/// <summary>Update event.</summary>
protected override void OnSizeChanged()
{
this.Confidence = GetConfidenceInterval(1.0 - Size);
if (Analysis != null)
{
powerAnalysis.Size = Size;
powerAnalysis.ComputePower();
}
}
private void power(double stdDev, int samples)
{
this.powerAnalysis = new TTestPowerAnalysis(Hypothesis)
{
Samples = samples,
Effect = (EstimatedValue - HypothesizedValue) / stdDev,
Size = Size,
};
powerAnalysis.ComputePower();
}
public void TTestPowerAnalysisConstructorTest3()
{
// Examples from R's graphical manual
// http://rgm2.lab.nig.ac.jp/RGM2/func.php?rd_id=pwr:pwr.t.test
double actual, expected;
{
var target = new TTestPowerAnalysis(OneSampleHypothesis.ValueIsDifferentFromHypothesis)
{
Effect = 0.2,
Samples = 60,
Size = 0.10,
};
target.ComputePower();
expected = 0.4555818;
actual = target.Power;
Assert.AreEqual(expected, actual, 1e-5);
}
{
var target = new TwoSampleTTestPowerAnalysis(TwoSampleHypothesis.ValuesAreDifferent)
{
Effect = 2 / 2.8,
Samples1 = 30,
Samples2 = 30,
};
target.ComputePower();
expected = 0.7764889;
actual = target.Power;
Assert.AreEqual(expected, actual, 1e-6);
}
{
var target = new TwoSampleTTestPowerAnalysis(TwoSampleHypothesis.FirstValueIsGreaterThanSecond)
{
Effect = 0.3,
Power = 0.75,
};
target.ComputeSamples();
expected = 120.2232016;
actual = target.Samples1;
Assert.AreEqual(expected, actual, 1e-6);
Assert.AreEqual(target.Samples1, target.Samples2);
}
}
public void TTestPowerAnalysisConstructorTest7()
{
// When creating a power analysis, we have three things we can
// change. We can always freely configure two of those things
// and then ask the analysis to give us the third.
var analysis = new TTestPowerAnalysis(OneSampleHypothesis.ValueIsDifferentFromHypothesis);
// Those are:
double e = analysis.Effect; // the test's minimum detectable effect size
double n = analysis.Samples; // the number of samples in the test
double p = analysis.Power; // the probability of committing a type-2 error
// Let's set the desired effect size and the
// number of samples so we can get the power
analysis.Effect = 0.2; // we would like to detect at least 0.2 std. dev. apart
analysis.Samples = 60; // we would like to use at most 60 samples
analysis.ComputePower(); // what will be the power of this test?
double power = analysis.Power; // The power is going to be 0.33 (or 33%)
// Let's set the desired power and the number
// of samples so we can get the effect size
analysis.Power = 0.8; // we would like to create a test with 80% power
analysis.Samples = 60; // we would like to use at most 60 samples
analysis.ComputeEffect(); // what would be the minimum effect size we can detect?
double effect = analysis.Effect; // The effect will be 0.36 standard deviations.
// Let's set the desired power and the effect
// size so we can get the number of samples
analysis.Power = 0.8; // we would like to create a test with 80% power
analysis.Effect = 0.2; // we would like to detect at least 0.2 std. dev. apart
analysis.ComputeSamples();
double samples = analysis.Samples; // We would need around 199 samples.
Assert.AreEqual(198.15082094251142, samples, 1e-10);
Assert.AreEqual(0.36770431608203374, effect);
Assert.AreEqual(0.33167864622935495, power);
}
