Parametric Statistical Modelling and Inference for the
'spatstat' Family
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Documentation for package ‘spatstat.model’ version 3.3-6
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A B C D E F G H I K L M N O P Q R S T U V W Z misc
| spatstat.model-package | The spatstat.model Package |
-- A --
| addvar | Added Variable Plot for Point Process Model |
| AIC.dppm | Log Likelihood and AIC for Fitted Determinantal Point Process Model |
| AIC.kppm | Log Likelihood and AIC for Fitted Cox or Cluster Point Process Model |
| AIC.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| AIC.ppm | Log Likelihood and AIC for Point Process Model |
| anova.mppm | ANOVA for Fitted Point Process Models for Replicated Patterns |
| anova.ppm | ANOVA for Fitted Point Process Models |
| anova.slrm | Analysis of Deviance for Spatial Logistic Regression Models |
| AreaInter | The Area Interaction Point Process Model |
| as.function.leverage.ppm | Convert Leverage Object to Function of Coordinates |
| as.fv.dppm | Convert Fitted Model To Class fv |
| as.fv.kppm | Convert Fitted Model To Class fv |
| as.fv.minconfit | Convert Fitted Model To Class fv |
| as.im.leverage.ppm | Methods for Leverage Objects |
| as.interact | Extract Interaction Structure |
| as.interact.fii | Extract Interaction Structure |
| as.interact.interact | Extract Interaction Structure |
| as.interact.ppm | Extract Interaction Structure |
| as.interact.zgibbsmodel | Methods for Gibbs Models |
| as.isf.zgibbsmodel | Methods for Gibbs Models |
| as.layered.msr | Convert Measure To Layered Object |
| as.owin.dppm | Convert Data To Class owin |
| as.owin.influence.ppm | Methods for Influence Objects |
| as.owin.kppm | Convert Data To Class owin |
| as.owin.leverage.ppm | Methods for Leverage Objects |
| as.owin.msr | Convert Data To Class owin |
| as.owin.ppm | Convert Data To Class owin |
| as.owin.slrm | Convert Data To Class owin |
| as.ppm | Extract Fitted Point Process Model |
| as.ppm.dppm | Extract Fitted Point Process Model |
| as.ppm.kppm | Extract Fitted Point Process Model |
| as.ppm.ppm | Extract Fitted Point Process Model |
| as.ppm.profilepl | Extract Fitted Point Process Model |
| as.ppm.rppm | Extract Fitted Point Process Model |
| as.ppp.influence.ppm | Methods for Influence Objects |
| auc.kppm | Area Under ROC Curve |
| auc.ppm | Area Under ROC Curve |
| auc.slrm | Area Under ROC Curve |
-- B --
| BadGey | Hybrid Geyer Point Process Model |
| bc | Bias Correction for Fitted Model |
| bc.ppm | Bias Correction for Fitted Model |
| berman.test.ppm | Berman's Tests for Point Process Model |
-- C --
| cauchy.estK | Fit the Neyman-Scott cluster process with Cauchy kernel |
| cauchy.estpcf | Fit the Neyman-Scott cluster process with Cauchy kernel |
| cdf.test.mppm | Spatial Distribution Test for Multiple Point Process Model |
| cdf.test.ppm | Spatial Distribution Test for Point Pattern or Point Process Model |
| cdf.test.slrm | Spatial Distribution Test for Point Pattern or Point Process Model |
| closepaircounts | Count Close Pairs of Points |
| clusterfield.kppm | Field of clusters |
| clusterfit | Fit Cluster or Cox Point Process Model via Minimum Contrast |
| clusterkernel.kppm | Extract Cluster Offspring Kernel |
| clusterradius.kppm | Compute or Extract Effective Range of Cluster Kernel |
| clusterradius.zclustermodel | Methods for Cluster Models |
| coef.dppm | Methods for Determinantal Point Process Models |
| coef.fii | Methods for Fitted Interactions |
| coef.kppm | Methods for Cluster Point Process Models |
| coef.mppm | Coefficients of Point Process Model Fitted to Multiple Point Patterns |
| coef.ppm | Coefficients of Fitted Point Process Model |
| coef.slrm | Coefficients of Fitted Spatial Logistic Regression Model |
| coef.summary.fii | Methods for Fitted Interactions |
| coef<-.fii | Methods for Fitted Interactions |
| compareFit | Residual Diagnostics for Multiple Fitted Models |
| Concom | The Connected Component Process Model |
