lookfor could not find polyfit using keyword 'polynomial' and 'fitting'.

conv - Convolution and polynomial multiplication deconv - Least-squares deconvolution and polynomial division detrend - Remove polynomial trend mkpp - Make piecewise polynomial pchip - Piecewise Cubic Hermite Interpolating Polynomial (PCHIP) poly - Polynomial with specified roots or characteristic polynomial polyder - Polynomial differentiation polyeig - Polynomial eigenvalue problem polyfit - Polynomial curve fitting polyint - Polynomial integration polyval - Polynomial evaluation polyvalm - Matrix polynomial evaluation ppval - Evaluate piecewise polynomial roots - Polynomial roots unmkpp - Extract piecewise polynomial details Find and Remove Trends - Find and remove polynomial or periodic trends from data in the Live Editor Polynomial - Perform evaluation of polynomial coefficients on input values mssgolay - Smooth signal with peaks using least-squares polynomial bchgenpoly - Produce generator polynomials for BCH code cyclpoly - Produce generator polynomials for binary cyclic code gfadd - Add polynomials over Galois field gfconv - Multiply polynomials over Galois field gfdeconv - Divide polynomials over Galois field gffilter (prime Galois field) - Filter data using polynomials over prime Galois field gfminpol - Find minimal polynomial of Galois field element gfpretty - Polynomial in traditional format gfprimck - Check whether polynomial over Galois field is primitive gfprimdf - Provide default primitive polynomials for Galois field gfprimfd - Find primitive polynomials for Galois field gfrepcov - Convert one binary polynomial representation to another gfroots - Find roots of polynomial over prime Galois field gfsub - Subtract polynomials over Galois field gftrunc - Minimize length of polynomial representation isprimitive - True for primitive polynomial for Galois field minpol - Find minimal polynomial of Galois field element poly2trellis - Convert convolutional code polynomials to trellis description primpoly - Find primitive polynomials for Galois field rsgenpoly - Generator polynomial of Reed-Solomon code rsgenpolycoeffs - Generator polynomial coefficients of Reed-Solomon code polyBasis - Polynomial basis functions for tunable gain surface bspline - Plot B-spline and its polynomial pieces fdesign.polysrc - Construct polynomial sample-rate converter (POLYSRC) filter designer conv - Convolution and polynomial multiplication of fi objects bj - Estimate Box-Jenkins polynomial model using time-domain data idPolynomial1D - Class representing single-variable polynomial nonlinear estimator for Hammerstein-Wiener models oe - Estimate output-error polynomial model using time-domain or frequency-domain data polyest - Estimate polynomial model using time- or frequency-domain data recursiveBJ - Create System object for online parameter estimation of Box-Jenkins polynomial model recursiveOE - Create System object for online parameter estimation of Output-Error polynomial model images.geotrans.PolynomialTransformation2D - 2-D polynomial geometric transformation map.geotiff.RPCCoefficientTag - Rational Polynomial Coefficients Tag bsplinepolytraj - Generate polynomial trajectories using B-splines cubicpolytraj - Generate third-order polynomial trajectories ac2poly - Convert autocorrelation sequence to prediction polynomial poly2ac - Convert prediction filter polynomial to autocorrelation sequence poly2rc - Convert prediction filter polynomial to reflection coefficients polyscale - Scale roots of polynomial polystab - Stabilize polynomial rc2poly - Convert reflection coefficients to prediction filter polynomial polyconf - Polynomial confidence intervals polytool - Interactive polynomial fitting bernstein - Bernstein polynomials gcd - GCD of numbers and polynomials fitPolynomialRANSAC - Fit polynomial to points using RANSAC filters2lp - Filters to Laurent polynomials imlpt - Inverse multiscale local 1-D polynomial transform mlpt - Multiscale local 1-D polynomial transform mlptdenoise - Denoise signal using multiscale local 1-D polynomial transform mlptrecon - Reconstruct signal using inverse multiscale local 1-D polynomial