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java.lang.Object org.opencv.core.Algorithm org.opencv.ml.EM
public class EM
The class implements the EM algorithm as described in the beginning of this section. It is inherited from "Algorithm".
Field Summary | |
---|---|
static int |
COV_MAT_DEFAULT
|
static int |
COV_MAT_DIAGONAL
|
static int |
COV_MAT_GENERIC
|
static int |
COV_MAT_SPHERICAL
|
static int |
DEFAULT_MAX_ITERS
|
static int |
DEFAULT_NCLUSTERS
|
static int |
START_AUTO_STEP
|
static int |
START_E_STEP
|
static int |
START_M_STEP
|
Constructor Summary | |
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EM()
The constructor of the class |
|
EM(int nclusters,
int covMatType,
TermCriteria termCrit)
The constructor of the class |
Method Summary | |
---|---|
void |
clear()
|
boolean |
isTrained()
|
double[] |
predict(Mat sample)
Returns a likelihood logarithm value and an index of the most probable mixture component for the given sample. |
double[] |
predict(Mat sample,
Mat probs)
Returns a likelihood logarithm value and an index of the most probable mixture component for the given sample. |
boolean |
train(Mat samples)
Estimates the Gaussian mixture parameters from a samples set. |
boolean |
train(Mat samples,
Mat logLikelihoods,
Mat labels,
Mat probs)
Estimates the Gaussian mixture parameters from a samples set. |
boolean |
trainE(Mat samples,
Mat means0)
|
boolean |
trainE(Mat samples,
Mat means0,
Mat covs0,
Mat weights0,
Mat logLikelihoods,
Mat labels,
Mat probs)
|
boolean |
trainM(Mat samples,
Mat probs0)
|
boolean |
trainM(Mat samples,
Mat probs0,
Mat logLikelihoods,
Mat labels,
Mat probs)
|
Methods inherited from class org.opencv.core.Algorithm |
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getBool, getDouble, getInt, getMat, getMatVector, getString, paramHelp, paramType, setBool, setDouble, setInt, setMat, setMatVector, setString |
Methods inherited from class java.lang.Object |
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equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Field Detail |
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public static final int COV_MAT_DEFAULT
public static final int COV_MAT_DIAGONAL
public static final int COV_MAT_GENERIC
public static final int COV_MAT_SPHERICAL
public static final int DEFAULT_MAX_ITERS
public static final int DEFAULT_NCLUSTERS
public static final int START_AUTO_STEP
public static final int START_E_STEP
public static final int START_M_STEP
Constructor Detail |
---|
public EM()
The constructor of the class
public EM(int nclusters, int covMatType, TermCriteria termCrit)
The constructor of the class
nclusters
- The number of mixture components in the Gaussian mixture
model. Default value of the parameter is EM.DEFAULT_NCLUSTERS=5
.
Some of EM implementation could determine the optimal number of mixtures
within a specified value range, but that is not the case in ML yet.covMatType
- Constraint on covariance matrices which defines type of
matrices. Possible values are:
covMatType=EM.COV_MAT_DIAGONAL
.
d
for each matrix.
This is most commonly used option yielding good estimation results.
termCrit
- The termination criteria of the EM algorithm. The EM
algorithm can be terminated by the number of iterations termCrit.maxCount
(number of M-steps) or when relative change of likelihood logarithm is less
than termCrit.epsilon
. Default maximum number of iterations is
EM.DEFAULT_MAX_ITERS=100
.Method Detail |
---|
public void clear()
public boolean isTrained()
public double[] predict(Mat sample)
Returns a likelihood logarithm value and an index of the most probable mixture component for the given sample.
The method returns a two-element double
vector. Zero element is
a likelihood logarithm value for the sample. First element is an index of the
most probable mixture component for the given sample.
sample
- A sample for classification. It should be a one-channel matrix
of 1 x dims or dims x 1 size.public double[] predict(Mat sample, Mat probs)
Returns a likelihood logarithm value and an index of the most probable mixture component for the given sample.
The method returns a two-element double
vector. Zero element is
a likelihood logarithm value for the sample. First element is an index of the
most probable mixture component for the given sample.
sample
- A sample for classification. It should be a one-channel matrix
of 1 x dims or dims x 1 size.probs
- Optional output matrix that contains posterior probabilities of
each component given the sample. It has 1 x nclusters size and
CV_64FC1
type.public boolean train(Mat samples)
Estimates the Gaussian mixture parameters from a samples set.
Three versions of training method differ in the initialization of Gaussian mixture model parameters and start step:
The methods return true
if the Gaussian mixture model was
trained successfully, otherwise it returns false
.
Unlike many of the ML models, EM is an unsupervised learning algorithm and it
does not take responses (class labels or function values) as input. Instead,
it computes the *Maximum Likelihood Estimate* of the Gaussian mixture
parameters from an input sample set, stores all the parameters inside the
structure: p_(i,k) in probs
, a_k in
means
, S_k in covs[k]
, pi_k in
weights
, and optionally computes the output "class label" for
each sample: labels_i=arg max_k(p_(i,k)), i=1..N (indices of the
most probable mixture component for each sample).
The trained model can be used further for prediction, just like any other classifier. The trained model is similar to the "CvNormalBayesClassifier".
samples
- Samples from which the Gaussian mixture model will be
estimated. It should be a one-channel matrix, each row of which is a sample.
If the matrix does not have CV_64F
type it will be converted to
the inner matrix of such type for the further computing.public boolean train(Mat samples, Mat logLikelihoods, Mat labels, Mat probs)
Estimates the Gaussian mixture parameters from a samples set.
Three versions of training method differ in the initialization of Gaussian mixture model parameters and start step:
The methods return true
if the Gaussian mixture model was
trained successfully, otherwise it returns false
.
Unlike many of the ML models, EM is an unsupervised learning algorithm and it
does not take responses (class labels or function values) as input. Instead,
it computes the *Maximum Likelihood Estimate* of the Gaussian mixture
parameters from an input sample set, stores all the parameters inside the
structure: p_(i,k) in probs
, a_k in
means
, S_k in covs[k]
, pi_k in
weights
, and optionally computes the output "class label" for
each sample: labels_i=arg max_k(p_(i,k)), i=1..N (indices of the
most probable mixture component for each sample).
The trained model can be used further for prediction, just like any other classifier. The trained model is similar to the "CvNormalBayesClassifier".
samples
- Samples from which the Gaussian mixture model will be
estimated. It should be a one-channel matrix, each row of which is a sample.
If the matrix does not have CV_64F
type it will be converted to
the inner matrix of such type for the further computing.logLikelihoods
- The optional output matrix that contains a likelihood
logarithm value for each sample. It has nsamples x 1 size and
CV_64FC1
type.labels
- The optional output "class label" for each sample:
labels_i=arg max_k(p_(i,k)), i=1..N (indices of the most probable
mixture component for each sample). It has nsamples x 1 size and
CV_32SC1
type.probs
- The optional output matrix that contains posterior probabilities
of each Gaussian mixture component given the each sample. It has nsamples
x nclusters size and CV_64FC1
type.public boolean trainE(Mat samples, Mat means0)
public boolean trainE(Mat samples, Mat means0, Mat covs0, Mat weights0, Mat logLikelihoods, Mat labels, Mat probs)
public boolean trainM(Mat samples, Mat probs0)
public boolean trainM(Mat samples, Mat probs0, Mat logLikelihoods, Mat labels, Mat probs)
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