| contour.leverage.ppm | Plot Leverage Function |
| contour.objsurf | Methods for Objective Function Surfaces |
| crosspaircounts | Count Close Pairs of Points |
-- D --
| data.ppm | Extract Original Data from a Fitted Point Process Model |
| detpointprocfamilyfun | Construct a New Determinantal Point Process Model Family Function |
| deviance.ppm | Log Likelihood and AIC for Point Process Model |
| deviance.slrm | Methods for Spatial Logistic Regression Models |
| dfbetas.ppm | Parameter Influence Measure |
| dfbetas.slrm | Leverage and Influence Diagnostics for Spatial Logistic Regression |
| dffit | Case Deletion Effect Measure of Fitted Model |
| dffit.ppm | Case Deletion Effect Measure of Fitted Model |
| dffit.slrm | Leverage and Influence Diagnostics for Spatial Logistic Regression |
| diagnose.ppm | Diagnostic Plots for Fitted Point Process Model |
| DiggleGatesStibbard | Diggle-Gates-Stibbard Point Process Model |
| DiggleGratton | Diggle-Gratton model |
| dim.detpointprocfamily | Dimension of Determinantal Point Process Model |
| domain.dppm | Extract the Domain of any Spatial Object |
| domain.influence.ppm | Methods for Influence Objects |
| domain.kppm | Extract the Domain of any Spatial Object |
| domain.leverage.ppm | Methods for Leverage Objects |
| domain.msr | Extract the Domain of any Spatial Object |
| domain.ppm | Extract the Domain of any Spatial Object |
| domain.slrm | Extract the Domain of any Spatial Object |
| dppapproxkernel | Approximate Determinantal Point Process Kernel |
| dppapproxpcf | Approximate Pair Correlation Function of Determinantal Point Process Model |
| dppBessel | Bessel Type Determinantal Point Process Model |
| dppCauchy | Generalized Cauchy Determinantal Point Process Model |
| dppeigen | Internal function calculating eig and index |
| dppGauss | Gaussian Determinantal Point Process Model |
| dppkernel | Extract Kernel from Determinantal Point Process Model Object |
| dppm | Fit Determinantal Point Process Model |
| dppMatern | Whittle-Matern Determinantal Point Process Model |
| dppparbounds | Parameter Bound for a Determinantal Point Process Model |
| dppPowerExp | Power Exponential Spectral Determinantal Point Process Model |
| dppspecden | Extract Spectral Density from Determinantal Point Process Model Object |
| dppspecdenrange | Range of Spectral Density of a Determinantal Point Process Model |
| dummify | Convert Data to Numeric Values by Constructing Dummy Variables |
| dummy.ppm | Extract Dummy Points Used to Fit a Point Process Model |
-- E --
| eem | Exponential Energy Marks |
| eem.ppm | Exponential Energy Marks |
| eem.slrm | Exponential Energy Marks |
| effectfun | Compute Fitted Effect of a Spatial Covariate in a Point Process Model |
| emend | Force Model to be Valid |
| emend.ppm | Force Point Process Model to be Valid |
| emend.slrm | Force Spatial Logistic Regression Model to be Valid |
| envelope.kppm | Simulation Envelopes of Summary Function |
| envelope.ppm | Simulation Envelopes of Summary Function |
| envelope.slrm | Simulation Envelopes of Summary Function |
| exactMPLEstrauss | Exact Maximum Pseudolikelihood Estimate for Stationary Strauss Process |
| extractAIC.dppm | Log Likelihood and AIC for Fitted Determinantal Point Process Model |
| extractAIC.kppm | Log Likelihood and AIC for Fitted Cox or Cluster Point Process Model |
| extractAIC.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| extractAIC.ppm | Log Likelihood and AIC for Point Process Model |
-- F --
| Fiksel | The Fiksel Interaction |
| fitin | Extract the Interaction from a Fitted Point Process Model |
| fitin.ppm | Extract the Interaction from a Fitted Point Process Model |
| fitin.profilepl | Extract the Interaction from a Fitted Point Process Model |
| fitted.dppm | Prediction from a Fitted Determinantal Point Process Model |
| fitted.kppm | Prediction from a Fitted Cluster Point Process Model |
| fitted.mppm | Fitted Conditional Intensity for Multiple Point Process Model |
| fitted.ppm | Fitted Conditional Intensity for Point Process Model |
