问题
I have calculated mean and SD of a set of values. Now I need to draw a bell curve using those value to show the normal distribution in JAVA Swing. How do i proceed with this situation.
List : 204 297 348 528 681 684 785 957 1044 1140 1378 1545 1818
Total count : 13
Average value (Mean): 877.615384615385
Standard deviation (SD) : 477.272626245539
If i can get the x and y cordinates I can do it, but how do i get those values?
回答1:
First you need to calculate the variance for the set. The variance is computed as the average squared deviation of each number from its mean.
double variance(double[] population) {
long n = 0;
double mean = 0;
double s = 0.0;
for (double x : population) {
n++;
double delta = x – mean;
mean += delta / n;
s += delta * (x – mean);
}
// if you want to calculate std deviation
return (s / n);
}
Once you have that you can choose x depending on your graph resolution compared to your value set spread and plug it in to the following equation to get y.
protected double stdDeviation, variance, mean;
public double getY(double x) {
return Math.pow(Math.exp(-(((x - mean) * (x - mean)) / ((2 * variance)))), 1 / (stdDeviation * Math.sqrt(2 * Math.PI)));
}
To display the resulting set: say we take the population set you laid out and decide you want to show x=0 to x=2000 on a graph with an x resolution of 1000 pixels. Then you would plug in a loop (int x = 0; x <= 2000; x = 2) and feed those values into the equation above to get your y values for the pair. Since the y you want to show is 0-1 then you map these values to whatever you want your y resolution to be with appropriate rounding behavior so your graph doesn't end up too jaggy. So if you want your y resolution to be 500 pixels then you set 0 to 0 and 1 to 500 and .5 to 250 etc. etc. This is a contrived example and you might need a lot more flexibility but I think it illustrates the point. Most graphing libraries will handle these little things for you.
回答2:
Here's an example of plotting some Gaussian curves using XChart. The code can be found here. Disclaimer: I'm the creator of the XChart Java charting library.
public class ThemeChart03 implements ExampleChart {
public static void main(String[] args) {
ExampleChart exampleChart = new ThemeChart03();
Chart chart = exampleChart.getChart();
new SwingWrapper(chart).displayChart();
}
@Override
public Chart getChart() {
// Create Chart
Chart_XY chart = new ChartBuilder_XY().width(800).height(600).theme(ChartTheme.Matlab).title("Matlab Theme").xAxisTitle("X").yAxisTitle("Y").build();
// Customize Chart
chart.getStyler().setPlotGridLinesVisible(false);
chart.getStyler().setXAxisTickMarkSpacingHint(100);
// Series
List<Integer> xData = new ArrayList<Integer>();
for (int i = 0; i < 640; i++) {
xData.add(i);
}
List<Double> y1Data = getYAxis(xData, 320, 60);
List<Double> y2Data = getYAxis(xData, 320, 100);
List<Double> y3Data = new ArrayList<Double>(xData.size());
for (int i = 0; i < 640; i++) {
y3Data.add(y1Data.get(i) - y2Data.get(i));
}
chart.addSeries("Gaussian 1", xData, y1Data);
chart.addSeries("Gaussian 2", xData, y2Data);
chart.addSeries("Difference", xData, y3Data);
return chart;
}
private List<Double> getYAxis(List<Integer> xData, double mean, double std) {
List<Double> yData = new ArrayList<Double>(xData.size());
for (int i = 0; i < xData.size(); i++) {
yData.add((1 / (std * Math.sqrt(2 * Math.PI))) * Math.exp(-(((xData.get(i) - mean) * (xData.get(i) - mean)) / ((2 * std * std)))));
}
return yData;
}
}
The resulting plot looks like this:
来源:https://stackoverflow.com/questions/5452490/java-guassian-distribution-bell-curve