * u1, 1 / (distributionIndex + 1));
      } else {
        b1 = Math.pow(0.5 / (1 - u1), 1 / (distributionIndex + 1));
      }

      if (x0 < x1) {
        v1.setValue(0.5 * (x0 + x1 + b0 * (x0 - x1)));
        v2.setValue(0.5 * (x0 + x1 + b1 * (x1 - x0)));
      } else {
        v1.setValue(0.5 * (x0 + x1 + b1 * (x0 - x1)));
        v2.setValue(0.5 * (x0 + x1 + b0 * (x1 - x0)));
      }

      // this makes PISA's SBX compatible with other implementations
      // which swap the values
      if (pprng.nextBoolean()) {
        double temp = v1.getValue();
        v1.setValue(v2.getValue());
        v2.setValue(temp);
      }

      // guard against out-of-bounds values
      if (v1.getValue() < lb) {
        v1.setValue(lb);
      } else if (v1.getValue() > ub) {
        v1.setValue(ub);
      }

      if (v2.getValue() < lb) {
        v2.setValue(lb);
      } else if (v2.getValue() > ub) {
        v2.setValue(ub);
      }
    }
  }