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    <h1 class="manual-title">Package 'class'</h1>
    <table class="description-table">
      <tr>
<th>Title:</th>
<td class="description-title">Functions for Classification</td>
</tr>
      <tr>
<th>Description:</th>
<td class="description-description">Various functions for classification, including k-nearest
  neighbour, Learning Vector Quantization and Self-Organizing Maps.</td>
</tr>
      <tr>
<th>Authors:</th>
<td class="description-author"><span>Brian Ripley [aut, cre, cph],
  William Venables [cph]</span></td>
</tr>
      <tr>
<th>Maintainer:</th>
<td class="description-maintainer">Brian Ripley &lt;ripley@stats.ox.ac.uk&gt;</td>
</tr>
      <tr>
<th>License:</th>
<td class="description-license">GPL-2 | GPL-3</td>
</tr>
      <tr>
<th>Version:</th>
<td class="description-version">7.3-22</td>
</tr>
      <tr>
<th>Built:</th>
<td class="description-date">2024-06-15 17:27:59 UTC</td>
</tr>
      <tr>
<th>Source:</th>
<td class="description-source">CRAN</td>
</tr>
    </table>

    <a href="#help-index" style="color:black;"><h2 id="help-index">Help Index</h2></a>
    <ul id="help-index-list">
<li class="help-index-item"><a href="#batchSOM">
Self-Organizing Maps: Batch Algorithm
</a></li>
<li class="help-index-item"><a href="#condense">
Condense training set for k-NN classifier
</a></li>
<li class="help-index-item"><a href="#knn">
k-Nearest Neighbour Classification
</a></li>
<li class="help-index-item"><a href="#knn.cv">
k-Nearest Neighbour Cross-Validatory Classification
</a></li>
<li class="help-index-item"><a href="#knn1">
1-Nearest Neighbour Classification
</a></li>
<li class="help-index-item"><a href="#lvq1">
Learning Vector Quantization 1
</a></li>
<li class="help-index-item"><a href="#lvq2">
Learning Vector Quantization 2.1
</a></li>
<li class="help-index-item"><a href="#lvq3">
Learning Vector Quantization 3
</a></li>
<li class="help-index-item"><a href="#lvqinit">
Initialize a LVQ Codebook
</a></li>
<li class="help-index-item"><a href="#lvqtest">
Classify Test Set from LVQ Codebook
</a></li>
<li class="help-index-item"><a href="#multiedit">
Multiedit for k-NN Classifier
</a></li>
<li class="help-index-item"><a href="#olvq1">
Optimized Learning Vector Quantization 1
</a></li>
<li class="help-index-item"><a href="#reduce.nn">
Reduce Training Set for a k-NN Classifier
</a></li>
<li class="help-index-item"><a href="#SOM">
Self-Organizing Maps: Online Algorithm
</a></li>
<li class="help-index-item"><a href="#somgrid">
Plot SOM Fits
</a></li>
</ul>

    <hr>
    <div class="manual-pages-content">
<div class="container manual-page" id="batchSOM"><div class="page-main">
<a href="#batchSOM" class="help-page-title"><h2>
Self-Organizing Maps: Batch Algorithm
</h2></a>

<h3>Description</h3>

<p>Kohonen's Self-Organizing Maps are a crude form of multidimensional scaling.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">batchSOM(data, grid = somgrid(), radii, init)
</code><code class="language-r">batchSOM<span class="token punctuation">(</span>data<span class="token punctuation">,</span> grid <span class="token operator">=</span> somgrid<span class="token punctuation">(</span><span class="token punctuation">)</span><span class="token punctuation">,</span> radii<span class="token punctuation">,</span> init<span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="data">data</code></td>
<td>

<p>a matrix or data frame of observations, scaled so that Euclidean
distance is appropriate.
</p>
</td>
</tr>
<tr>
<td><code id="grid">grid</code></td>
<td>

<p>A grid for the representatives: see <code><a href="#somgrid">somgrid</a></code>.
</p>
</td>
</tr>
<tr>
<td><code id="radii">radii</code></td>
<td>

<p>the radii of the neighbourhood to be used for each pass: one pass is
run for each element of <code>radii</code>.
</p>
</td>
</tr>
<tr>
<td><code id="init">init</code></td>
<td>

<p>the initial representatives.  If missing, chosen (without replacement)
randomly from <code>data</code>.
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>The batch SOM algorithm of Kohonen(1995, section 3.14) is used.
</p>


<h3>Value</h3>

<p>An object of class <code>"SOM"</code> with components
</p>
<table>
<tr>
<td><code>grid</code></td>
<td>
<p>the grid, an object of class <code>"somgrid"</code>.</p>
</td>
</tr>
<tr>
<td><code>codes</code></td>
<td>
<p>a matrix of representatives.</p>
</td>
</tr>
</table>
<h3>References</h3>

<p>Kohonen, T. (1995) <em>Self-Organizing Maps.</em> Springer-Verlag.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#somgrid">somgrid</a></code>, <code><a href="#SOM">SOM</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">require(graphics)
data(crabs, package = "MASS")

lcrabs &lt;- log(crabs[, 4:8])
crabs.grp &lt;- factor(c("B", "b", "O", "o")[rep(1:4, rep(50,4))])
gr &lt;- somgrid(topo = "hexagonal")
crabs.som &lt;- batchSOM(lcrabs, gr, c(4, 4, 2, 2, 1, 1, 1, 0, 0))
plot(crabs.som)

bins &lt;- as.numeric(knn1(crabs.som$codes, lcrabs, 0:47))
plot(crabs.som$grid, type = "n")
symbols(crabs.som$grid$pts[, 1], crabs.som$grid$pts[, 2],
        circles = rep(0.4, 48), inches = FALSE, add = TRUE)
text(crabs.som$grid$pts[bins, ] + rnorm(400, 0, 0.1),
     as.character(crabs.grp))
</code><code class="language-r">require<span class="token punctuation">(</span>graphics<span class="token punctuation">)</span>
data<span class="token punctuation">(</span>crabs<span class="token punctuation">,</span> package <span class="token operator">=</span> <span class="token string">"MASS"</span><span class="token punctuation">)</span>