transform wave2lp - Laurent polynomials associated with wavelet comm.DPDCoefficientEstimator - Estimate memory-polynomial coefficients for digital predistortion dsp.FarrowRateConverter - Polynomial sample rate converter with arbitrary conversion factor dsphdl.FarrowRateConverter - Polynomial sample-rate converter LagOp - Create lag operator polynomial idpoly - Polynomial model with identifiable parameters polynomialRegressor - Specify polynomial regressor for nonlinear ARX model polynomialTrajectory - Piecewise-polynomial trajectory generator polynomialTrajectory - Piecewise-polynomial trajectory generator laurentPolynomial - Create Laurent polynomial dsp.FarrowRateConverter.getPolynomialCoefficients - Get polynomial coefficients of farrow rate conversion filter idgrey.polydata - Access polynomial coefficients and uncertainties of identified model idpoly.setPolyFormat - Specify format for B and F polynomials of multi-input polynomial model affinetform2d.outputLimits - Find output spatial limits given input spatial limits affinetform2d.transformPointsInverse - Apply inverse geometric transformation polynomialTrajectory.lookupPose - Obtain pose information for certain time polynomialTrajectory.waypointInfo - Get waypoint information table sym.bernoulli - Bernoulli numbers and polynomials sym.charpoly - Characteristic polynomial of matrix sym.chebyshevT - Chebyshev polynomials of the first kind sym.chebyshevU - Chebyshev polynomials of the second kind sym.coeffs - Coefficients of polynomial sym.euler - Euler numbers and polynomials sym.gegenbauerC - Gegenbauer polynomials sym.hermiteH - Hermite polynomials sym.horner - Horner nested polynomial representation sym.jacobiP - Jacobi polynomials sym.laguerreL - Generalized Laguerre Function and Laguerre Polynomials sym.legendreP - Legendre polynomials sym.minpoly - Minimal polynomial of matrix sym.poly2sym - Create symbolic polynomial from vector of coefficients sym.polynomialDegree - Degree of polynomial sym.polynomialReduce - Reduce polynomials by division sym.resultant - Resultant of two polynomials sym.root - Represent roots of polynomial sym.sym2poly - Extract vector of all numeric coefficients, including zeros, from symbolic polynomial polynomialTrajectory.lookupPose - Obtain pose information for certain time polynomialTrajectory.waypointInfo - Get waypoint information table laurentPolynomial.degree - Degree of Laurent polynomial laurentPolynomial.dyaddown - Dyadic downsampling of Laurent polynomial or Laurent matrix laurentPolynomial.dyadup - Dyadic upsampling of Laurent polynomial or Laurent matrix laurentPolynomial.eq - Laurent polynomials or Laurent matrices equality test laurentPolynomial.euclid - Euclidean algorithm for Laurent polynomials laurentPolynomial.horzcat - Horizontal concatenation of Laurent polynomials laurentPolynomial.lp2filters - Laurent polynomials to filters laurentPolynomial.lp2LS - Laurent polynomials to lifting steps and normalization factors laurentPolynomial.minus - Laurent polynomial or Laurent matrix subtraction laurentPolynomial.mpower - Laurent polynomial exponentiation laurentPolynomial.mtimes - Laurent polynomial or Laurent matrix multiplication laurentPolynomial.ne - Laurent polynomials inequality test laurentPolynomial.plus - Laurent polynomial or Laurent matrix addition laurentPolynomial.polyphase - Polyphase components of Laurent polynomial laurentPolynomial.reflect - Laurent polynomial or Laurent matrix reflection laurentPolynomial.rescale - Rescale Laurent polynomial laurentPolynomial.uminus - Unary minus for Laurent polynomial or Laurent matrix laurentPolynomial.vertcat - Vertical concatenation of Laurent polynomials LagOp.filter - Apply lag operator polynomial to filter time series LagOp.isEqLagOp - Determine if two LagOp objects are same mathematical polynomial LagOp.isStable - Determine stability of lag operator polynomial LagOp.minus - Lag operator polynomial subtraction LagOp.mldivide - Lag operator polynomial left division LagOp.mrdivide - Lag operator polynomial right division LagOp.mtimes - Lag operator polynomial multiplication LagOp.plus - Lag operator polynomial addition LagOp.reflect - Reflect