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Packages that use DiscPhaseVar | |
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jphase | This package provides capabilities for modeling Phase type distributions. |
jphase.fit | Provides capabilities for fitting Phase type distribution parameters from data. |
Uses of DiscPhaseVar in jphase |
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Classes in jphase that implement DiscPhaseVar | |
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class |
AbstractDiscPhaseVar
|
class |
DenseDiscPhaseVar
This class allows the creation and manipulation of Discrete Phase-type distributions represented by dense matrices. |
class |
SparseDiscPhaseVar
|
Methods in jphase that return DiscPhaseVar | |
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DiscPhaseVar |
SparseDiscPhaseVar.copy()
|
DiscPhaseVar |
DiscPhaseVar.copy()
Creates a deep copy of the original Phase-Type Variable |
DiscPhaseVar |
DenseDiscPhaseVar.copy()
|
DiscPhaseVar |
DiscPhaseVar.max(DiscPhaseVar B)
Returns the maximum between the variable B and the original: res = max(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.max(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.max(DiscPhaseVar B,
DiscPhaseVar res)
Returns the maximum between the variable B and the original: res = max(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.max(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.min(DiscPhaseVar B)
Returns the minimum between the variable B and the original: res = min(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.min(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.min(DiscPhaseVar B,
DiscPhaseVar res)
Returns the minimum between the variable B and the original: res = min(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.min(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.mix(double p,
DiscPhaseVar B)
Computes the distribution of the mix: res = A*p + B*(1-p) |
DiscPhaseVar |
AbstractDiscPhaseVar.mix(double p,
DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.mix(double p,
DiscPhaseVar B,
DiscPhaseVar res)
Computes the distribution of the mix: res = A*p + B*(1-p) |
DiscPhaseVar |
AbstractDiscPhaseVar.mix(double p,
DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
SparseDiscPhaseVar.newVar(int n)
|
DiscPhaseVar |
DiscPhaseVar.newVar(int n)
Creates a new variable of the same class of the original Discrete Phase-Type Variable |
DiscPhaseVar |
DenseDiscPhaseVar.newVar(int n)
|
DiscPhaseVar |
DiscPhaseVar.sum(DiscPhaseVar B)
Computes the sum of variables: res = A +B |
DiscPhaseVar |
AbstractDiscPhaseVar.sum(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.sum(DiscPhaseVar B,
DiscPhaseVar res)
Computes the sum of variables: res = A +B |
DiscPhaseVar |
AbstractDiscPhaseVar.sum(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.sumGeom(double p)
Returns the sum of a geometric number of independent copies of this variable |
DiscPhaseVar |
AbstractDiscPhaseVar.sumGeom(double p)
|
DiscPhaseVar |
DiscPhaseVar.sumPH(DiscPhaseVar B)
Returns the sum of a Phase number of Discrete Phase-type distributions |
DiscPhaseVar |
AbstractDiscPhaseVar.sumPH(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.sumPH(DiscPhaseVar B,
DiscPhaseVar res)
Returns the sum of a Phase number of Discrete Phase-type distributions |
DiscPhaseVar |
AbstractDiscPhaseVar.sumPH(DiscPhaseVar B,
DiscPhaseVar res)
|
Methods in jphase with parameters of type DiscPhaseVar | |
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DiscPhaseVar |
DiscPhaseVar.max(DiscPhaseVar B)
Returns the maximum between the variable B and the original: res = max(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.max(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.max(DiscPhaseVar B,
DiscPhaseVar res)
Returns the maximum between the variable B and the original: res = max(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.max(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.min(DiscPhaseVar B)
Returns the minimum between the variable B and the original: res = min(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.min(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.min(DiscPhaseVar B,
DiscPhaseVar res)
Returns the minimum between the variable B and the original: res = min(A,B) |
DiscPhaseVar |
AbstractDiscPhaseVar.min(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.mix(double p,
DiscPhaseVar B)
Computes the distribution of the mix: res = A*p + B*(1-p) |
DiscPhaseVar |
AbstractDiscPhaseVar.mix(double p,
DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.mix(double p,
DiscPhaseVar B,
DiscPhaseVar res)
Computes the distribution of the mix: res = A*p + B*(1-p) |
DiscPhaseVar |
AbstractDiscPhaseVar.mix(double p,
DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.sum(DiscPhaseVar B)
Computes the sum of variables: res = A +B |
DiscPhaseVar |
AbstractDiscPhaseVar.sum(DiscPhaseVar v2)
|
DiscPhaseVar |
DiscPhaseVar.sum(DiscPhaseVar B,
DiscPhaseVar res)
Computes the sum of variables: res = A +B |
DiscPhaseVar |
AbstractDiscPhaseVar.sum(DiscPhaseVar v2,
DiscPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.sumPH(DiscPhaseVar B)
Returns the sum of a Phase number of Discrete Phase-type distributions |
ContPhaseVar |
ContPhaseVar.sumPH(DiscPhaseVar B)
Returns the sum of a Phase number of Continuous Phase-type distributions |
DiscPhaseVar |
AbstractDiscPhaseVar.sumPH(DiscPhaseVar v2)
|
ContPhaseVar |
AbstractContPhaseVar.sumPH(DiscPhaseVar v2)
|
ContPhaseVar |
ContPhaseVar.sumPH(DiscPhaseVar B,
ContPhaseVar res)
Returns the sum of a Phase number of Continuous Phase-type distributions |
ContPhaseVar |
AbstractContPhaseVar.sumPH(DiscPhaseVar B,
ContPhaseVar res)
|
DiscPhaseVar |
DiscPhaseVar.sumPH(DiscPhaseVar B,
DiscPhaseVar res)
Returns the sum of a Phase number of Discrete Phase-type distributions |
DiscPhaseVar |
AbstractDiscPhaseVar.sumPH(DiscPhaseVar B,
DiscPhaseVar res)
|
Uses of DiscPhaseVar in jphase.fit |
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Fields in jphase.fit declared as DiscPhaseVar | |
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protected DiscPhaseVar |
DiscPhaseFitter.var
Fitted Discrete Phase-Type variable |
Methods in jphase.fit that return DiscPhaseVar | |
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DiscPhaseVar |
MomentsADPH2Fit.fit()
|
abstract DiscPhaseVar |
DiscPhaseFitter.fit()
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