lcrabs <span class="token operator">&lt;-</span> log<span class="token punctuation">(</span>crabs<span class="token punctuation">[</span><span class="token punctuation">,</span> <span class="token number">4</span><span class="token operator">:</span><span class="token number">8</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
crabs.grp <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span><span class="token string">"B"</span><span class="token punctuation">,</span> <span class="token string">"b"</span><span class="token punctuation">,</span> <span class="token string">"O"</span><span class="token punctuation">,</span> <span class="token string">"o"</span><span class="token punctuation">)</span><span class="token punctuation">[</span>rep<span class="token punctuation">(</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">4</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token number">4</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
gr <span class="token operator">&lt;-</span> somgrid<span class="token punctuation">(</span>topo <span class="token operator">=</span> <span class="token string">"hexagonal"</span><span class="token punctuation">)</span>
crabs.som <span class="token operator">&lt;-</span> batchSOM<span class="token punctuation">(</span>lcrabs<span class="token punctuation">,</span> gr<span class="token punctuation">,</span> c<span class="token punctuation">(</span><span class="token number">4</span><span class="token punctuation">,</span> <span class="token number">4</span><span class="token punctuation">,</span> <span class="token number">2</span><span class="token punctuation">,</span> <span class="token number">2</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">,</span> <span class="token number">0</span><span class="token punctuation">,</span> <span class="token number">0</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
plot<span class="token punctuation">(</span>crabs.som<span class="token punctuation">)</span>

bins <span class="token operator">&lt;-</span> as.numeric<span class="token punctuation">(</span>knn1<span class="token punctuation">(</span>crabs.som<span class="token operator">$</span>codes<span class="token punctuation">,</span> lcrabs<span class="token punctuation">,</span> <span class="token number">0</span><span class="token operator">:</span><span class="token number">47</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
plot<span class="token punctuation">(</span>crabs.som<span class="token operator">$</span>grid<span class="token punctuation">,</span> type <span class="token operator">=</span> <span class="token string">"n"</span><span class="token punctuation">)</span>
symbols<span class="token punctuation">(</span>crabs.som<span class="token operator">$</span>grid<span class="token operator">$</span>pts<span class="token punctuation">[</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> crabs.som<span class="token operator">$</span>grid<span class="token operator">$</span>pts<span class="token punctuation">[</span><span class="token punctuation">,</span> <span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span>
        circles <span class="token operator">=</span> rep<span class="token punctuation">(</span><span class="token number">0.4</span><span class="token punctuation">,</span> <span class="token number">48</span><span class="token punctuation">)</span><span class="token punctuation">,</span> inches <span class="token operator">=</span> <span class="token boolean">FALSE</span><span class="token punctuation">,</span> add <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span>
text<span class="token punctuation">(</span>crabs.som<span class="token operator">$</span>grid<span class="token operator">$</span>pts<span class="token punctuation">[</span>bins<span class="token punctuation">,</span> <span class="token punctuation">]</span> <span class="token operator">+</span> rnorm<span class="token punctuation">(</span><span class="token number">400</span><span class="token punctuation">,</span> <span class="token number">0</span><span class="token punctuation">,</span> <span class="token number">0.1</span><span class="token punctuation">)</span><span class="token punctuation">,</span>
     as.character<span class="token punctuation">(</span>crabs.grp<span class="token punctuation">)</span><span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="condense"><div class="page-main">
<a href="#condense" class="help-page-title"><h2>
Condense training set for k-NN classifier
</h2></a>

<h3>Description</h3>

<p>Condense training set for k-NN classifier
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">condense(train, class, store, trace = TRUE)
</code><code class="language-r">condense<span class="token punctuation">(</span>train<span class="token punctuation">,</span> class<span class="token punctuation">,</span> store<span class="token punctuation">,</span> trace <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="train">train</code></td>
<td>

<p>matrix for training set
</p>
</td>
</tr>
<tr>
<td><code id="class">class</code></td>
<td>

<p>vector of classifications for test set
</p>
</td>
</tr>
<tr>
<td><code id="store">store</code></td>
<td>

<p>initial store set. Default one randomly chosen element of the set.
</p>
</td>
</tr>
<tr>
<td><code id="trace">trace</code></td>
<td>

<p>logical. Trace iterations?
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>The store set is used to 1-NN classify the rest, and misclassified
patterns are added to the store set. The whole set is checked until
no additions occur.
</p>


<h3>Value</h3>

<p>Index vector of cases to be retained (the final store set).
</p>


<h3>References</h3>

<p>P. A. Devijver and J. Kittler (1982)
<em>Pattern Recognition. A Statistical Approach.</em>
Prentice-Hall, pp. 119–121.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#reduce.nn">reduce.nn</a></code>, <code><a href="#multiedit">multiedit</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
keep &lt;- condense(train, cl)
knn(train[keep, , drop=FALSE], test, cl[keep])
keep2 &lt;- reduce.nn(train, keep, cl)
knn(train[keep2, , drop=FALSE], test, cl[keep2])
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
keep <span class="token operator">&lt;-</span> condense<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">)</span>
knn<span class="token punctuation">(</span>train<span class="token punctuation">[</span>keep<span class="token punctuation">,</span> <span class="token punctuation">,</span> drop<span class="token operator">=</span><span class="token boolean">FALSE</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">[</span>keep<span class="token punctuation">]</span><span class="token punctuation">)</span>
keep2 <span class="token operator">&lt;-</span> reduce.nn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> keep<span class="token punctuation">,</span> cl<span class="token punctuation">)</span>
knn<span class="token punctuation">(</span>train<span class="token punctuation">[</span>keep2<span class="token punctuation">,</span> <span class="token punctuation">,</span> drop<span class="token operator">=</span><span class="token boolean">FALSE</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">[</span>keep2<span class="token punctuation">]</span><span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="knn"><div class="page-main">
<a href="#knn" class="help-page-title"><h2>
k-Nearest Neighbour Classification
</h2></a>

<h3>Description</h3>

<p>k-nearest neighbour classification for test set from training set. For
each row of the test set, the <code>k</code> nearest (in Euclidean distance)
training set vectors are found, and the classification is decided by
majority vote, with ties broken at random. If there are ties for the
<code>k</code>th nearest vector, all candidates are included in the vote.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">knn(train, test, cl, k = 1, l = 0, prob = FALSE, use.all = TRUE)
</code><code class="language-r">knn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">1</span><span class="token punctuation">,</span> l <span class="token operator">=</span> <span class="token number">0</span><span class="token punctuation">,</span> prob <span class="token operator">=</span> <span class="token boolean">FALSE</span><span class="token punctuation">,</span> use.all <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="train">train</code></td>
<td>

<p>matrix or data frame of training set cases.
</p>
</td>
</tr>
<tr>
<td><code id="test">test</code></td>
<td>