lag operator polynomial coefficients around lag zero LagOp.toCellArray - Convert lag operator polynomial object to cell array comm.BCHDecoder.GeneratorPolynomialSource - Source of generator polynomial comm.BCHDecoder.GeneratorPolynomial - Generator polynomial comm.BCHDecoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.BCHDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.BCHDecoder.PrimitivePolynomial - Primitive polynomial comm.BCHEncoder.GeneratorPolynomialSource - Source of generator polynomial comm.BCHEncoder.GeneratorPolynomial - Generator polynomial comm.BCHEncoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.BCHEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.BCHEncoder.PrimitivePolynomial - Primitive polynomial comm.CRCDetector.Polynomial - Generator polynomial comm.CRCGenerator.Polynomial - Generator polynomial comm.Descrambler.Polynomial - Connections for linear feedback shift registers comm.DPD.PolynomialType - Polynomial type comm.DPD.Coefficients - Memory-polynomial coefficients comm.DPDCoefficientEstimator.PolynomialType - Polynomial type comm.DPDCoefficientEstimator.Degree - Memory-polynomial degree comm.DPDCoefficientEstimator.MemoryDepth - Memory-polynomial depth comm.GoldSequence.FirstPolynomial - Generator polynomial for first preferred PN sequence comm.GoldSequence.SecondPolynomial - Generator polynomial for second preferred PN sequence comm.HDLCRCDetector.Polynomial - Generator polynomial comm.HDLCRCGenerator.Polynomial - Generator polynomial comm.HDLRSDecoder.B - Starting power for roots of primitive polynomial comm.HDLRSDecoder.BSource - Source of starting power for roots of primitive polynomial comm.HDLRSDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.HDLRSDecoder.PrimitivePolynomial - Primitive polynomial comm.HDLRSEncoder.B - Starting power for roots of primitive polynomial comm.HDLRSEncoder.BSource - Source of starting power for roots of primitive polynomial comm.HDLRSEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.HDLRSEncoder.PrimitivePolynomial - Primitive polynomial comm.KasamiSequence.Polynomial - Generator polynomial comm.MemorylessNonlinearity.TOISpecification - Third-order nonlinearity specification for cubic polynomial comm.PNSequence.Polynomial - Generator polynomial comm.RSDecoder.GeneratorPolynomialSource - Source of generator polynomial comm.RSDecoder.GeneratorPolynomial - Generator polynomial comm.RSDecoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.RSDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.RSDecoder.PrimitivePolynomial - Primitive polynomial comm.RSEncoder.GeneratorPolynomialSource - Source of generator polynomial comm.RSEncoder.GeneratorPolynomial - Generator polynomial comm.RSEncoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.RSEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.RSEncoder.PrimitivePolynomial - Primitive polynomial comm.Scrambler.Polynomial - Connections for linear feedback shift registers zpk.DisplayFormat - Specifies how the numerator and denominator polynomials are factorized for display dsp.AllpassFilter.AllpassCoefficients - Allpass polynomial coefficients dsp.CoupledAllpassFilter.AllpassCoefficients1 - Allpass polynomial coefficients of branch 1 dsp.CoupledAllpassFilter.AllpassCoefficients2 - Allpass polynomial coefficients of branch 2 dsp.FarrowRateConverter.PolynomialOrder - Order of Lagrange-interpolation-filter polynomial dsp.FarrowRateConverter.Coefficients - Filter polynomial coefficients dsp.IIRHalfbandDecimator.AllpassCoefficients1 - Allpass polynomial filter coefficients of first branch dsp.IIRHalfbandDecimator.AllpassCoefficients2 - Allpass polynomial filter coefficients of second branch dsp.IIRHalfbandInterpolator.AllpassCoefficients1 - Allpass polynomial filter coefficients of first branch dsp.IIRHalfbandInterpolator.AllpassCoefficients2 - Allpass polynomial filter coefficients of second branch dsp.VariableFractionalDelay.ProductPolynomialValueDataType - Data type of the product polynomial value dsp.VariableFractionalDelay.CustomProductPolynomialValueDataType - Word and fraction lengths of product polynomial value