Advanced Chromatic Monitoring
PrologueSection I: Basic Chromatic PrinciplesOverview of Chromatic MonitoringIntroductionMonitoring and ChromaticityExamples of Basic Chromatic ParametersEffect of Different Chromatic Processor ProfilesChromaticity with Discrete Rather Than Continuous SignalsVarious Chromatic RepresentationsChromatic Trend MappingChromatic Parameter-Based Calibration GraphsSecondary Chromatic MonitoringSummary and Recent DevelopmentsAppendix 1A: ADDITIONAL CHROMATIC MAPS: HSV, LABReferencesSection II: Chromatic Monitoring of Liquids and Biological TissueGeneral Overview of Liquid Chromatic MonitoringIntroductionCamera-Based Systems OptionsAdditional Monitoring OptionsFurther OptionsIllustrative Examples of Chromatic System EvolutionSummaryReferenceOptical Chromaticity for Petroleum DiscriminationIntroductionChromatic Monitoring SystemChromatic Analysis of Petroleum SpectraChromatic Maps of Various FuelsSummaryAcknowledgementsReferencePC-Based Chromatic Monitoring of E coli in UrineIntroductionChromatic SystemChromatic Maps and ProcessingChromatic Analysis ResultsReferencesChromatic Monitoring of Honey SamplesIntroductionPortable Computer-Based Chromatic Monitoring SystemTest ResultsChromatic Interpretation of Test ResultsTransmission R:B MapPolarisation R:B MapFluorescence G:B MapQuantification of PerformanceOverview and SummaryAcknowledgementsAppendix 5A: FORMULAE FOR SENSITIVITY, SPECIFICITY, POSITIVE PREDICTED VALUE, NEGATIVE PREDICTED VALUEReferencesMobile Phone Chromatic Monitoring of Jaundice In VivoIntroductionChromatic Monitoring UnitChromatic ProceduresPrimary Chromatic ProcessingSecondary Chromatic ProcessingConclusionsReferencesOptical Chromatic Monitoring of High-Voltage Transformer Insulating OilsIntroductionChromatic Optical TransmissionSystem Structure and OutputsChromatic ProcessingSummaryChromatic Optical FluorescenceSystem Structure and OutputsChromatic Mapping and CalibrationSummaryChromatic Combination of Transmission and Fluorescence ParametersSummary and OverviewAcknowledgementsReferencesSection III: Chromatic Monitoring of Mechanical VibrationsMechanical Machining MonitoringIntroductionTest SystemChromatic ResultsStatic TestsDynamic TestsChromatic Results ImplicationsStatic PerformanceDynamic PerformanceOverview and SummaryReferencesChromasonics: Monitoring Rail-Track FaultsIntroductionChromasonicsPrinciples of OperationMonitoring SystemRAIL-DEFECT DetectionNormal Track Signal Plus SquatNormal Track Signal Plus Horizontal CrackNormal Track Signal Plus Defective WeldWorn Track SignaturesOverview and SummaryReferencesSection IV: Environmental ApplicationsOptical Chromatic Monitoring of Marine WatersIntroductionInherent Optical Properties of WaterChromatic ProcessingChromatic Monitoring SystemExamples of Test ResultsSummary and OverviewAcknowledgementsReferencesChromatic Analysis of Wind Power GenerationIntroductionWind Speed DataData AnalysisChromatic AnalysisStatistical Analysis with Chromatic ParametersResults of Test Data AnalysisSummary and OverviewReferencesChromatic Comparison of Environmental Factors of High-Voltage Circuit Breaker GasesIntroductionData NormalisationChromatic AnalysisInterpretationSummaryReferencesChromatic Line of Sight Particle MonitoringIntroductionChromatic Monitoring SystemChromatic Test ResultsSummaryReferencesSection V: Advanced Chromatic MonitoringIntroduction to Advanced Chromatic AnalysisIntroductionProperties and Adaptability of Chromatic ProcessorsChromatic Processor PropertiesAdaptation of Processor Locations and WidthsNormalised Chromaticity of Two-Dimensional SignalsNormalised Chromaticity of a Rotated SignalSummary and OverviewReferencesChromatic Monitoring of Spatial DimensionsIntroductionLaser Detection And Ranging System MonitoringMultispectral Domiciliary Healthcare MonitoringWireless Chromatic SystemAdvanced Chromatic Information ProcessingChromatic Monitoring of Groups of Zebrafish (Danio rerio)Overview and SummaryReferencesOptical Acoustic Monitoring of High-Voltage TransformersIntroductionChromatic Monitoring SystemChromatic Monitoring PrinciplesTest Results and Their Chromatic InterpretationContinuous Transformer OperationTap Changer OperationSUMMARY AND OVERVIEWAcknowledgementsReferencesChromatic Monitoring of Arc ElectrodesIntroductionInstrumentationTest ResultsMass Loss of Plug ContactTime-Resolved SpectraChromatic ProcessingWavelength Domain Chromatic ProcessingTime Domain Chromatic ProcessingSummaryReferencesChromatic Monitoring of Alternating Current Partial DischargesIntroductionData AnalysisData Processing and Chromatic AnalysisChromatic MapsSingle Quarter Cycle AnalysisMultiple Quarter Cycles AnalysisSummary and OverviewReferencesTransmission Line Fault Diagnosis Using Chromatic MonitoringIntroductionMethodologyPre-ProcessingChromatic Parameter SelectionChromatic ProcessingFault LocationIdentification of Fault TypeSummary and OverviewReferencesChromatic Analysis of High-Voltage Transformer Oils DataIntroductionPrimary Chromatic Analysis of Dissolved GasesPrimary Chromatic Analysis of Acidity, Water and Dielectric StrengthPrimary Optical Chromatic AnalysisSecondary Chromatic ProcessingSummaryReferencesChromatic Assessment of High-Voltage Circuit Breaker GasesIntroduction to Current InterruptionChromatic Interpretation of Conventionally Measured Circuit Breaker ParametersIntroduction to Current Interruption ParametersChromatic Analysis MethodExamples of Chromatic Analysis ApplicationSummary and OverviewComparison of High-Voltage Arc-Quenching Gases: Test DataIntroduction to Arc-Quenching Test DataChromatic AnalysisInterpretation of Chromatic Monitoring ResultsSummary and OverviewComparison of High-Voltage Arc-Quenching Gases: Theoretical DataIntroduction to Arc-Quenching ComputationsChromaticity of Thermal Storage Temperature VariationsChromatic Comparison of Different Forms of Thermal LossesSummary and OverviewAppendix 21A: Circuit Breaker Operational ParametersReferencesEpilogue
