UnivariatePointValuePair optimalMin = bo.optimize(GoalType.MINIMIZE, new SearchInterval(0, 512, 1), new UnivariateObjectiveFunction(qFunc),
distFun); UnivariatePointValuePair solution = brentOptimizer.optimize(fun, MAX_EVALUATIONS, goalType, new SearchInterval(left, right));
/** * Maximizes a univariate function using a grid search followed by Brent's algorithm. * * @param fn the likelihood function to minimize * @param gridStart the lower bound for the grid search * @param gridEnd the upper bound for the grid search * @param gridStep step size for the grid search * @param relErr relative error tolerance for Brent's algorithm * @param absErr absolute error tolerance for Brent's algorithm * @param maxIter maximum # of iterations to perform in Brent's algorithm * @param maxEval maximum # of Likelihood function evaluations in Brent's algorithm * * @return the value of the parameter that maximizes the function */ public static double maximize(UnivariateFunction fn, double gridStart, double gridEnd, double gridStep, double relErr, double absErr, int maxIter, int maxEval) { Interval interval = gridSearch(fn, gridStart, gridEnd, gridStep); BrentOptimizer bo = new BrentOptimizer(relErr, absErr); UnivariatePointValuePair max = bo.optimize( new MaxIter(maxIter), new MaxEval(maxEval), new SearchInterval(interval.getInf(), interval.getSup()), new UnivariateObjectiveFunction(fn), GoalType.MAXIMIZE); return max.getPoint(); } }
/** * Maximizes a univariate function using a grid search followed by Brent's algorithm. * * @param fn the likelihood function to minimize * @param gridStart the lower bound for the grid search * @param gridEnd the upper bound for the grid search * @param gridStep step size for the grid search * @param relErr relative error tolerance for Brent's algorithm * @param absErr absolute error tolerance for Brent's algorithm * @param maxIter maximum # of iterations to perform in Brent's algorithm * @param maxEval maximum # of Likelihood function evaluations in Brent's algorithm * * @return the value of the parameter that maximizes the function */ public static double maximize(UnivariateFunction fn, double gridStart, double gridEnd, double gridStep, double relErr, double absErr, int maxIter, int maxEval) { Interval interval = gridSearch(fn, gridStart, gridEnd, gridStep); BrentOptimizer bo = new BrentOptimizer(relErr, absErr); UnivariatePointValuePair max = bo.optimize( new MaxIter(maxIter), new MaxEval(maxEval), new SearchInterval(interval.getInf(), interval.getSup()), new UnivariateObjectiveFunction(fn), GoalType.MAXIMIZE); return max.getPoint(); } }