dsp.VariableFractionalDelay.AccumulatorPolynomialValueDataType - Data type of the accumulator polynomial value dsp.VariableFractionalDelay.CustomAccumulatorPolynomialValueDataType - Word and fraction lengths of accumulator polynomial value dsp.VariableFractionalDelay.MultiplicandPolynomialValueDataType - Data type of multiplicand polynomial value dsp.VariableFractionalDelay.CustomMultiplicandPolynomialValueDataType - Word and fraction lengths of multiplicand polynomial value arima.P - Compound AR polynomial degree arima.Q - Compound MA polynomial degree arima.AR - Nonseasonal AR polynomial coefficients arima.SAR - Seasonal AR polynomial coefficients arima.MA - Nonseasonal MA polynomial coefficients arima.SMA - Seasonal MA polynomial coefficients arima.Seasonality - Degree of seasonal differencing polynomial conjugatebvarm.P - Multivariate autoregressive polynomial order diffusebvarm.P - Multivariate autoregressive polynomial order egarch.P - GARCH polynomial degree egarch.Q - Maximum degree of ARCH and leverage polynomials egarch.GARCH - GARCH polynomial coefficients egarch.ARCH - ARCH polynomial coefficients egarch.Leverage - Leverage polynomial coefficients empiricalbvarm.P - Multivariate autoregressive polynomial order garch.P - GARCH polynomial degree garch.Q - ARCH polynomial degree garch.GARCH - GARCH polynomial coefficients garch.ARCH - ARCH polynomial coefficients gjr.P - GARCH polynomial degree gjr.Q - Maximum degree of ARCH and leverage polynomials gjr.GARCH - GARCH polynomial coefficients gjr.ARCH - ARCH polynomial coefficients gjr.Leverage - Leverage polynomial coefficients LagOp.Coefficients - Lag operator polynomial coefficients LagOp.Degree - Polynomial degree p LagOp.Dimension - Polynomial dimension m LagOp.Lags - Polynomial lags associated with nonzero coefficients normalbvarm.P - Multivariate autoregressive polynomial order regARIMA.P - Compound AR polynomial degree regARIMA.Q - Compound MA polynomial degree regARIMA.AR - Nonseasonal AR polynomial coefficients ϕ regARIMA.MA - Nonseasonal MA polynomial coefficients θ regARIMA.SAR - Seasonal AR polynomial coefficients Φ regARIMA.SMA - Seasonal MA polynomial coefficients regARIMA.Seasonality - Degree of seasonal differencing polynomial semiconjugatebvarm.P - Multivariate autoregressive polynomial order varm.P - Multivariate autoregressive polynomial order idpoly.A - Values of polynomial coefficients idpoly.B - Values of polynomial coefficients idpoly.C - Values of polynomial coefficients idpoly.D - Values of polynomial coefficients idpoly.F - Values of polynomial coefficients idpoly.Variable - Polynomial model display variable idSupportVectorMachine.Polynomial Order - Polynomial kernel function order polynomialRegressor.Variables - Output and input variable names polynomialRegressor.Lags - Lags in each variable polynomialRegressor.UseAbsolute - Absolute value indicator polynomialRegressor.AllowVariableMix - Mixed variables indicator polynomialRegressor.AllowLagMix - Mixed lag indicator polynomialRegressor.TimeVariable - Name of time variable images.geotrans.PolynomialTransformation2D.A - Polynomial coefficients used to determine U in the inverse transformation images.geotrans.PolynomialTransformation2D.B - Polynomial coefficients used to determine V in the inverse transformation images.geotrans.PolynomialTransformation2D.Degree - Degree of polynomial transformation images.geotrans.PolynomialTransformation2D.Dimensionality - Dimensionality of geometric transformation map.geotiff.RPCCoefficientTag.LineNumeratorCoefficients - Coefficients for the polynomial in the numerator of the r(n) equation map.geotiff.RPCCoefficientTag.LineDenominatorCoefficients - Coefficients for the polynomial in the denominator of the r(n) equation map.geotiff.RPCCoefficientTag.SampleNumeratorCoefficients - Coefficients for the polynomial in the numerator of the c(n) equation map.geotiff.RPCCoefficientTag.SampleDenominatorCoefficients - Coefficients for the polynomial in the denominator of the c(n) equation pde.FEMesh.GeometricOrder - Element polynomial order phased.NonlinearFMWaveform.PolynomialCoefficients - Coefficients of polynomial frequency function polynomialTrajectory.SampleRate - Sample rate of trajectory (Hz) polynomialTrajectory.SamplesPerFrame - Number of samples per output frame polynomialTrajectory.Orientation - Orientation at each waypoint polynomialTrajectory.Waypoints - Positions in navigation coordinate system (m) polynomialTrajectory.TimeOfArrival - Timestamp at each waypoint (s) polynomialTrajectory.AutoPitch - Align pitch angle with direction of motion polynomialTrajectory.AutoBank - Align roll angle to counteract centripetal force polynomialTrajectory.ReferenceFrame - Reference frame of trajectory polynomialTrajectory.Velocities - Velocity in navigation coordinate system at each waypoint (m/s) polynomialTrajectory.Course - Horizontal direction of travel (degrees) polynomialTrajectory.GroundSpeed - Groundspeed at each waypoint (m/s) polynomialTrajectory.ClimbRate - Climb rate at each waypoint (m/s) dvbrcs2RecoveryConfig.ScramblingPolynomial - Scrambling polynomial dvbrcs2WaveformGenerator.ScramblingPolynomial - Scrambling polynomial polynomialTrajectory.SampleRate - Sample rate of trajectory (Hz) polynomialTrajectory.SamplesPerFrame - Number of samples per output frame polynomialTrajectory.Orientation - Orientation at each waypoint polynomialTrajectory.Waypoints - Positions in navigation coordinate system (m) polynomialTrajectory.TimeOfArrival - Timestamp at each waypoint (s) polynomialTrajectory.AutoPitch - Align pitch angle with direction of motion polynomialTrajectory.AutoBank - Align roll angle to counteract centripetal force polynomialTrajectory.ReferenceFrame - Reference frame of trajectory polynomialTrajectory.Velocities - Velocity in navigation coordinate system at each waypoint (m/s) polynomialTrajectory.Course - Horizontal direction of travel (degrees) polynomialTrajectory.GroundSpeed - Groundspeed at each waypoint (m/s) polynomialTrajectory.ClimbRate - Climb rate at each waypoint (m/s) fisheyeIntrinsics.MappingCoefficients - Polynomial coefficients for projection function laurentPolynomial.Coefficients - Laurent polynomial coefficients laurentPolynomial.MaxOrder - Maximum order DPD Coefficient Estimator - Estimate memory-polynomial coefficients for digital predistortion General CRC Generator - Generate CRC code bits according to generator polynomial and append to input data frames General CRC Syndrome Detector - Detect errors in received codeword frames according to generator polynomial Farrow Rate Converter - Polynomial sample-rate converter with arbitrary conversion factor Least Squares Polynomial Fit - Compute polynomial coefficients that best fit input data in least-squares sense Polynomial Evaluation - Evaluate polynomial expression Polynomial Stability Test - Use Schur-Cohn algorithm to determine whether all roots of input polynomial are inside unit circle Farrow Rate Converter - Polynomial sample-rate converter Model Type Converter - Convert polynomial model coefficients to state-space model matrices Recursive Polynomial Model Estimator - Estimate input-output and time-series polynomial model coefficients Minimum Jerk Polynomial Trajectory - Generate minimum jerk polynomial trajectories through multiple waypoints Minimum Snap Polynomial Trajectory - Generate minimum snap polynomial trajectories through multiple waypoints Polynomial Trajectory - Generate polynomial trajectories through waypoints RST Controller - Predictive control using a polynomial representation Minimum Jerk Polynomial Trajectory - Generate minimum jerk polynomial trajectories through multiple waypoints Minimum Snap Polynomial Trajectory - Generate minimum snap polynomial trajectories through multiple waypoints Nonlinear Rotational Spring - Torsional spring based on polynomial or table lookup parameterizations Nonlinear Translational Spring - Translational spring based on polynomial or table lookup parameterizations PCCCS - Polynomial current-controlled current source PCCCS2 - Polynomial current-controlled current source with two controlling inputs PCCVS - Polynomial current-controlled voltage source PCCVS2 - Polynomial current-controlled voltage source with two controlling inputs PVCCS - Polynomial voltage-controlled current source PVCCS2 - Polynomial voltage-controlled current source with two controlling inputs PVCVS - Polynomial voltage-controlled voltage source PVCVS2 - Polynomial voltage-controlled voltage source with two controlling inputs laurpoly - (To be removed) Laurent polynomials constructor