<p>matrix or data frame of test set cases. A vector will be interpreted
as a row vector for a single case.
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>factor of true classifications of training set
</p>
</td>
</tr>
<tr>
<td><code id="k">k</code></td>
<td>

<p>number of neighbours considered.
</p>
</td>
</tr>
<tr>
<td><code id="l">l</code></td>
<td>

<p>minimum vote for definite decision, otherwise <code>doubt</code>. (More
precisely, less than <code>k-l</code> dissenting votes are allowed, even if <code>k</code>
is increased by ties.)
</p>
</td>
</tr>
<tr>
<td><code id="prob">prob</code></td>
<td>

<p>If this is true, the proportion of the votes for the winning class
are returned as attribute <code>prob</code>.
</p>
</td>
</tr>
<tr>
<td><code id="use.all">use.all</code></td>
<td>

<p>controls handling of ties. If true, all distances equal to the <code>k</code>th
largest are included. If false, a random selection of distances
equal to the <code>k</code>th is chosen to use exactly <code>k</code> neighbours.
</p>
</td>
</tr>
</table>
<h3>Value</h3>

<p>Factor of classifications of test set. <code>doubt</code> will be returned as <code>NA</code>.
</p>


<h3>References</h3>

<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#knn1">knn1</a></code>, <code><a href="#knn.cv">knn.cv</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
knn(train, test, cl, k = 3, prob=TRUE)
attributes(.Last.value)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
knn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">3</span><span class="token punctuation">,</span> prob<span class="token operator">=</span><span class="token boolean">TRUE</span><span class="token punctuation">)</span>
attributes<span class="token punctuation">(</span>.Last.value<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="knn.cv"><div class="page-main">
<a href="#knn.cv" class="help-page-title"><h2>
k-Nearest Neighbour Cross-Validatory Classification
</h2></a>

<h3>Description</h3>

<p>k-nearest neighbour cross-validatory classification from training set.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">knn.cv(train, cl, k = 1, l = 0, prob = FALSE, use.all = TRUE)
</code><code class="language-r">knn.cv<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">1</span><span class="token punctuation">,</span> l <span class="token operator">=</span> <span class="token number">0</span><span class="token punctuation">,</span> prob <span class="token operator">=</span> <span class="token boolean">FALSE</span><span class="token punctuation">,</span> use.all <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="train">train</code></td>
<td>

<p>matrix or data frame of training set cases.
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>factor of true classifications of training set
</p>
</td>
</tr>
<tr>
<td><code id="k">k</code></td>
<td>

<p>number of neighbours considered.
</p>
</td>
</tr>
<tr>
<td><code id="l">l</code></td>
<td>

<p>minimum vote for definite decision, otherwise <code>doubt</code>. (More
precisely, less than <code>k-l</code> dissenting votes are allowed, even
if <code>k</code> is increased by ties.)
</p>
</td>
</tr>
<tr>
<td><code id="prob">prob</code></td>
<td>

<p>If this is true, the proportion of the votes for the winning class
are returned as attribute <code>prob</code>.
</p>
</td>
</tr>
<tr>
<td><code id="use.all">use.all</code></td>
<td>

<p>controls handling of ties. If true, all distances equal to the <code>k</code>th
largest are included. If false, a random selection of distances
equal to the <code>k</code>th is chosen to use exactly <code>k</code> neighbours.
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>This uses leave-one-out cross validation.
For each row of the training set <code>train</code>, the <code>k</code> nearest
(in Euclidean distance) other
training set vectors are found, and the classification is decided by
majority vote, with ties broken at random. If there are ties for the
<code>k</code>th nearest vector, all candidates are included in the vote.
</p>


<h3>Value</h3>

<p>Factor of classifications of training set. <code>doubt</code> will be returned as <code>NA</code>.
</p>


<h3>References</h3>

<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#knn">knn</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[,,1], iris3[,,2], iris3[,,3])
cl &lt;- factor(c(rep("s",50), rep("c",50), rep("v",50)))
knn.cv(train, cl, k = 3, prob = TRUE)
attributes(.Last.value)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">50</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">50</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">50</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
knn.cv<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">3</span><span class="token punctuation">,</span> prob <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span>
attributes<span class="token punctuation">(</span>.Last.value<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="knn1"><div class="page-main">
<a href="#knn1" class="help-page-title"><h2>
1-Nearest Neighbour Classification
</h2></a>

<h3>Description</h3>

<p>Nearest neighbour classification for test set from training set. For
each row of the test set, the nearest (by Euclidean distance) training
set vector is found, and its classification used. If there is more than
one nearest, a majority vote is used with ties broken at random.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">knn1(train, test, cl)
</code><code class="language-r">knn1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="train">train</code></td>
<td>

<p>matrix or data frame of training set cases.
</p>
</td>
</tr>
<tr>
<td><code id="test">test</code></td>
<td>

<p>matrix or data frame of test set cases. A vector will be interpreted
as a row vector for a single case.
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>factor of true classification of training set.
</p>
</td>
</tr>
</table>
<h3>Value</h3>

<p>Factor of classifications of test set.
</p>


<h3>References</h3>

<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#knn">knn</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
knn1(train, test, cl)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
knn1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="lvq1"><div class="page-main">
<a href="#lvq1" class="help-page-title"><h2>
Learning Vector Quantization 1
</h2></a>

<h3>Description</h3>

<p>Moves examples in a codebook to better represent the training set.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">lvq1(x, cl, codebk, niter = 100 * nrow(codebk$x), alpha = 0.03)
</code><code class="language-r">lvq1<span class="token punctuation">(</span>x<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> codebk<span class="token punctuation">,</span> niter <span class="token operator">=</span> <span class="token number">100</span> <span class="token operator">*</span> nrow<span class="token punctuation">(</span>codebk<span class="token operator">$</span>x<span class="token punctuation">)</span><span class="token punctuation">,</span> alpha <span class="token operator">=</span> <span class="token number">0.03</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>a matrix or data frame of examples
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>a vector or factor of classifications for the examples
</p>
</td>
</tr>
<tr>
<td><code id="codebk">codebk</code></td>
<td>

<p>a codebook
</p>
</td>
</tr>
<tr>
<td><code id="niter">niter</code></td>
<td>

<p>number of iterations
</p>
</td>
</tr>
<tr>
<td><code id="alpha">alpha</code></td>
<td>

<p>constant for training
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Selects <code>niter</code> examples at random  with replacement, and adjusts the nearest
example in the codebook for each.
</p>