| fitted.rppm | Make Predictions From a Recursively Partitioned Point Process Model |
| fitted.slrm | Fitted Probabilities for Spatial Logistic Regression |
| fixef.mppm | Extract Fixed Effects from Point Process Model |
| formula.dppm | Methods for Determinantal Point Process Models |
| formula.kppm | Methods for Cluster Point Process Models |
| formula.ppm | Model Formulae for Gibbs Point Process Models |
| formula.slrm | Methods for Spatial Logistic Regression Models |
-- G --
| Gcom | Model Compensator of Nearest Neighbour Function |
| getCall.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| Geyer | Geyer's Saturation Point Process Model |
| Gres | Residual G Function |
-- H --
| Hardcore | The Hard Core Point Process Model |
| hardcoredist | Extract the Hard Core Distance of a Point Process Model |
| hardcoredist.fii | Extract the Hard Core Distance of a Point Process Model |
| hardcoredist.ppm | Extract the Hard Core Distance of a Point Process Model |
| harmonic | Basis for Harmonic Functions |
| harmonise.msr | Make Measures Compatible |
| has.offset | Identify Covariates Involved in each Model Term |
| has.offset.term | Identify Covariates Involved in each Model Term |
| HierHard | The Hierarchical Hard Core Point Process Model |
| hierpair.family | Hierarchical Pairwise Interaction Process Family |
| HierStrauss | The Hierarchical Strauss Point Process Model |
| HierStraussHard | The Hierarchical Strauss Hard Core Point Process Model |
| Hybrid | Hybrid Interaction Point Process Model |
| hybrid.family | Hybrid Interaction Family |
-- I --
| ic | Model selection criteria for the intensity function of a point process |
| ic.kppm | Model selection criteria for the intensity function of a point process |
| ic.ppm | Model selection criteria for the intensity function of a point process |
| image.objsurf | Methods for Objective Function Surfaces |
| improve.kppm | Improve Intensity Estimate of Fitted Cluster Point Process Model |
| influence.ppm | Influence Measure for Spatial Point Process Model |
| influence.slrm | Leverage and Influence Diagnostics for Spatial Logistic Regression |
| inforder.family | Infinite Order Interaction Family |
| integral.influence.ppm | Methods for Influence Objects |
| integral.leverage.ppm | Methods for Leverage Objects |
| integral.msr | Integral of a Measure |
| intensity.detpointprocfamily | Intensity of Determinantal Point Process Model |
| intensity.dppm | Intensity of Determinantal Point Process Model |
| intensity.ppm | Intensity of Fitted Point Process Model |
| intensity.slrm | Intensity of Fitted Spatial Logistic Regression Model |
| intensity.zclustermodel | Methods for Cluster Models |
| intensity.zgibbsmodel | Methods for Gibbs Models |
| interactionorder | Determine the Order of Interpoint Interaction in a Model |
| interactionorder.fii | Determine the Order of Interpoint Interaction in a Model |
| interactionorder.interact | Determine the Order of Interpoint Interaction in a Model |
| interactionorder.isf | Determine the Order of Interpoint Interaction in a Model |
| interactionorder.ppm | Determine the Order of Interpoint Interaction in a Model |
| interactionorder.zgibbsmodel | Methods for Gibbs Models |
| ippm | Fit Point Process Model Involving Irregular Trend Parameters |
| is.dppm | Recognise Fitted Determinantal Point Process Models |
| is.hybrid | Test Whether Object is a Hybrid |
| is.hybrid.interact | Test Whether Object is a Hybrid |
| is.hybrid.ppm | Test Whether Object is a Hybrid |
| is.kppm | Test Whether An Object Is A Fitted Point Process Model |
| is.lppm | Test Whether An Object Is A Fitted Point Process Model |
| is.marked.ppm | Test Whether A Point Process Model is Marked |
| is.multitype.ppm | Test Whether A Point Process Model is Multitype |
| is.poisson.interact | Recognise Stationary and Poisson Point Process Models |
| is.poisson.kppm | Recognise Stationary and Poisson Point Process Models |
| is.poisson.ppm | Recognise Stationary and Poisson Point Process Models |
| is.poisson.slrm | Recognise Stationary and Poisson Point Process Models |
| is.poisson.zgibbsmodel | Methods for Gibbs Models |
| is.poissonclusterprocess | Recognise Poisson Cluster Process Models |
| is.poissonclusterprocess.default | Recognise Poisson Cluster Process Models |
| is.poissonclusterprocess.kppm | Recognise Poisson Cluster Process Models |
| is.poissonclusterprocess.zclustermodel | Recognise Poisson Cluster Process Models |
| is.ppm | Test Whether An Object Is A Fitted Point Process Model |
| is.slrm | Test Whether An Object Is A Fitted Point Process Model |
| is.stationary.detpointprocfamily | Recognise Stationary and Poisson Point Process Models |
| is.stationary.dppm | Recognise Stationary and Poisson Point Process Models |
| is.stationary.kppm | Recognise Stationary and Poisson Point Process Models |
| is.stationary.ppm | Recognise Stationary and Poisson Point Process Models |
| is.stationary.slrm | Recognise Stationary and Poisson Point Process Models |
| is.stationary.zgibbsmodel | Methods for Gibbs Models |
| isf.object | Interaction Structure Family Objects |
-- K --
| Kcom | Model Compensator of K Function |
| Kmodel | K Function or Pair Correlation Function of a Point Process Model |
| Kmodel.detpointprocfamily | K-function or Pair Correlation Function of a Determinantal Point Process Model |
| Kmodel.dppm | K-function or Pair Correlation Function of a Determinantal Point Process Model |
| Kmodel.kppm | K Function or Pair Correlation Function of Cluster Model or Cox model |
| Kmodel.ppm | K Function or Pair Correlation Function of Gibbs Point Process model |
| Kmodel.zclustermodel | Methods for Cluster Models |
| kppm | Fit Cluster or Cox Point Process Model |
| kppm.formula | Fit Cluster or Cox Point Process Model |
| kppm.ppp | Fit Cluster or Cox Point Process Model |
| kppm.quad | Fit Cluster or Cox Point Process Model |
| Kres | Residual K Function |
-- L --
| labels.dppm | Methods for Determinantal Point Process Models |
| labels.kppm | Methods for Cluster Point Process Models |
| labels.slrm | Methods for Spatial Logistic Regression Models |
| LambertW | Lambert's W Function |
| LennardJones | The Lennard-Jones Potential |
| leverage | Leverage Measure for Spatial Point Process Model |
| leverage.ppm | Leverage Measure for Spatial Point Process Model |
| leverage.slrm | Leverage and Influence Diagnostics for Spatial Logistic Regression |
| lgcp.estK | Fit a Log-Gaussian Cox Point Process by Minimum Contrast |
| lgcp.estpcf | Fit a Log-Gaussian Cox Point Process by Minimum Contrast |
| lines.traj | Methods for Trajectories of Function Evaluations |
| logLik.dppm | Log Likelihood and AIC for Fitted Determinantal Point Process Model |
| logLik.kppm | Log Likelihood and AIC for Fitted Cox or Cluster Point Process Model |
| logLik.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| logLik.ppm | Log Likelihood and AIC for Point Process Model |
| logLik.slrm | Loglikelihood of Spatial Logistic Regression |
| lurking | Lurking Variable Plot |
| lurking.mppm | Lurking Variable Plot for Multiple Point Patterns |
| lurking.ppm | Lurking Variable Plot |
| lurking.ppp | Lurking Variable Plot |
-- M --
| matclust.estK | Fit the Matern Cluster Point Process by Minimum Contrast |
| matclust.estpcf | Fit the Matern Cluster Point Process by Minimum Contrast Using Pair Correlation |
| mean.leverage.ppm | Methods for Leverage Objects |
| measureContinuous | Discrete and Continuous Components of a Measure |
| measureDiscrete | Discrete and Continuous Components of a Measure |
| measureNegative | Positive and Negative Parts, and Variation, of a Measure |
| measurePositive | Positive and Negative Parts, and Variation, of a Measure |
| measureVariation | Positive and Negative Parts, and Variation, of a Measure |
| measureWeighted | Weighted Version of a Measure |
| methods.dppm | Methods for Determinantal Point Process Models |
| methods.fii | Methods for Fitted Interactions |
| methods.influence.ppm | Methods for Influence Objects |
| methods.kppm | Methods for Cluster Point Process Models |
| methods.leverage.ppm | Methods for Leverage Objects |
| methods.objsurf | Methods for Objective Function Surfaces |
| methods.ppm | Class of Fitted Point Process Models |
| methods.slrm | Methods for Spatial Logistic Regression Models |
| methods.traj | Methods for Trajectories of Function Evaluations |
| methods.zclustermodel | Methods for Cluster Models |
| methods.zgibbsmodel | Methods for Gibbs Models |
| mincontrast | Method of Minimum Contrast |
| model.covariates | Identify Covariates Involved in each Model Term |
| model.depends | Identify Covariates Involved in each Model Term |
| model.frame.dppm | Extract the Variables in a Point Process Model |
| model.frame.kppm | Extract the Variables in a Point Process Model |
| model.frame.ppm | Extract the Variables in a Point Process Model |
| model.frame.slrm | Extract the Variables in a Point Process Model |
| model.images | Compute Images of Constructed Covariates |
| model.images.dppm | Compute Images of Constructed Covariates |
| model.images.kppm | Compute Images of Constructed Covariates |
| model.images.ppm | Compute Images of Constructed Covariates |
| model.images.slrm | Compute Images of Constructed Covariates |
| model.is.additive | Identify Covariates Involved in each Model Term |
| model.matrix.dppm | Extract Design Matrix from Point Process Model |
| model.matrix.ippm | Extract Design Matrix from Point Process Model |
| model.matrix.kppm | Extract Design Matrix from Point Process Model |
| model.matrix.mppm | Extract Design Matrix of Point Process Model for Several Point Patterns |
| model.matrix.ppm | Extract Design Matrix from Point Process Model |
| model.matrix.slrm | Extract Design Matrix from Spatial Logistic Regression Model |
| mppm | Fit Point Process Model to Several Point Patterns |
| msr | Signed or Vector-Valued Measure |
| MultiHard | The Multitype Hard Core Point Process Model |
| MultiStrauss | The Multitype Strauss Point Process Model |
| MultiStraussHard | The Multitype/Hard Core Strauss Point Process Model |
-- N --
| nobs.dppm | Log Likelihood and AIC for Fitted Determinantal Point Process Model |
| nobs.kppm | Log Likelihood and AIC for Fitted Cox or Cluster Point Process Model |
| nobs.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| nobs.ppm | Log Likelihood and AIC for Point Process Model |
| npfun | Dummy Function Returns Number of Points |
-- O --
| objsurf | Objective Function Surface |
| objsurf.dppm | Objective Function Surface |
| objsurf.kppm | Objective Function Surface |
| objsurf.minconfit | Objective Function Surface |
| Ops.msr | Arithmetic Operations on Measures |
| Ord | Generic Ord Interaction model |
| ord.family | Ord Interaction Process Family |
| OrdThresh | Ord's Interaction model |
-- P --
| PairPiece | The Piecewise Constant Pairwise Interaction Point Process Model |
| pairsat.family | Saturated Pairwise Interaction Point Process Family |
| Pairwise | Generic Pairwise Interaction model |
| pairwise.family | Pairwise Interaction Process Family |
| palmdiagnose | Diagnostic based on Palm Intensity |
| panel.contour | Panel Plots using Colour Image or Contour Lines |
| panel.histogram | Panel Plots using Colour Image or Contour Lines |
| panel.image | Panel Plots using Colour Image or Contour Lines |
| panysib | Probability that a Point Has Any Siblings |
| parameters | Extract Model Parameters in Understandable Form |
| parameters.dppm | Extract Model Parameters in Understandable Form |
| parameters.fii | Extract Model Parameters in Understandable Form |
| parameters.interact | Extract Model Parameters in Understandable Form |
| parameters.kppm | Extract Model Parameters in Understandable Form |
| parameters.ppm | Extract Model Parameters in Understandable Form |
| parameters.profilepl | Extract Model Parameters in Understandable Form |
| parameters.slrm | Extract Model Parameters in Understandable Form |
| parres | Partial Residuals for Point Process Model |
| pcfmodel | K Function or Pair Correlation Function of a Point Process Model |
| pcfmodel.detpointprocfamily | K-function or Pair Correlation Function of a Determinantal Point Process Model |
| pcfmodel.dppm | K-function or Pair Correlation Function of a Determinantal Point Process Model |
| pcfmodel.kppm | K Function or Pair Correlation Function of Cluster Model or Cox model |
| pcfmodel.ppm | K Function or Pair Correlation Function of Gibbs Point Process model |
| pcfmodel.zclustermodel | Methods for Cluster Models |
| Penttinen | Penttinen Interaction |
| persp.leverage.ppm | Plot Leverage Function |
| persp.objsurf | Methods for Objective Function Surfaces |
| plot.diagppm | Diagnostic Plots for Fitted Point Process Model |
| plot.dppm | Plot a fitted determinantal point process |
| plot.fii | Methods for Fitted Interactions |
| plot.influence.ppm | Plot Influence Measure |
| plot.kppm | Plot a fitted cluster point process |
| plot.leverage.ppm | Plot Leverage Function |
| plot.mppm | plot a Fitted Multiple Point Process Model |
| plot.msr | Plot a Signed or Vector-Valued Measure |
| plot.objsurf | Methods for Objective Function Surfaces |
| plot.palmdiag | Plot the Palm Intensity Diagnostic |
| plot.plotppm | Plot a plotppm Object Created by plot.ppm |
| plot.ppm | plot a Fitted Point Process Model |
| plot.profilepl | Plot Profile Likelihood |
| plot.rppm | Plot a Recursively Partitioned Point Process Model |
| plot.slrm | Plot a Fitted Spatial Logistic Regression |
| plot.traj | Methods for Trajectories of Function Evaluations |
| Poisson | Poisson Point Process Model |
| polynom | Polynomial in One or Two Variables |
| ppm | Fit Point Process Model to Data |
| ppm.formula | Fit Point Process Model to Data |
| ppm.object | Class of Fitted Point Process Models |
| ppm.ppp | Fit Point Process Model to Point Pattern Data |
| ppm.quad | Fit Point Process Model to Point Pattern Data |
| ppmInfluence | Leverage and Influence Measures for Spatial Point Process Model |
| predict.dppm | Prediction from a Fitted Determinantal Point Process Model |
| predict.kppm | Prediction from a Fitted Cluster Point Process Model |
| predict.mppm | Prediction for Fitted Multiple Point Process Model |
| predict.ppm | Prediction from a Fitted Point Process Model |
| predict.rppm | Make Predictions From a Recursively Partitioned Point Process Model |
| predict.slrm | Predicted or Fitted Values from Spatial Logistic Regression |
| predict.zclustermodel | Methods for Cluster Models |
| print.dppm | Methods for Determinantal Point Process Models |
| print.fii | Methods for Fitted Interactions |
| print.kppm | Methods for Cluster Point Process Models |
| print.objsurf | Methods for Objective Function Surfaces |
| print.ppm | Print a Fitted Point Process Model |
| print.slrm | Methods for Spatial Logistic Regression Models |
| print.summary.dppm | Summarizing a Fitted Determinantal Point Process Model |
| print.summary.fii | Methods for Fitted Interactions |
| print.summary.kppm | Summarizing a Fitted Cox or Cluster Point Process Model |
| print.summary.objsurf | Methods for Objective Function Surfaces |
| print.summary.ppm | Summarizing a Fitted Point Process Model |
| print.traj | Methods for Trajectories of Function Evaluations |
| print.zclustermodel | Methods for Cluster Models |
| print.zgibbsmodel | Methods for Gibbs Models |
| profilepl | Fit Models by Profile Maximum Pseudolikelihood or AIC |
| project.ppm | Force Point Process Model to be Valid |
| prune.rppm | Prune a Recursively Partitioned Point Process Model |
| pseudoR2 | Calculate Pseudo-R-Squared for Point Process Model |
| pseudoR2.ppm | Calculate Pseudo-R-Squared for Point Process Model |
| pseudoR2.slrm | Calculate Pseudo-R-Squared for Point Process Model |
| psib | Sibling Probability of Cluster Point Process |
| psib.kppm | Sibling Probability of Cluster Point Process |
| psst | Pseudoscore Diagnostic For Fitted Model against General Alternative |
| psstA | Pseudoscore Diagnostic For Fitted Model against Area-Interaction Alternative |
| psstG | Pseudoscore Diagnostic For Fitted Model against Saturation Alternative |
-- Q --
| qqplot.ppm | Q-Q Plot of Residuals from Fitted Point Process Model |
| quad.ppm | Extract Quadrature Scheme Used to Fit a Point Process Model |
| quadrat.test.mppm | Chi-Squared Test for Multiple Point Process Model Based on Quadrat Counts |
| quadrat.test.ppm | Dispersion Test for Spatial Point Pattern Based on Quadrat Counts |
| quadrat.test.slrm | Dispersion Test for Spatial Point Pattern Based on Quadrat Counts |
-- R --
| ranef.mppm | Extract Random Effects from Point Process Model |
| rdpp | Simulation of a Determinantal Point Process |
| reach.detpointprocfamily | Range of Interaction for a Determinantal Point Process Model |
| reach.dppm | Range of Interaction for a Determinantal Point Process Model |
| reach.fii | Interaction Distance of a Point Process Model |
| reach.interact | Interaction Distance of a Point Process Model |
| reach.kppm | Range of Interaction for a Cox or Cluster Point Process Model |
| reach.ppm | Interaction Distance of a Point Process Model |
| reach.zclustermodel | Methods for Cluster Models |
| relrisk.ppm | Parametric Estimate of Spatially-Varying Relative Risk |
| repul | Repulsiveness Index of a Determinantal Point Process Model |
| repul.dppm | Repulsiveness Index of a Determinantal Point Process Model |
| residualMeasure | Residual Measure for an Observed Point Pattern and a Fitted Intensity |
| residuals.dppm | Residuals for Fitted Determinantal Point Process Model |
| residuals.kppm | Residuals for Fitted Cox or Cluster Point Process Model |
| residuals.mppm | Residuals for Point Process Model Fitted to Multiple Point Patterns |
| residuals.ppm | Residuals for Fitted Point Process Model |
| residuals.rppm | Residuals for Recursively Partitioned Point Process Model |
| residuals.slrm | Residuals for Fitted Spatial Logistic Regression Model |
| response | Extract the Values of the Response from a Fitted Model |
| response.dppm | Extract the Values of the Response from a Fitted Model |
| response.glm | Extract the Values of the Response from a Fitted Model |
| response.kppm | Extract the Values of the Response from a Fitted Model |
| response.lm | Extract the Values of the Response from a Fitted Model |
| response.mppm | Extract the Values of the Response from a Fitted Model |
| response.ppm | Extract the Values of the Response from a Fitted Model |
| response.rppm | Extract the Values of the Response from a Fitted Model |
| response.slrm | Extract the Values of the Response from a Fitted Model |
| rex | Richardson Extrapolation |
| rhohat.ppm | Nonparametric Estimate of Intensity as Function of a Covariate |
| rhohat.slrm | Nonparametric Estimate of Intensity as Function of a Covariate |
| rmh.ppm | Simulate from a Fitted Point Process Model |
| rmhmodel.ppm | Interpret Fitted Model for Metropolis-Hastings Simulation. |
| roc.kppm | Receiver Operating Characteristic |
| roc.ppm | Receiver Operating Characteristic |
| roc.slrm | Receiver Operating Characteristic |
| rppm | Recursively Partitioned Point Process Model |
-- S --
| SatPiece | Piecewise Constant Saturated Pairwise Interaction Point Process Model |
| Saturated | Saturated Pairwise Interaction model |
| simulate.detpointprocfamily | Simulation of Determinantal Point Process Model |
| simulate.dppm | Simulation of Determinantal Point Process Model |
| simulate.kppm | Simulate a Fitted Cluster Point Process Model |
| simulate.mppm | Simulate a Point Process Model Fitted to Several Point Patterns |
| simulate.ppm | Simulate a Fitted Gibbs Point Process Model |
| simulate.slrm | Simulate a Fitted Spatial Logistic Regression Model |
| simulate.zclustermodel | Methods for Cluster Models |
| slrm | Spatial Logistic Regression |
| Smooth.influence.ppm | Methods for Influence Objects |
| Smooth.leverage.ppm | Methods for Leverage Objects |
| Smooth.msr | Smooth a Signed or Vector-Valued Measure |
| Softcore | The Soft Core Point Process Model |
| spatstat.model | The spatstat.model Package |
| split.msr | Divide a Measure into Parts |
| Strauss | The Strauss Point Process Model |
| StraussHard | The Strauss / Hard Core Point Process Model |
| subfits | Extract List of Individual Point Process Models |
| subfits.new | Extract List of Individual Point Process Models |
| subfits.old | Extract List of Individual Point Process Models |
| suffstat | Sufficient Statistic of Point Process Model |
| summary.dppm | Summarizing a Fitted Determinantal Point Process Model |
| summary.fii | Methods for Fitted Interactions |
| summary.kppm | Summarizing a Fitted Cox or Cluster Point Process Model |
| summary.objsurf | Methods for Objective Function Surfaces |
| summary.ppm | Summarizing a Fitted Point Process Model |
| summary.slrm | Methods for Spatial Logistic Regression Models |
-- T --
| terms.dppm | Methods for Determinantal Point Process Models |
| terms.kppm | Methods for Cluster Point Process Models |
| terms.mppm | Log Likelihood and AIC for Multiple Point Process Model |
| terms.ppm | Model Formulae for Gibbs Point Process Models |
| terms.slrm | Methods for Spatial Logistic Regression Models |
| thomas.estK | Fit the Thomas Point Process by Minimum Contrast |
| thomas.estpcf | Fit the Thomas Point Process by Minimum Contrast |
| totalVariation | Positive and Negative Parts, and Variation, of a Measure |
| traj | Extract trajectory of function evaluations |
| triplet.family | Triplet Interaction Family |
| Triplets | The Triplet Point Process Model |
-- U --
| unitname.dppm | Name for Unit of Length |
| unitname.kppm | Name for Unit of Length |
| unitname.minconfit | Name for Unit of Length |
| unitname.ppm | Name for Unit of Length |
| unitname.slrm | Name for Unit of Length |
| unitname<-.dppm | Name for Unit of Length |
| unitname<-.kppm | Name for Unit of Length |
| unitname<-.minconfit | Name for Unit of Length |
| unitname<-.ppm | Name for Unit of Length |
| unitname<-.slrm | Name for Unit of Length |
| unstack.msr | Separate a Vector Measure into its Scalar Components |
| update.detpointprocfamily | Set Parameter Values in a Determinantal Point Process Model |
| update.dppm | Update a Fitted Determinantal Point Process Model |
| update.interact | Update an Interpoint Interaction |
| update.kppm | Update a Fitted Cluster Point Process Model |
| update.ppm | Update a Fitted Point Process Model |
| update.rppm | Update a Recursively Partitioned Point Process Model |
| update.slrm | Methods for Spatial Logistic Regression Models |
-- V --
| valid | Check Whether Point Process Model is Valid |
| valid.detpointprocfamily | Check Validity of a Determinantal Point Process Model |
| valid.ppm | Check Whether Point Process Model is Valid |
| valid.slrm | Check Whether Spatial Logistic Regression Model is Valid |
| varcount | Predicted Variance of the Number of Points |
| vargamma.estK | Fit the Neyman-Scott Cluster Point Process with Variance Gamma kernel |
| vargamma.estpcf | Fit the Neyman-Scott Cluster Point Process with Variance Gamma kernel |
| vcov.kppm | Variance-Covariance Matrix for a Fitted Cluster Point Process Model |
| vcov.mppm | Calculate Variance-Covariance Matrix for Fitted Multiple Point Process Model |
| vcov.ppm | Variance-Covariance Matrix for a Fitted Point Process Model |
| vcov.slrm | Variance-Covariance Matrix for a Fitted Spatial Logistic Regression |
-- W --
| Window.dppm | Extract Window of Spatial Object |
| Window.influence.ppm | Methods for Influence Objects |
| Window.kppm | Extract Window of Spatial Object |
| Window.leverage.ppm | Methods for Leverage Objects |
| Window.msr | Extract Window of Spatial Object |
| Window.ppm | Extract Window of Spatial Object |
| Window.slrm | Extract Window of Spatial Object |
| with.msr | Evaluate Expression Involving Components of a Measure |
-- Z --
| zclustermodel | Cluster Point Process Model |
| zgibbsmodel | Gibbs Model |
-- misc --
| [.influence.ppm | Extract Subset of Influence Object |
| [.leverage.ppm | Extract Subset of Leverage Object |
| [.msr | Extract Subset of Signed or Vector Measure |