prunecost

If any edge are dropped, the MST are pruned. This generate a two
 subgraphs. So, it makes a tree graphs and tree dissimilarity values
 are computed, one for each graph. The dissimilarity is the sum over
 sqared differences between the observactions in the nodes and mean
 vector of observations in the graph. The dissimilarity of original
 graph and the sum of dissimilarity of subgraphs are returned.

cluster

graphs

A collection of functions to create spatial weights matrix
objects from polygon 'contiguities', from point patterns by distance and
tessellations, for summarizing these objects, and for permitting their
use in spatial data analysis, including regional aggregation by minimum
spanning tree; a collection of tests for spatial 'autocorrelation',
including global 'Morans I' and 'Gearys C' proposed by 'Cliff' and 'Ord'
(1973, ISBN: 0850860369) and (1981, ISBN: 0850860814), 'Hubert/Mantel'
general cross product statistic, Empirical Bayes estimates and
'Assunção/Reis' (1999) <doi:10.1002/(SICI)1097-0258(19990830)18:16%3C2147::AID-SIM179%3E3.0.CO;2-I> Index, 'Getis/Ord' G ('Getis' and 'Ord' 1992)
<doi:10.1111/j.1538-4632.1992.tb00261.x> and multicoloured
join count statistics, 'APLE' ('Li 'et al.' )
<doi:10.1111/j.1538-4632.2007.00708.x>, local 'Moran's I', 'Gearys C'
('Anselin' 1995) <doi:10.1111/j.1538-4632.1995.tb00338.x> and
'Getis/Ord' G ('Ord' and 'Getis' 1995)
<doi:10.1111/j.1538-4632.1995.tb00912.x>,
'saddlepoint' approximations ('Tiefelsdorf' 2002)
<doi:10.1111/j.1538-4632.2002.tb01084.x> and exact tests
for global and local 'Moran's I' ('Bivand et al.' 2009)
<doi:10.1016/j.csda.2008.07.021> and 'LOSH' local indicators
of spatial heteroscedasticity ('Ord' and 'Getis')
<doi:10.1007/s00168-011-0492-y>. The implementation of most of
these measures is described in 'Bivand' and 'Wong' (2018)
<doi:10.1007/s11749-018-0599-x>, with further extensions in 'Bivand' (2022)
<doi:10.1111/gean.12319>. 'Lagrange' multiplier tests for spatial dependence
in linear models are provided ('Anselin et al'. 1996)
<doi:10.1016/0166-0462(95)02111-6>, as are 'Rao' score tests for hypothesised
spatial 'Durbin' models based on linear models ('Koley' and 'Bera' 2023)
<doi:10.1080/17421772.2023.2256810>.
From 'spdep' and 'spatialreg' versions >= 1.2-1, the model fitting functions
previously present in this package are defunct in 'spdep' and may be found
in 'spatialreg'.

Roger Bivand

spdep

Spatial Dependence: Weighting Schemes, Statistics

Micah Altman

Luc Anselin

Renato Assunção

Anil Bera

Olaf Berke

F. Guillaume Blanchet

Marilia Carvalho

Bjarke Christensen

Yongwan Chun

Carsten Dormann

Stéphane Dray

Dewey Dunnington

Virgilio Gómez-Rubio

Malabika Koley

Tomasz Kossowski

Elias Krainski

Pierre Legendre

Nicholas Lewin-Koh

Angela Li

Giovanni Millo

Werner Mueller

Hisaji Ono

Josiah Parry

Pedro Peres-Neto

Michał Pietrzak

Gianfranco Piras

Markus Reder

Jeff Sauer

Michael Tiefelsdorf

René Westerholt

Justyna Wilk

Levi Wolf

Danlin Yu

prunecost function

<dl> <dt>edges</dt>
<dd>A matrix with 2 colums with each row is one edge</dd> <dt>data</dt>
<dd>A data.frame with observations in the nodes.</dd> <dt>method</dt>
<dd>Character or function to declare distance method.
 If <code>method</code> is character, method must be "mahalanobis" or
 "euclidean", "maximum", "manhattan", "canberra", "binary"
 or "minkowisk".
 If <code>method</code> is one of "euclidean", "maximum",
 "manhattan", "canberra", "binary" or "minkowisk", see
 <code><a href="/link/dist?package=spdep&version=1.3-6" data-mini-rdoc="spdep::dist">dist</a></code> for details,
 because this function as used to compute the distance.
 If <code>method="mahalanobis"</code>, the mahalanobis distance
 is computed between neighbour areas.
 If <code>method</code> is a <code>function</code>, this function is
 used to compute the distance.</dd> <dt>p</dt>
<dd>The power of the Minkowski distance.</dd> <dt>cov</dt>
<dd>The covariance matrix used to compute the mahalanobis
 distance.</dd> <dt>inverted</dt>
<dd>logical. If 'TRUE', 'cov' is supposed to contain the
 inverse of the covariance matrix.</dd></dl>

Arguments

Elias T. Krainski and Renato M. Assuncao

Author

Compute cost of prune each edge — prunecost

<dl>

 <dt>edges</dt>
<dd>A matrix with 2 colums with each row is one edge</dd>

 <dt>data</dt>
<dd>A data.frame with observations in the nodes.</dd>

 <dt>method</dt>
<dd>Character or function to declare distance method.
 If <code>method</code> is character, method must be "mahalanobis" or
 "euclidean", "maximum", "manhattan", "canberra", "binary"
 or "minkowisk".
 If <code>method</code> is one of "euclidean", "maximum",
 "manhattan", "canberra", "binary" or "minkowisk", see
 <code><a href='https://rdrr.io/r/stats/dist.html'>dist</a></code> for details,
 because this function as used to compute the distance.
 If <code>method="mahalanobis"</code>, the mahalanobis distance
 is computed between neighbour areas.
 If <code>method</code> is a <code>function</code>, this function is
 used to compute the distance.</dd>

 <dt>p</dt>
<dd>The power of the Minkowski distance.</dd>

 <dt>cov</dt>
<dd>The covariance matrix used to compute the mahalanobis
 distance.</dd>

 <dt>inverted</dt>
<dd>logical. If 'TRUE', 'cov' is supposed to contain the
 inverse of the covariance matrix.</dd>

</dl>

Compute cost of prune each edge

prunecost: Compute cost of prune each edge

Description

Usage

Value

Arguments

Author

See Also

Examples