<h3>Value</h3>

<p>A codebook, represented as a list with components <code>x</code> and <code>cl</code>
giving the examples and classes.
</p>


<h3>References</h3>

<p>Kohonen, T. (1990) The self-organizing map.
<em>Proc. IEEE </em>
<b>78</b>, 1464–1480.
</p>
<p>Kohonen, T. (1995)
<em>Self-Organizing Maps.</em>
Springer, Berlin.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvqinit">lvqinit</a></code>, <code><a href="#olvq1">olvq1</a></code>, <code><a href="#lvq2">lvq2</a></code>, <code><a href="#lvq3">lvq3</a></code>, <code><a href="#lvqtest">lvqtest</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cd &lt;- lvqinit(train, cl, 10)
lvqtest(cd, train)
cd0 &lt;- olvq1(train, cl, cd)
lvqtest(cd0, train)
cd1 &lt;- lvq1(train, cl, cd0)
lvqtest(cd1, train)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
cd <span class="token operator">&lt;-</span> lvqinit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">10</span><span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd0 <span class="token operator">&lt;-</span> olvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd0<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd1 <span class="token operator">&lt;-</span> lvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd0<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd1<span class="token punctuation">,</span> train<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="lvq2"><div class="page-main">
<a href="#lvq2" class="help-page-title"><h2>
Learning Vector Quantization 2.1
</h2></a>

<h3>Description</h3>

<p>Moves examples in a codebook to better represent the training set.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">lvq2(x, cl, codebk, niter = 100 * nrow(codebk$x), alpha = 0.03,
     win = 0.3)
</code><code class="language-r">lvq2<span class="token punctuation">(</span>x<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> codebk<span class="token punctuation">,</span> niter <span class="token operator">=</span> <span class="token number">100</span> <span class="token operator">*</span> nrow<span class="token punctuation">(</span>codebk<span class="token operator">$</span>x<span class="token punctuation">)</span><span class="token punctuation">,</span> alpha <span class="token operator">=</span> <span class="token number">0.03</span><span class="token punctuation">,</span>
     win <span class="token operator">=</span> <span class="token number">0.3</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>a matrix or data frame of examples
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>a vector or factor of classifications for the examples
</p>
</td>
</tr>
<tr>
<td><code id="codebk">codebk</code></td>
<td>

<p>a codebook
</p>
</td>
</tr>
<tr>
<td><code id="niter">niter</code></td>
<td>

<p>number of iterations
</p>
</td>
</tr>
<tr>
<td><code id="alpha">alpha</code></td>
<td>

<p>constant for training
</p>
</td>
</tr>
<tr>
<td><code id="win">win</code></td>
<td>

<p>a tolerance for the closeness of the two nearest vectors.
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Selects <code>niter</code> examples at random  with replacement, and adjusts the nearest
two examples in the codebook if one is correct and the other incorrect.
</p>


<h3>Value</h3>

<p>A codebook, represented as a list with components <code>x</code> and <code>cl</code>
giving the examples and classes.
</p>


<h3>References</h3>

<p>Kohonen, T. (1990) The self-organizing map.
<em>Proc. IEEE</em>
<b>78</b>, 1464–1480.
</p>
<p>Kohonen, T. (1995)
<em>Self-Organizing Maps.</em>
Springer, Berlin.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvqinit">lvqinit</a></code>, <code><a href="#lvq1">lvq1</a></code>, <code><a href="#olvq1">olvq1</a></code>,
<code><a href="#lvq3">lvq3</a></code>, <code><a href="#lvqtest">lvqtest</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cd &lt;- lvqinit(train, cl, 10)
lvqtest(cd, train)
cd0 &lt;- olvq1(train, cl, cd)
lvqtest(cd0, train)
cd2 &lt;- lvq2(train, cl, cd0)
lvqtest(cd2, train)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
cd <span class="token operator">&lt;-</span> lvqinit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">10</span><span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd0 <span class="token operator">&lt;-</span> olvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd0<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd2 <span class="token operator">&lt;-</span> lvq2<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd0<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd2<span class="token punctuation">,</span> train<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="lvq3"><div class="page-main">
<a href="#lvq3" class="help-page-title"><h2>
Learning Vector Quantization 3
</h2></a>

<h3>Description</h3>

<p>Moves examples in a codebook to better represent the training set.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">lvq3(x, cl, codebk, niter = 100*nrow(codebk$x), alpha = 0.03,
     win = 0.3, epsilon = 0.1)
</code><code class="language-r">lvq3<span class="token punctuation">(</span>x<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> codebk<span class="token punctuation">,</span> niter <span class="token operator">=</span> <span class="token number">100</span><span class="token operator">*</span>nrow<span class="token punctuation">(</span>codebk<span class="token operator">$</span>x<span class="token punctuation">)</span><span class="token punctuation">,</span> alpha <span class="token operator">=</span> <span class="token number">0.03</span><span class="token punctuation">,</span>
     win <span class="token operator">=</span> <span class="token number">0.3</span><span class="token punctuation">,</span> epsilon <span class="token operator">=</span> <span class="token number">0.1</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>a matrix or data frame of examples
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>a vector or factor of classifications for the examples
</p>
</td>
</tr>
<tr>
<td><code id="codebk">codebk</code></td>
<td>

<p>a codebook
</p>
</td>
</tr>
<tr>
<td><code id="niter">niter</code></td>
<td>

<p>number of iterations
</p>
</td>
</tr>
<tr>
<td><code id="alpha">alpha</code></td>
<td>

<p>constant for training
</p>
</td>
</tr>
<tr>
<td><code id="win">win</code></td>
<td>

<p>a tolerance for the closeness of the two nearest vectors.
</p>
</td>
</tr>
<tr>
<td><code id="epsilon">epsilon</code></td>
<td>

<p>proportion of move for correct vectors
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Selects <code>niter</code> examples at random  with replacement, and adjusts the nearest
two examples in the codebook for each.
</p>


<h3>Value</h3>

<p>A codebook, represented as a list with components <code>x</code> and <code>cl</code>
giving the examples and classes.
</p>


