TimeDomainFeatures Class Reference

#include <TimeDomainFeatures.h>

Inheritance diagram for TimeDomainFeatures:

Public Member Functions
	TimeDomainFeatures (UINT bufferLength=100, UINT numFrames=10, UINT numDimensions=1, bool offsetInput=false, bool useMean=true, bool useStdDev=true, bool useEuclideanNorm=true, bool useRMS=true)
	TimeDomainFeatures (const TimeDomainFeatures &rhs)
virtual	~TimeDomainFeatures ()
TimeDomainFeatures &	operator= (const TimeDomainFeatures &rhs)
virtual bool	deepCopyFrom (const FeatureExtraction *featureExtraction)
virtual bool	computeFeatures (const VectorFloat &inputVector)
virtual bool	reset ()
virtual bool	saveModelToFile (std::string filename) const
virtual bool	loadModelFromFile (std::string filename)
virtual bool	saveModelToFile (std::fstream &file) const
virtual bool	loadModelFromFile (std::fstream &file)
bool	init (UINT bufferLength, UINT numFrames, UINT numDimensions, bool offsetInput, bool useMean, bool useStdDev, bool useEuclideanNorm, bool useRMS)
VectorFloat	update (Float x)
VectorFloat	update (const VectorFloat &x)
CircularBuffer< VectorFloat >	getBufferData ()
const CircularBuffer< VectorFloat > &	getBufferData () const
Public Member Functions inherited from FeatureExtraction
	FeatureExtraction ()
virtual	~FeatureExtraction ()
bool	copyBaseVariables (const FeatureExtraction *featureExtractionModule)
virtual bool	computeFeatures (const MatrixFloat &inputMatrix)
virtual bool	clear ()
std::string	getFeatureExtractionType () const
UINT	getNumInputDimensions () const
UINT	getNumOutputDimensions () const
bool	getInitialized () const
bool	getFeatureDataReady () const
const VectorFloat &	getFeatureVector () const
const MatrixFloat &	getFeatureMatrix () const
FeatureExtraction *	createNewInstance () const
Public Member Functions inherited from MLBase
	MLBase (void)
virtual	~MLBase (void)
bool	copyMLBaseVariables (const MLBase *mlBase)
virtual bool	train (ClassificationData trainingData)
virtual bool	train_ (ClassificationData &trainingData)
virtual bool	train (RegressionData trainingData)
virtual bool	train_ (RegressionData &trainingData)
virtual bool	train (TimeSeriesClassificationData trainingData)
virtual bool	train_ (TimeSeriesClassificationData &trainingData)
virtual bool	train (ClassificationDataStream trainingData)
virtual bool	train_ (ClassificationDataStream &trainingData)
virtual bool	train (UnlabelledData trainingData)
virtual bool	train_ (UnlabelledData &trainingData)
virtual bool	train (MatrixFloat data)
virtual bool	train_ (MatrixFloat &data)
virtual bool	predict (VectorFloat inputVector)
virtual bool	predict_ (VectorFloat &inputVector)
virtual bool	predict (MatrixFloat inputMatrix)
virtual bool	predict_ (MatrixFloat &inputMatrix)
virtual bool	map (VectorFloat inputVector)
virtual bool	map_ (VectorFloat &inputVector)
virtual bool	print () const
virtual bool	save (const std::string filename) const
virtual bool	load (const std::string filename)
virtual bool	save (std::fstream &file) const
virtual bool	load (std::fstream &file)
	GRT_DEPRECATED_MSG ("saveModelToFile(std::string filename) is deprecated, use save(std::string filename) instead", virtual bool saveModelToFile(std::string filename) const )
	GRT_DEPRECATED_MSG ("saveModelToFile(std::fstream &file) is deprecated, use save(std::fstream &file) instead", virtual bool saveModelToFile(std::fstream &file) const )
	GRT_DEPRECATED_MSG ("loadModelFromFile(std::string filename) is deprecated, use load(std::string filename) instead", virtual bool loadModelFromFile(std::string filename))
	GRT_DEPRECATED_MSG ("loadModelFromFile(std::fstream &file) is deprecated, use load(std::fstream &file) instead", virtual bool loadModelFromFile(std::fstream &file))
virtual bool	getModel (std::ostream &stream) const
Float	scale (const Float &x, const Float &minSource, const Float &maxSource, const Float &minTarget, const Float &maxTarget, const bool constrain=false)
virtual std::string	getModelAsString () const
DataType	getInputType () const
DataType	getOutputType () const
UINT	getBaseType () const
UINT	getNumInputFeatures () const
UINT	getNumInputDimensions () const
UINT	getNumOutputDimensions () const
UINT	getMinNumEpochs () const
UINT	getMaxNumEpochs () const
UINT	getValidationSetSize () const
UINT	getNumTrainingIterationsToConverge () const
Float	getMinChange () const
Float	getLearningRate () const
Float	getRootMeanSquaredTrainingError () const
Float	getTotalSquaredTrainingError () const
Float	getValidationSetAccuracy () const
VectorFloat	getValidationSetPrecision () const
VectorFloat	getValidationSetRecall () const
bool	getUseValidationSet () const
bool	getRandomiseTrainingOrder () const
bool	getTrained () const
bool	getModelTrained () const
bool	getScalingEnabled () const
bool	getIsBaseTypeClassifier () const
bool	getIsBaseTypeRegressifier () const
bool	getIsBaseTypeClusterer () const
bool	enableScaling (const bool useScaling)
bool	setMaxNumEpochs (const UINT maxNumEpochs)
bool	setMinNumEpochs (const UINT minNumEpochs)
bool	setMinChange (const Float minChange)
bool	setLearningRate (const Float learningRate)
bool	setUseValidationSet (const bool useValidationSet)
bool	setValidationSetSize (const UINT validationSetSize)
bool	setRandomiseTrainingOrder (const bool randomiseTrainingOrder)
bool	setTrainingLoggingEnabled (const bool loggingEnabled)
bool	registerTrainingResultsObserver (Observer< TrainingResult > &observer)
bool	registerTestResultsObserver (Observer< TestInstanceResult > &observer)
bool	removeTrainingResultsObserver (const Observer< TrainingResult > &observer)
bool	removeTestResultsObserver (const Observer< TestInstanceResult > &observer)
bool	removeAllTrainingObservers ()
bool	removeAllTestObservers ()
bool	notifyTrainingResultsObservers (const TrainingResult &data)
bool	notifyTestResultsObservers (const TestInstanceResult &data)
MLBase *	getMLBasePointer ()
const MLBase *	getMLBasePointer () const
Vector< TrainingResult >	getTrainingResults () const
Public Member Functions inherited from GRTBase
	GRTBase (void)
virtual	~GRTBase (void)
bool	copyGRTBaseVariables (const GRTBase *GRTBase)
std::string	getClassType () const
std::string	getLastWarningMessage () const
std::string	getLastErrorMessage () const
std::string	getLastInfoMessage () const
bool	setInfoLoggingEnabled (const bool loggingEnabled)
bool	setWarningLoggingEnabled (const bool loggingEnabled)
bool	setErrorLoggingEnabled (const bool loggingEnabled)
GRTBase *	getGRTBasePointer ()
const GRTBase *	getGRTBasePointer () const
Public Member Functions inherited from Observer< TrainingResult >
virtual void	notify (const TrainingResult &data)
Public Member Functions inherited from Observer< TestInstanceResult >
virtual void	notify (const TestInstanceResult &data)

Protected Attributes
UINT	bufferLength
UINT	numFrames
bool	offsetInput
bool	useMean
bool	useStdDev
bool	useEuclideanNorm
bool	useRMS
CircularBuffer< VectorFloat >	dataBuffer
Protected Attributes inherited from FeatureExtraction
std::string	featureExtractionType
bool	initialized
bool	featureDataReady
VectorFloat	featureVector
MatrixFloat	featureMatrix
Protected Attributes inherited from MLBase
bool	trained
bool	useScaling
DataType	inputType
DataType	outputType
UINT	baseType
UINT	numInputDimensions
UINT	numOutputDimensions
UINT	numTrainingIterationsToConverge
UINT	minNumEpochs
UINT	maxNumEpochs
UINT	validationSetSize
Float	learningRate
Float	minChange
Float	rootMeanSquaredTrainingError
Float	totalSquaredTrainingError
Float	validationSetAccuracy
bool	useValidationSet
bool	randomiseTrainingOrder
VectorFloat	validationSetPrecision
VectorFloat	validationSetRecall
Random	random
std::vector< TrainingResult >	trainingResults
TrainingResultsObserverManager	trainingResultsObserverManager
TestResultsObserverManager	testResultsObserverManager
Protected Attributes inherited from GRTBase
std::string	classType
DebugLog	debugLog
ErrorLog	errorLog
InfoLog	infoLog
TrainingLog	trainingLog
TestingLog	testingLog
WarningLog	warningLog

Static Protected Attributes
static RegisterFeatureExtractionModule< TimeDomainFeatures >	registerModule

Additional Inherited Members
Public Types inherited from FeatureExtraction
typedef std::map< std::string, FeatureExtraction *(*)() >	StringFeatureExtractionMap
Public Types inherited from MLBase
enum	BaseTypes { BASE_TYPE_NOT_SET =0, CLASSIFIER, REGRESSIFIER, CLUSTERER }
Static Public Member Functions inherited from FeatureExtraction
static FeatureExtraction *	createInstanceFromString (const std::string &featureExtractionType)
Static Public Member Functions inherited from GRTBase
static std::string	getGRTVersion (bool returnRevision=true)
static std::string	getGRTRevison ()
Protected Member Functions inherited from FeatureExtraction
bool	init ()
bool	saveFeatureExtractionSettingsToFile (std::fstream &file) const
bool	loadFeatureExtractionSettingsFromFile (std::fstream &file)
Protected Member Functions inherited from MLBase
bool	saveBaseSettingsToFile (std::fstream &file) const
bool	loadBaseSettingsFromFile (std::fstream &file)
Protected Member Functions inherited from GRTBase
Float	SQR (const Float &x) const
Static Protected Member Functions inherited from FeatureExtraction
static StringFeatureExtractionMap *	getMap ()

Detailed Description

GRT MIT License Copyright (c) <2012> <Nicholas Gillian, Media Lab, MIT>

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

Definition at line 50 of file TimeDomainFeatures.h.

Constructor & Destructor Documentation

TimeDomainFeatures::TimeDomainFeatures

(

const TimeDomainFeatures &

rhs

)

Copy constructor, copies the TimeDomainFeatures from the rhs instance to this instance.

Parameters

rhs	another instance of the TimeDomainFeatures class from which the data will be copied to this instance

Definition at line 40 of file TimeDomainFeatures.cpp.

TimeDomainFeatures::~TimeDomainFeatures ( )

virtual

Default Destructor

Definition at line 52 of file TimeDomainFeatures.cpp.

Member Function Documentation

bool TimeDomainFeatures::computeFeatures ( const VectorFloat &  inputVector )

virtual

Sets the FeatureExtraction computeFeatures function, overwriting the base FeatureExtraction function. This function is called by the GestureRecognitionPipeline when any new input data needs to be processed (during the prediction phase for example). This function calls the TimeDomainFeatures's update function.

Parameters

inputVector

the inputVector that should be processed. Must have the same dimensionality as the FeatureExtraction module

Returns

returns true if the data was processed, false otherwise

Reimplemented from FeatureExtraction.

Definition at line 90 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::deepCopyFrom ( const FeatureExtraction *  featureExtraction )

virtual

Sets the FeatureExtraction deepCopyFrom function, overwriting the base FeatureExtraction function. This function is used to deep copy the values from the input pointer to this instance of the FeatureExtraction module. This function is called by the GestureRecognitionPipeline when the user adds a new FeatureExtraction module to the pipeline.

Parameters

featureExtraction

a pointer to another instance of a TimeDomainFeatures, the values of that instance will be cloned to this instance

Returns

returns true if the deep copy was successful, false otherwise

Reimplemented from FeatureExtraction.

Definition at line 73 of file TimeDomainFeatures.cpp.

CircularBuffer< VectorFloat > TimeDomainFeatures::getBufferData

(

)

Get the circular buffer.

Returns

a copy of the circular buffer

Definition at line 441 of file TimeDomainFeatures.cpp.

const CircularBuffer< VectorFloat > & TimeDomainFeatures::getBufferData

(

)

const

Gets a reference to the circular buffer.

Returns

a reference to the circular buffer

Definition at line 448 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::init	(	UINT	bufferLength,
		UINT	numFrames,
		UINT	numDimensions,
		bool	offsetInput,
		bool	useMean,
		bool	useStdDev,
		bool	useEuclideanNorm,
		bool	useRMS
	)

Initializes the MovementTrajectoryFeatures

Definition at line 253 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::loadModelFromFile ( std::string  filename )

virtual

This saves the feature extraction settings to a file.

Parameters

file	a reference to the file to save the settings to

Returns

returns true if the settings were saved successfully, false otherwise

Definition at line 128 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::loadModelFromFile ( std::fstream &  file )

virtual

This loads the feature extraction settings from a file. This overrides the loadSettingsFromFile function in the FeatureExtraction base class.

Parameters

file	a reference to the file to load the settings from

Returns

returns true if the settings were loaded successfully, false otherwise

Reimplemented from FeatureExtraction.

Definition at line 171 of file TimeDomainFeatures.cpp.

TimeDomainFeatures & TimeDomainFeatures::operator=

(

const TimeDomainFeatures &

rhs

)

Sets the equals operator, copies the data from the rhs instance to this instance.

Parameters

rhs	another instance of the TimeDomainFeatures class from which the data will be copied to this instance

Returns

a reference to this instance of TimeDomainFeatures

Definition at line 56 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::reset ( )

virtual

Sets the FeatureExtraction reset function, overwriting the base FeatureExtraction function. This function is called by the GestureRecognitionPipeline when the pipelines main reset() function is called. This function resets the feature extraction by re-initiliazing the instance.

Returns

true if the filter was reset, false otherwise

Reimplemented from FeatureExtraction.

Definition at line 107 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::saveModelToFile ( std::string  filename ) const

virtual

This saves the feature extraction settings to a file.

Parameters

filename

the filename to save the settings to

Returns

returns true if the settings were saved successfully, false otherwise

Definition at line 114 of file TimeDomainFeatures.cpp.

bool TimeDomainFeatures::saveModelToFile ( std::fstream &  file ) const

virtual

This saves the feature extraction settings to a file. This overrides the saveSettingsToFile function in the FeatureExtraction base class.

Parameters

file	a reference to the file to save the settings to

Returns

returns true if the settings were saved successfully, false otherwise

Reimplemented from FeatureExtraction.

Definition at line 143 of file TimeDomainFeatures.cpp.

VectorFloat TimeDomainFeatures::update

(

Float

x

)

Computes the features from the input, this should only be called if the dimensionality of this instance was set to 1.

Parameters

x	the value to compute features from, this should only be called if the dimensionality of the filter was set to 1

Returns

a vector containing the features, an empty vector will be returned if the features were not computed

Definition at line 308 of file TimeDomainFeatures.cpp.

VectorFloat TimeDomainFeatures::update

(

const VectorFloat &

x

)

Computes the features from the input, the dimensionality of x should match that of this instance.

Parameters

x	a vector containing the values to be processed, must be the same size as the numInputDimensions

Returns

a vector containing the features, an empty vector will be returned if the features were not computed

Definition at line 312 of file TimeDomainFeatures.cpp.

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The documentation for this class was generated from the following files:

• TimeDomainFeatures.h
• TimeDomainFeatures.cpp