polyfit - Polynomial curve fitting fittype - Fit type for curve and surface fitting prepareCurveData - Prepare data inputs for curve fitting prepareSurfaceData - Prepare data inputs for surface fitting fitnet - Function fitting neural network nftool - Open Neural Net Fitting app lsqcurvefit - Solve nonlinear curve-fitting (data-fitting) problems in least-squares sense lsqnonlin - Solve nonlinear least-squares (nonlinear data-fitting) problems polytool - Interactive polynomial fitting IRFitOptions - Construct specific options for fitting interest-rate curve object rfckt.rational - Perform rational fitting to complex frequency-dependent data groupedData - Table-like collection of data and metadata for fitting in SimBiology ldaModel.resume - Resume fitting LDA model Neural Net Fitting - Solve fitting problem using two-layer feed-forward networks IRFitOptions.FitType - Minimize by in curve fitting process rctoptions.dksyn.AutoScalingOrder - State order for fitting scaling data for mixed mu-synthesis fitproblem.Doses - Doses applied during fitting fitproblem.Variants - Variants applied during fitting fitproblem.Weights - Weights used during fitting NLINResults.Data - Data used for fitting NLMEResults.Data - Data used for fitting OptimResults.Data - Data used for fitting SimBiology.fit.ConfidenceInterval.GroupNames - Original group names from data used for fitting SimBiology.fit.LeastSquaresResults.Data - Data used for fitting SimBiology.fit.ParameterConfidenceInterval.GroupNames - Original group names from data used for fitting SimBiology.fit.PredictionConfidenceInterval.GroupNames - Original group names from data used for fitting ClassificationECOC.RowsUsed - Rows used in fitting ClassificationGAM.RowsUsed - Rows used in fitting ClassificationKNN.RowsUsed - Rows used in fitting CoxModel.VariableInfo - Information about fitting data FeatureSelectionNCAClassification.FitMethod - Name of fitting method FeatureSelectionNCARegression.FitMethod - Name of the fitting method used to fit this model GeneralizedLinearModel.Steps - Stepwise fitting information LinearModel.Steps - Stepwise fitting information NonLinearModel.Iterative - Information about fitting process prob.BetaDistribution.InputData - Data used for distribution fitting prob.BinomialDistribution.InputData - Data used for distribution fitting prob.BirnbaumSaundersDistribution.InputData - Data used for distribution fitting prob.BurrDistribution.InputData - Data used for distribution fitting prob.ExponentialDistribution.InputData - Data used for distribution fitting prob.ExtremeValueDistribution.InputData - Data used for distribution fitting prob.GammaDistribution.InputData - Data used for distribution fitting prob.GeneralizedExtremeValueDistribution.InputData - Data used for distribution fitting prob.GeneralizedParetoDistribution.InputData - Data used for distribution fitting prob.HalfNormalDistribution.InputData - Data used for distribution fitting prob.InverseGaussianDistribution.InputData - Data used for distribution fitting prob.KernelDistribution.InputData - Data used for distribution fitting prob.LogisticDistribution.InputData - Data used for distribution fitting prob.LoglogisticDistribution.InputData - Data used for distribution fitting prob.LognormalDistribution.InputData - Data used for distribution fitting prob.NakagamiDistribution.InputData - Data used for distribution fitting prob.NegativeBinomialDistribution.InputData - Data used for distribution fitting prob.NormalDistribution.InputData - Data used for distribution fitting prob.PoissonDistribution.InputData - Data used for distribution fitting prob.RayleighDistribution.InputData - Data used for distribution fitting prob.RicianDistribution.InputData - Data used for distribution fitting prob.StableDistribution.InputData - Data used for distribution fitting prob.tLocationScaleDistribution.InputData - Data used for distribution fitting prob.WeibullDistribution.InputData - Data used for distribution fitting ReconstructionICA.FitInfo - Fitting history RegressionGAM.RowsUsed - Rows used in fitting SparseFiltering.FitInfo - Fitting history ldaModel.FitInfo - Information recorded when fitting LDA model Root WSF DOA - Root weighted subspace fitting (WSF) direction of arrival (DOA) estimator for ULA sftool - (Removed) Open Curve Fitting app