<h3>References</h3>

<p>Kohonen, T. (1990) The self-organizing map.
<em>Proc. IEEE</em>
<b>78</b>, 1464–1480.
</p>
<p>Kohonen, T. (1995)
<em>Self-Organizing Maps.</em>
Springer, Berlin.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvqinit">lvqinit</a></code>, <code><a href="#lvq1">lvq1</a></code>, <code><a href="#olvq1">olvq1</a></code>,
<code><a href="#lvq2">lvq2</a></code>, <code><a href="#lvqtest">lvqtest</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cd &lt;- lvqinit(train, cl, 10)
lvqtest(cd, train)
cd0 &lt;- olvq1(train, cl, cd)
lvqtest(cd0, train)
cd3 &lt;- lvq3(train, cl, cd0)
lvqtest(cd3, train)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
cd <span class="token operator">&lt;-</span> lvqinit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">10</span><span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd0 <span class="token operator">&lt;-</span> olvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd0<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd3 <span class="token operator">&lt;-</span> lvq3<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd0<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd3<span class="token punctuation">,</span> train<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="lvqinit"><div class="page-main">
<a href="#lvqinit" class="help-page-title"><h2>
Initialize a LVQ Codebook
</h2></a>

<h3>Description</h3>

<p>Construct an initial codebook for LVQ methods.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">lvqinit(x, cl, size, prior, k = 5)
</code><code class="language-r">lvqinit<span class="token punctuation">(</span>x<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> size<span class="token punctuation">,</span> prior<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">5</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>a matrix or data frame of training examples, <code>n</code> by <code>p</code>.
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>the classifications for the training examples. A vector or factor of
length <code>n</code>.
</p>
</td>
</tr>
<tr>
<td><code id="size">size</code></td>
<td>

<p>the size of the codebook. Defaults to <code>min(round(0.4*ng*(ng-1 + p/2),0), n)</code>
where <code>ng</code> is the number of classes.
</p>
</td>
</tr>
<tr>
<td><code id="prior">prior</code></td>
<td>

<p>Probabilities to represent classes in the codebook. Default proportions in the
training set.
</p>
</td>
</tr>
<tr>
<td><code id="k">k</code></td>
<td>

<p>k used for k-NN test of correct classification. Default is 5.
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Selects <code>size</code> examples from the training set without replacement with
proportions proportional to the prior or the original proportions.
</p>


<h3>Value</h3>

<p>A codebook, represented as a list with components <code>x</code> and <code>cl</code> giving
the examples and classes.
</p>


<h3>References</h3>

<p>Kohonen, T. (1990) The self-organizing map.
<em>Proc. IEEE </em>
<b>78</b>, 1464–1480.
</p>
<p>Kohonen, T. (1995)
<em>Self-Organizing Maps.</em>
Springer, Berlin.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvq1">lvq1</a></code>, <code><a href="#lvq2">lvq2</a></code>, <code><a href="#lvq3">lvq3</a></code>, <code><a href="#olvq1">olvq1</a></code>, <code><a href="#lvqtest">lvqtest</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cd &lt;- lvqinit(train, cl, 10)
lvqtest(cd, train)
cd1 &lt;- olvq1(train, cl, cd)
lvqtest(cd1, train)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
cd <span class="token operator">&lt;-</span> lvqinit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">10</span><span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd1 <span class="token operator">&lt;-</span> olvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd1<span class="token punctuation">,</span> train<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="lvqtest"><div class="page-main">
<a href="#lvqtest" class="help-page-title"><h2>
Classify Test Set from LVQ Codebook
</h2></a>

<h3>Description</h3>

<p>Classify a test set by 1-NN from a specified LVQ codebook.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">lvqtest(codebk, test)
</code><code class="language-r">lvqtest<span class="token punctuation">(</span>codebk<span class="token punctuation">,</span> test<span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="codebk">codebk</code></td>
<td>

<p>codebook object returned by other LVQ software
</p>
</td>
</tr>
<tr>
<td><code id="test">test</code></td>
<td>

<p>matrix of test examples
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Uses 1-NN to classify each test example against the codebook.
</p>


<h3>Value</h3>

<p>Factor of classification for each row of <code>x</code>
</p>


<h3>References</h3>

<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvqinit">lvqinit</a></code>, <code><a href="#olvq1">olvq1</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden"># The function is currently defined as
function(codebk, test) knn1(codebk$x, test, codebk$cl)
</code><code class="language-r"><span class="token comment"># The function is currently defined as</span>
<span class="token keyword">function</span><span class="token punctuation">(</span>codebk<span class="token punctuation">,</span> test<span class="token punctuation">)</span> knn1<span class="token punctuation">(</span>codebk<span class="token operator">$</span>x<span class="token punctuation">,</span> test<span class="token punctuation">,</span> codebk<span class="token operator">$</span>cl<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="multiedit"><div class="page-main">
<a href="#multiedit" class="help-page-title"><h2>
Multiedit for k-NN Classifier
</h2></a>

<h3>Description</h3>

<p>Multiedit for k-NN classifier
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">multiedit(x, class, k = 1, V = 3, I = 5, trace = TRUE)
</code><code class="language-r">multiedit<span class="token punctuation">(</span>x<span class="token punctuation">,</span> class<span class="token punctuation">,</span> k <span class="token operator">=</span> <span class="token number">1</span><span class="token punctuation">,</span> V <span class="token operator">=</span> <span class="token number">3</span><span class="token punctuation">,</span> I <span class="token operator">=</span> <span class="token number">5</span><span class="token punctuation">,</span> trace <span class="token operator">=</span> <span class="token boolean">TRUE</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>matrix of training set.
</p>
</td>
</tr>
<tr>
<td><code id="class">class</code></td>
<td>

<p>vector of classification of training set.
</p>
</td>
</tr>
<tr>
<td><code id="k">k</code></td>
<td>

<p>number of neighbours used in k-NN.
</p>
</td>
</tr>
<tr>
<td><code id="V">V</code></td>
<td>

<p>divide training set into V parts.
</p>
</td>
</tr>
<tr>
<td><code id="I">I</code></td>
<td>

<p>number of null passes before quitting.
</p>
</td>
</tr>
<tr>
<td><code id="trace">trace</code></td>
<td>

