| IndTestPP-package |
Tests of Independence and Analysis of Dependence between Point Processes in Time |
| BinPer |
Percentage of concordant intervals |
| buscar |
Generating points in a Poisson process |
| calcdist |
Calculates the set of close points and the mean distance in a vector of processes, for each point in the first process |
| calcNmu |
Conditional test of independence between two Poisson process |
| ComplPos |
Changes format of the vector of occurrence times in a point process |
| CondTest |
Conditional test of independence between two Poisson process |
| CountingCor |
Correlation between the counting variables in two point processes |
| countP |
Correlation between the counting variables in two point processes |
| CPSPpoints |
Identifying the occurrence points of the indicator processes in a CPSP |
| CPSPPOTevents |
Identifying the occurrence points of the indicator processes in the CPSP from a POT approach |
| depchi |
Estimating extremal dependence coefficientes |
| DepCPSPKenv |
Estimating cross K-function and envelopes for marginal processes of a CPSP |
| DepCPSPNHK |
Estimating cross K-function and envelopes for marginal processes of a CPSP |
| DepNHCPSP |
Generating a Common Poisson Shock Process |
| DepNHNeyScot |
Generating a multivariate Neyman-Scott cluster process |
| DepNHPPMarked |
Generating dependent point processes from a marked Poison Process |
| DepNHPPqueue |
Generating dependent point processes by a tandem queueing network |
| DepNHPPqueue1 |
Generating dependent point processes by a tandem queueing network |
| DepNHPPqueueI |
Generating dependent point processes by a tandem queueing network |
| DepqueueKenv |
Estimating cross K-function and envelopes for the marginal processes of a queue |
| DepqueueNHK |
Estimating cross K-function and envelopes for the marginal processes of a queue |
| DistObs |
Calculates the set of close points and the mean distance in a vector of processes, for each point in the first process |
| DistShift |
Generates by translation a vector of independent processes, and calculates the set of close points and the mean distance for each point in the first process |
| DistSim |
Generates a vector of independent processes, and calculates the set of close points and the mean distance for each point in the first process |
| DistSimfix |
Generates a vector of independent processes, and calculates the set of close points and the mean distance for each point in the first process |
| DutilleulPlot |
A graphical test to assess independence between two point processes |
| firstt |
Simulated intervals in a vector of point processes |
| fn2 |
Parametric bootstrap test of independence between point processes |
| fn2B |
Lotwick-Silverman test of independence between point processes |
| fn2fix |
Parametric bootstrap test of independence between point processes |
| fn3 |
A graphical test to assess independence between two point processes |
| funMPPGen |
Simulated intervals in a vector of point processes |
| genbiPos |
Calculating the set of close points |
| GenSons |
Generating a multivariate Neyman-Scott cluster process |
| gentriPos |
Calculating the set of close points |
| HDFaux |
Estimating the D-function |
| IndNHNeyScot |
Generating a vector of independent Neyman-Scott cluster processes |
| IndNHPP |
Generates trajectories of independent Poisson processes |
| IndTestPP |
Tests of Independence and Analysis of Dependence between Point Processes in Time |
| IntMPP |
Simulated intervals in a vector of point processes |
| Jenv |
Estimating the cross J-function and testing independence |
| Kenv |
Estimating cross K-function and testing independence |
| marca |
Identifying the occurrence points of the indicator processes in a CPSP |
| miKS |
Parametric bootstrap test of independence between point processes |
| mirank |
Parametric bootstrap test of independence between point processes |
| nearestD |
Estimating the D-function |
| nearestdist |
Distance to the nearest point |
| NHD |
Estimating the D-function |
| NHDaux |
Estimating the D-function |
| NHDFaux |
Estimating the cross J-function and testing independence |
| NHF |
Estimating the F-function |
| NHFaux |
Estimating the F-function |
| NHJ |
Estimating the cross J-function and testing independence |
| NHJaux |
Estimating the cross J-function and testing independence |
| NHK |
Estimating cross K-function and testing independence |
| NHKaux |
Estimating cross K-function and testing independence |
| NHKaux2 |
Estimating cross K-function and testing independence |
| NHKaux3 |
Estimating cross K-function and testing independence |
| nMenr |
Estimating the D-function |
| NumI |
Simulated intervals in a vector of point processes |
| pdist |
Distance to the nearest point |
| PlotICPSP |
Plotting the occurrence points of the indicator processes in a CPSP |
| PlotMargP |
Plotting the occurrence points of a vector of point processes |
| PlotMCPSP |
Plotting the occurrence points of the marginal processes in a CPSP |
| prodN2 |
Estimating the D-function |
| PsimNHPc |
Generating a Common Poisson Shock Process |
| simHPc |
Generating points in a homogenous Poisson process |
| simNHPc |
Generating points in a Poisson process |
| SpecGap |
Stationary distribution of a matrix and its spectral gap |
| TestIndLS |
Lotwick-Silverman test of independence between point processes |
| TestIndNH |
Parametric bootstrap test of independence between point processes |
| TranM |
Estimation of the transition matrix of a Markov chain |
| TxBHZ |
Daily maximum temperature at Barcelona, Huesca and Zaragoza |
| uniongentri |
Calculating the set of close points |
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