38 Double_t mainInf = signalExp+backgroundExp;
39 Double_t tau = 1./backgroundExp/(relativeBkgUncert*relativeBkgUncert);
40 Double_t auxiliaryInf = backgroundExp*tau;
77 Double_t mainInf = signalExp+backgroundExp;
78 Double_t auxiliaryInf = backgroundExp*tau;
94 Double_t tau = 1./backgroundObs/(relativeBkgUncert*relativeBkgUncert);
95 Double_t auxiliaryInf = backgroundObs*tau;
Double_t BinomialWithTauExpZ(Double_t sExp, Double_t bExp, Double_t tau)
Double_t BinomialObsZ(Double_t nObs, Double_t bExp, Double_t fractionalBUncertainty)
Double_t BinomialWithTauObsZ(Double_t nObs, Double_t bExp, Double_t tau)
Double_t BinomialWithTauObsP(Double_t nObs, Double_t bExp, Double_t tau)
Double_t BinomialObsP(Double_t nObs, Double_t, Double_t fractionalBUncertainty)
Double_t BinomialWithTauExpP(Double_t sExp, Double_t bExp, Double_t tau)
Double_t BinomialExpZ(Double_t sExp, Double_t bExp, Double_t fractionalBUncertainty)
Double_t BinomialExpP(Double_t sExp, Double_t bExp, Double_t fractionalBUncertainty)
Double_t PValueToSignificance(Double_t pvalue)
returns one-sided significance corresponding to a p-value
Double_t BetaIncomplete(Double_t x, Double_t a, Double_t b)
Calculates the incomplete Beta-function.