<p>logical for statistics at each pass.
</p>
</td>
</tr>
</table>
<h3>Value</h3>

<p>Index vector of cases to be retained.
</p>


<h3>References</h3>

<p>P. A. Devijver and J. Kittler (1982)
<em>Pattern Recognition. A Statistical Approach.</em>
Prentice-Hall, p. 115.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#condense">condense</a></code>, <code><a href="#reduce.nn">reduce.nn</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">tr &lt;- sample(1:50, 25)
train &lt;- rbind(iris3[tr,,1], iris3[tr,,2], iris3[tr,,3])
test &lt;- rbind(iris3[-tr,,1], iris3[-tr,,2], iris3[-tr,,3])
cl &lt;- factor(c(rep(1,25),rep(2,25), rep(3,25)), labels=c("s", "c", "v"))
table(cl, knn(train, test, cl, 3))
ind1 &lt;- multiedit(train, cl, 3)
length(ind1)
table(cl, knn(train[ind1, , drop=FALSE], test, cl[ind1], 1))
ntrain &lt;- train[ind1,]; ncl &lt;- cl[ind1]
ind2 &lt;- condense(ntrain, ncl)
length(ind2)
table(cl, knn(ntrain[ind2, , drop=FALSE], test, ncl[ind2], 1))
</code><code class="language-r">tr <span class="token operator">&lt;-</span> sample<span class="token punctuation">(</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span> <span class="token number">25</span><span class="token punctuation">)</span>
train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token operator">-</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token operator">-</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token operator">-</span>tr<span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token number">1</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span>rep<span class="token punctuation">(</span><span class="token number">2</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token number">3</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">,</span> labels<span class="token operator">=</span>c<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span> <span class="token string">"c"</span><span class="token punctuation">,</span> <span class="token string">"v"</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
table<span class="token punctuation">(</span>cl<span class="token punctuation">,</span> knn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">3</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
ind1 <span class="token operator">&lt;-</span> multiedit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">3</span><span class="token punctuation">)</span>
length<span class="token punctuation">(</span>ind1<span class="token punctuation">)</span>
table<span class="token punctuation">(</span>cl<span class="token punctuation">,</span> knn<span class="token punctuation">(</span>train<span class="token punctuation">[</span>ind1<span class="token punctuation">,</span> <span class="token punctuation">,</span> drop<span class="token operator">=</span><span class="token boolean">FALSE</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">[</span>ind1<span class="token punctuation">]</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
ntrain <span class="token operator">&lt;-</span> train<span class="token punctuation">[</span>ind1<span class="token punctuation">,</span><span class="token punctuation">]</span><span class="token punctuation">;</span> ncl <span class="token operator">&lt;-</span> cl<span class="token punctuation">[</span>ind1<span class="token punctuation">]</span>
ind2 <span class="token operator">&lt;-</span> condense<span class="token punctuation">(</span>ntrain<span class="token punctuation">,</span> ncl<span class="token punctuation">)</span>
length<span class="token punctuation">(</span>ind2<span class="token punctuation">)</span>
table<span class="token punctuation">(</span>cl<span class="token punctuation">,</span> knn<span class="token punctuation">(</span>ntrain<span class="token punctuation">[</span>ind2<span class="token punctuation">,</span> <span class="token punctuation">,</span> drop<span class="token operator">=</span><span class="token boolean">FALSE</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> ncl<span class="token punctuation">[</span>ind2<span class="token punctuation">]</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">)</span><span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="olvq1"><div class="page-main">
<a href="#olvq1" class="help-page-title"><h2>
Optimized Learning Vector Quantization 1
</h2></a>

<h3>Description</h3>

<p>Moves examples in a codebook to better represent the training set.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">olvq1(x, cl, codebk, niter = 40 * nrow(codebk$x), alpha = 0.3)
</code><code class="language-r">olvq1<span class="token punctuation">(</span>x<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> codebk<span class="token punctuation">,</span> niter <span class="token operator">=</span> <span class="token number">40</span> <span class="token operator">*</span> nrow<span class="token punctuation">(</span>codebk<span class="token operator">$</span>x<span class="token punctuation">)</span><span class="token punctuation">,</span> alpha <span class="token operator">=</span> <span class="token number">0.3</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="x">x</code></td>
<td>

<p>a matrix or data frame of examples
</p>
</td>
</tr>
<tr>
<td><code id="cl">cl</code></td>
<td>

<p>a vector or factor of classifications for the examples
</p>
</td>
</tr>
<tr>
<td><code id="codebk">codebk</code></td>
<td>

<p>a codebook
</p>
</td>
</tr>
<tr>
<td><code id="niter">niter</code></td>
<td>

<p>number of iterations
</p>
</td>
</tr>
<tr>
<td><code id="alpha">alpha</code></td>
<td>

<p>constant for training
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>Selects <code>niter</code> examples at random with replacement, and adjusts the
nearest example in the codebook for each.
</p>


<h3>Value</h3>

<p>A codebook, represented as a list with components <code>x</code> and <code>cl</code> giving
the examples and classes.
</p>


<h3>References</h3>

<p>Kohonen, T. (1990) The self-organizing map.
<em>Proc. IEEE</em>
<b>78</b>, 1464–1480.
</p>
<p>Kohonen, T. (1995)
<em>Self-Organizing Maps.</em>
Springer, Berlin.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#lvqinit">lvqinit</a></code>, <code><a href="#lvqtest">lvqtest</a></code>, <code><a href="#lvq1">lvq1</a></code>, <code><a href="#lvq2">lvq2</a></code>, <code><a href="#lvq3">lvq3</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cd &lt;- lvqinit(train, cl, 10)
lvqtest(cd, train)
cd1 &lt;- olvq1(train, cl, cd)
lvqtest(cd1, train)
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
cd <span class="token operator">&lt;-</span> lvqinit<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> <span class="token number">10</span><span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd<span class="token punctuation">,</span> train<span class="token punctuation">)</span>
cd1 <span class="token operator">&lt;-</span> olvq1<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">,</span> cd<span class="token punctuation">)</span>
lvqtest<span class="token punctuation">(</span>cd1<span class="token punctuation">,</span> train<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="reduce.nn"><div class="page-main">
<a href="#reduce.nn" class="help-page-title"><h2>
Reduce Training Set for a k-NN Classifier
</h2></a>

<h3>Description</h3>

<p>Reduce training set for a k-NN classifier. Used after <code>condense</code>.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">reduce.nn(train, ind, class)
</code><code class="language-r">reduce.nn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> ind<span class="token punctuation">,</span> class<span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="train">train</code></td>
<td>

<p>matrix for training set
</p>
</td>
</tr>
<tr>
<td><code id="ind">ind</code></td>
<td>

<p>Initial list of members of the training set (from <code>condense</code>).
</p>
</td>
</tr>
<tr>
<td><code id="class">class</code></td>
<td>

<p>vector of classifications for test set
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>All the members of the training set are tried in random order.
Any which when dropped do not cause any members of the training set to
be wrongly classified are dropped.
</p>


<h3>Value</h3>

<p>Index vector of cases to be retained.
</p>


<h3>References</h3>

<p>Gates, G.W. (1972) The reduced nearest neighbor rule.
<em>IEEE Trans. Information Theory</em>
<b>IT-18</b>, 431–432.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#condense">condense</a></code>, <code><a href="#multiedit">multiedit</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">train &lt;- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
test &lt;- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
cl &lt;- factor(c(rep("s",25), rep("c",25), rep("v",25)))
keep &lt;- condense(train, cl)
knn(train[keep,], test, cl[keep])
keep2 &lt;- reduce.nn(train, keep, cl)
knn(train[keep2,], test, cl[keep2])
</code><code class="language-r">train <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">25</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
test <span class="token operator">&lt;-</span> rbind<span class="token punctuation">(</span>iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">1</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">2</span><span class="token punctuation">]</span><span class="token punctuation">,</span> iris3<span class="token punctuation">[</span><span class="token number">26</span><span class="token operator">:</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token punctuation">,</span><span class="token number">3</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
cl <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span>rep<span class="token punctuation">(</span><span class="token string">"s"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"c"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token string">"v"</span><span class="token punctuation">,</span><span class="token number">25</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
keep <span class="token operator">&lt;-</span> condense<span class="token punctuation">(</span>train<span class="token punctuation">,</span> cl<span class="token punctuation">)</span>
knn<span class="token punctuation">(</span>train<span class="token punctuation">[</span>keep<span class="token punctuation">,</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">[</span>keep<span class="token punctuation">]</span><span class="token punctuation">)</span>
keep2 <span class="token operator">&lt;-</span> reduce.nn<span class="token punctuation">(</span>train<span class="token punctuation">,</span> keep<span class="token punctuation">,</span> cl<span class="token punctuation">)</span>
knn<span class="token punctuation">(</span>train<span class="token punctuation">[</span>keep2<span class="token punctuation">,</span><span class="token punctuation">]</span><span class="token punctuation">,</span> test<span class="token punctuation">,</span> cl<span class="token punctuation">[</span>keep2<span class="token punctuation">]</span><span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="SOM"><div class="page-main">
<a href="#SOM" class="help-page-title"><h2>
Self-Organizing Maps: Online Algorithm
</h2></a>

<h3>Description</h3>

<p>Kohonen's Self-Organizing Maps are a crude form of multidimensional scaling.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">SOM(data, grid = somgrid(), rlen = 10000, alpha, radii, init)
</code><code class="language-r">SOM<span class="token punctuation">(</span>data<span class="token punctuation">,</span> grid <span class="token operator">=</span> somgrid<span class="token punctuation">(</span><span class="token punctuation">)</span><span class="token punctuation">,</span> rlen <span class="token operator">=</span> <span class="token number">10000</span><span class="token punctuation">,</span> alpha<span class="token punctuation">,</span> radii<span class="token punctuation">,</span> init<span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td><code id="data">data</code></td>
<td>

<p>a matrix or data frame of observations, scaled so that Euclidean
distance is appropriate.
</p>
</td>
</tr>
<tr>
<td><code id="grid">grid</code></td>
<td>

<p>A grid for the representatives: see <code><a href="#somgrid">somgrid</a></code>.
</p>
</td>
</tr>
<tr>
<td><code id="rlen">rlen</code></td>
<td>

<p>the number of updates: used only in the defaults for <code>alpha</code> and <code>radii</code>.
</p>
</td>
</tr>
<tr>
<td><code id="alpha">alpha</code></td>
<td>

<p>the amount of change: one update is done for each element of <code>alpha</code>.
Default is to decline linearly from 0.05 to 0 over <code>rlen</code> updates.
</p>
</td>
</tr>
<tr>
<td><code id="radii">radii</code></td>
<td>

<p>the radii of the neighbourhood to be used for each update: must be the
same length as <code>alpha</code>.  Default is to decline linearly from 4 to 1
over <code>rlen</code> updates.
</p>
</td>
</tr>
<tr>
<td><code id="init">init</code></td>
<td>

<p>the initial representatives.  If missing, chosen (without replacement)
randomly from <code>data</code>.
</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p><code>alpha</code> and <code>radii</code> can also be lists, in which case each component is
used in turn, allowing two- or more phase training.
</p>


<h3>Value</h3>

<p>An object of class <code>"SOM"</code> with components
</p>
<table>
<tr>
<td><code>grid</code></td>
<td>

<p>the grid, an object of class <code>"somgrid"</code>.
</p>
</td>
</tr>
<tr>
<td><code>codes</code></td>
<td>

<p>a matrix of representatives.
</p>
</td>
</tr>
</table>
<h3>References</h3>

<p>Kohonen, T. (1995) <em>Self-Organizing Maps.</em> Springer-Verlag
</p>
<p>Kohonen, T., Hynninen, J., Kangas, J. and Laaksonen, J. (1996)
<em>SOM PAK: The self-organizing map program package.</em>
Laboratory of Computer and Information Science, Helsinki University
of Technology, Technical Report A31.
</p>
<p>Ripley, B. D. (1996)
<em>Pattern Recognition and Neural Networks.</em> Cambridge.
</p>
<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#somgrid">somgrid</a></code>, <code><a href="#batchSOM">batchSOM</a></code>
</p>


<h3>Examples</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">require(graphics)
data(crabs, package = "MASS")

lcrabs &lt;- log(crabs[, 4:8])
crabs.grp &lt;- factor(c("B", "b", "O", "o")[rep(1:4, rep(50,4))])
gr &lt;- somgrid(topo = "hexagonal")
crabs.som &lt;- SOM(lcrabs, gr)
plot(crabs.som)

## 2-phase training
crabs.som2 &lt;- SOM(lcrabs, gr,
    alpha = list(seq(0.05, 0, length.out = 1e4), seq(0.02, 0, length.out = 1e5)),
    radii = list(seq(8, 1, length.out = 1e4), seq(4, 1, length.out = 1e5)))
plot(crabs.som2)
</code><code class="language-r">require<span class="token punctuation">(</span>graphics<span class="token punctuation">)</span>
data<span class="token punctuation">(</span>crabs<span class="token punctuation">,</span> package <span class="token operator">=</span> <span class="token string">"MASS"</span><span class="token punctuation">)</span>

lcrabs <span class="token operator">&lt;-</span> log<span class="token punctuation">(</span>crabs<span class="token punctuation">[</span><span class="token punctuation">,</span> <span class="token number">4</span><span class="token operator">:</span><span class="token number">8</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
crabs.grp <span class="token operator">&lt;-</span> factor<span class="token punctuation">(</span>c<span class="token punctuation">(</span><span class="token string">"B"</span><span class="token punctuation">,</span> <span class="token string">"b"</span><span class="token punctuation">,</span> <span class="token string">"O"</span><span class="token punctuation">,</span> <span class="token string">"o"</span><span class="token punctuation">)</span><span class="token punctuation">[</span>rep<span class="token punctuation">(</span><span class="token number">1</span><span class="token operator">:</span><span class="token number">4</span><span class="token punctuation">,</span> rep<span class="token punctuation">(</span><span class="token number">50</span><span class="token punctuation">,</span><span class="token number">4</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">]</span><span class="token punctuation">)</span>
gr <span class="token operator">&lt;-</span> somgrid<span class="token punctuation">(</span>topo <span class="token operator">=</span> <span class="token string">"hexagonal"</span><span class="token punctuation">)</span>
crabs.som <span class="token operator">&lt;-</span> SOM<span class="token punctuation">(</span>lcrabs<span class="token punctuation">,</span> gr<span class="token punctuation">)</span>
plot<span class="token punctuation">(</span>crabs.som<span class="token punctuation">)</span>

<span class="token comment">## 2-phase training</span>
crabs.som2 <span class="token operator">&lt;-</span> SOM<span class="token punctuation">(</span>lcrabs<span class="token punctuation">,</span> gr<span class="token punctuation">,</span>
    alpha <span class="token operator">=</span> list<span class="token punctuation">(</span>seq<span class="token punctuation">(</span><span class="token number">0.05</span><span class="token punctuation">,</span> <span class="token number">0</span><span class="token punctuation">,</span> length.out <span class="token operator">=</span> <span class="token number">1e4</span><span class="token punctuation">)</span><span class="token punctuation">,</span> seq<span class="token punctuation">(</span><span class="token number">0.02</span><span class="token punctuation">,</span> <span class="token number">0</span><span class="token punctuation">,</span> length.out <span class="token operator">=</span> <span class="token number">1e5</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">,</span>
    radii <span class="token operator">=</span> list<span class="token punctuation">(</span>seq<span class="token punctuation">(</span><span class="token number">8</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">,</span> length.out <span class="token operator">=</span> <span class="token number">1e4</span><span class="token punctuation">)</span><span class="token punctuation">,</span> seq<span class="token punctuation">(</span><span class="token number">4</span><span class="token punctuation">,</span> <span class="token number">1</span><span class="token punctuation">,</span> length.out <span class="token operator">=</span> <span class="token number">1e5</span><span class="token punctuation">)</span><span class="token punctuation">)</span><span class="token punctuation">)</span>
plot<span class="token punctuation">(</span>crabs.som2<span class="token punctuation">)</span></code></pre>

<hr>
</div></div>
<div class="container manual-page" id="somgrid"><div class="page-main">
<a href="#somgrid" class="help-page-title"><h2>
Plot SOM Fits
</h2></a>

<h3>Description</h3>

<p>Plotting functions for SOM results.
</p>


<h3>Usage</h3>

<pre class="language-r"><code class="language-r-input" hidden="hidden">somgrid(xdim = 8, ydim = 6, topo = c("rectangular", "hexagonal"))

## S3 method for class 'somgrid'
plot(x, type = "p", ...)

## S3 method for class 'SOM'
plot(x, ...)
</code><code class="language-r">somgrid<span class="token punctuation">(</span>xdim <span class="token operator">=</span> <span class="token number">8</span><span class="token punctuation">,</span> ydim <span class="token operator">=</span> <span class="token number">6</span><span class="token punctuation">,</span> topo <span class="token operator">=</span> c<span class="token punctuation">(</span><span class="token string">"rectangular"</span><span class="token punctuation">,</span> <span class="token string">"hexagonal"</span><span class="token punctuation">)</span><span class="token punctuation">)</span>

<span class="token comment">## S3 method for class 'somgrid'</span>
plot<span class="token punctuation">(</span>x<span class="token punctuation">,</span> type <span class="token operator">=</span> <span class="token string">"p"</span><span class="token punctuation">,</span> <span class="token ellipsis">...</span><span class="token punctuation">)</span>

<span class="token comment">## S3 method for class 'SOM'</span>
plot<span class="token punctuation">(</span>x<span class="token punctuation">,</span> <span class="token ellipsis">...</span><span class="token punctuation">)</span></code></pre>


<h3 class="r-arguments-title">Arguments</h3>

<table>
<tr>
<td>
<code id="xdim">xdim</code>, <code id="ydim">ydim</code>
</td>
<td>
<p>dimensions of the grid</p>
</td>
</tr>
<tr>
<td><code id="topo">topo</code></td>
<td>
<p>the topology of the grid.</p>
</td>
</tr>
<tr>
<td><code id="x">x</code></td>
<td>
<p>an object inheriting from class <code>"somgrid"</code> or <code>"SOM"</code>.</p>
</td>
</tr>
<tr>
<td>
<code id="type">type</code>, <code id="...">...</code>
</td>
<td>
<p>graphical parameters.</p>
</td>
</tr>
</table>
<h3>Details</h3>

<p>The class <code>"somgrid"</code> records the coordinates of the grid to be
used for (batch or on-line) SOM: this has a plot method.
</p>
<p>The plot method for class <code>"SOM"</code> plots a <code><a href="https://r-universe.dev/manuals/graphics.html#stars">stars</a></code>
plot of the representative at each grid point.
</p>


<h3>Value</h3>

<p>For <code>somgrid</code>, an object of class <code>"somgrid"</code>, a list with
components
</p>
<table>
<tr>
<td><code>pts</code></td>
<td>
<p>a two-column matrix giving locations for the grid points.</p>
</td>
</tr>
<tr>
<td>
<code>xdim</code>, <code>ydim</code>, <code>topo</code>
</td>
<td>
<p>as in the arguments to <code>somgrid</code>.</p>
</td>
</tr>
</table>
<h3>References</h3>

<p>Venables, W. N. and Ripley, B. D. (2002)
<em>Modern Applied Statistics with S.</em> Fourth edition.  Springer.
</p>


<h3>See Also</h3>

<p><code><a href="#batchSOM">batchSOM</a></code>, <code><a href="#SOM">SOM</a></code>
</p>

<hr>
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