Uses of Class
jphase.fit.ContPhaseFitter

Packages that use ContPhaseFitter
jphase.fit Provides capabilities for fitting Phase type distribution parameters from data. 
 

Uses of ContPhaseFitter in jphase.fit
 

Subclasses of ContPhaseFitter in jphase.fit
 class EMHyperErlangFit
          This class implements the Maximum Likelihood method proposed by Thümmler, Buchholz and Telek in "A novel approach for fitting probability distributions to real trace data with the EM algorithm", 2005.
 class EMHyperExpoFit
          This class implements the Maximum Likelihood method proposed by Khayari, Sadre and Haverkort in "Fitting world-wide web request traces with the EM algorithm", 2003.
 class EMPhaseFit
          This class implements the Maximum Likelihood method proposed by Asmussen, Nerman and Olsson in "Fitting Phase-type Distributions via the EM algorithm", 1996.
 class MLContPhaseFitter
          This class defines the behaviour for a class that implements a maximum likelihood algorithm for fitting data to a Continuous Phase-Type distribution
 class MomentsACPH2Fit
          This class implements the Matching Moments method proposed by Telek and Heindl in "Matching Moments for Acyclic discrete and continuous Phase-Type distributions of Second order", 2002.
 class MomentsACPHFit
          * This class implements the Matching Moments method proposed by Bobbio, Horvath and Telek in "Matching threee moments with minimal acyclic Phase-Type distributions", 2005.
 class MomentsContPhaseFitter
          This class defines the behaviour for a class that implements a moment matching algorithm for fitting data to a Continuous Phase-Type distribution
 class MomentsECCompleteFit
          This class implements the Matching Moments method proposed by Osogami and Harchol in "Closed form solutions for mapping general distributions to quasi-minimal PH distributions", 2005.
 class MomentsECPositiveFit
          This class implements the Matching Moments method proposed by Osogami and Harchol in "Closed form solutions for mapping general distributions to quasi-minimal PH distributions", 2005.