conv - Convolution and polynomial multiplication deconv - Least-squares deconvolution and polynomial division detrend - Remove polynomial trend mkpp - Make piecewise polynomial pchip - Piecewise Cubic Hermite Interpolating Polynomial (PCHIP) poly - Polynomial with specified roots or characteristic polynomial polyder - Polynomial differentiation polyeig - Polynomial eigenvalue problem polyfit - Polynomial curve fitting polyint - Polynomial integration polyval - Polynomial evaluation polyvalm - Matrix polynomial evaluation ppval - Evaluate piecewise polynomial roots - Polynomial roots unmkpp - Extract piecewise polynomial details Find and Remove Trends - Find and remove polynomial or periodic trends from data in the Live Editor Polynomial - Perform evaluation of polynomial coefficients on input values mssgolay - Smooth signal with peaks using least-squares polynomial bchgenpoly - Produce generator polynomials for BCH code cyclpoly - Produce generator polynomials for binary cyclic code gfadd - Add polynomials over Galois field gfconv - Multiply polynomials over Galois field gfdeconv - Divide polynomials over Galois field gffilter (prime Galois field) - Filter data using polynomials over prime Galois field gfminpol - Find minimal polynomial of Galois field element gfpretty - Polynomial in traditional format gfprimck - Check whether polynomial over Galois field is primitive gfprimdf - Provide default primitive polynomials for Galois field gfprimfd - Find primitive polynomials for Galois field gfrepcov - Convert one binary polynomial representation to another gfroots - Find roots of polynomial over prime Galois field gfsub - Subtract polynomials over Galois field gftrunc - Minimize length of polynomial representation isprimitive - True for primitive polynomial for Galois field minpol - Find minimal polynomial of Galois field element poly2trellis - Convert convolutional code polynomials to trellis description primpoly - Find primitive polynomials for Galois field rsgenpoly - Generator polynomial of Reed-Solomon code rsgenpolycoeffs - Generator polynomial coefficients of Reed-Solomon code polyBasis - Polynomial basis functions for tunable gain surface bspline - Plot B-spline and its polynomial pieces fdesign.polysrc - Construct polynomial sample-rate converter (POLYSRC) filter designer conv - Convolution and polynomial multiplication of fi objects bj - Estimate Box-Jenkins polynomial model using time-domain data idPolynomial1D - Class representing single-variable polynomial nonlinear estimator for Hammerstein-Wiener models oe - Estimate output-error polynomial model using time-domain or frequency-domain data polyest - Estimate polynomial model using time- or frequency-domain data recursiveBJ - Create System object for online parameter estimation of Box-Jenkins polynomial model recursiveOE - Create System object for online parameter estimation of Output-Error polynomial model images.geotrans.PolynomialTransformation2D - 2-D polynomial geometric transformation map.geotiff.RPCCoefficientTag - Rational Polynomial Coefficients Tag bsplinepolytraj - Generate polynomial trajectories using B-splines cubicpolytraj - Generate third-order polynomial trajectories ac2poly - Convert autocorrelation sequence to prediction polynomial poly2ac - Convert prediction filter polynomial to autocorrelation sequence poly2rc - Convert prediction filter polynomial to reflection coefficients polyscale - Scale roots of polynomial polystab - Stabilize polynomial rc2poly - Convert reflection coefficients to prediction filter polynomial polyconf - Polynomial confidence intervals polytool - Interactive polynomial fitting bernstein - Bernstein polynomials gcd - GCD of numbers and polynomials fitPolynomialRANSAC - