.

Point pattern

F function

Description

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Parameters

Layer [vector: any]
<put parameter description here>
Nsim [number]

<put parameter description here>

Default: 10.0

Outputs

R Plots [html]
<put output description here>

Console usage

processing.runalg('r:ffunction', layer, nsim, rplots)

See also

G function

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>
Nsim [number]

<put parameter description here>

Default: 10.0

Outputs

R Plots [html]
<put output description here>

Console usage

processing.runalg('r:gfunction', layer, nsim, rplots)

See also

Monte-Carlo spatial randomness

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>
Simulations [number]

<put parameter description here>

Default: 100.0

Optional plot name [string]

<put parameter description here>

Default: (not set)

Outputs

R Plots [html]
<put output description here>
R Console Output [html]
<put output description here>

Console usage

processing.runalg('r:montecarlospatialrandomness', layer, simulations, optional_plot_name, rplots, r_console_output)

See also

Quadrat analysis

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>

Outputs

R Plots [html]
<put output description here>
R Console Output [html]
<put output description here>

Console usage

processing.runalg('r:quadratanalysis', layer, rplots, r_console_output)

See also

Random sampling grid

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>
Size [number]

<put parameter description here>

Default: 10.0

Outputs

Output [vector]
<put output description here>

Console usage

processing.runalg('r:randomsamplinggrid', layer, size, output)

See also

Regular sampling grid

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>
Size [number]

<put parameter description here>

Default: 10.0

Outputs

Output [vector]
<put output description here>

Console usage

processing.runalg('r:regularsamplinggrid', layer, size, output)

See also

Relative distribution (distance covariate)

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>
Covariate [vector: any]
<put parameter description here>
Covariate name [string]

<put parameter description here>

Default: mandatory_covariate_name_(no_spaces)

x label [string]

<put parameter description here>

Default: (not set)

Plot name [string]

<put parameter description here>

Default: (not set)

Legend position [string]

<put parameter description here>

Default: float

Outputs

R Plots [html]
<put output description here>

Console usage

processing.runalg('r:relativedistributiondistancecovariate', layer, covariate, covariate_name, x_label, plot_name, legend_position, rplots)

See also

Relative distribution (raster covariate)

Description

<put algorithm description here>

Parameters

points [vector: any]
<put parameter description here>
covariate [raster]
<put parameter description here>
covariate name [string]

<put parameter description here>

Default: mandatory_covariate_name_(no_spaces)

x label [string]

<put parameter description here>

Default: (not set)

plot name [string]

<put parameter description here>

Default: (not set)

legend position [string]

<put parameter description here>

Default: float

Outputs

R Plots [html]
<put output description here>

Console usage

processing.runalg('r:relativedistributionrastercovariate', points, covariate, covariate_name, x_label, plot_name, legend_position, rplots)

See also

Ripley - Rasson spatial domain

Description

<put algorithm description here>

Parameters

Layer [vector: any]
<put parameter description here>

Outputs

Output [vector]
<put output description here>

Console usage

processing.runalg('r:ripleyrassonspatialdomain', layer, output)

See also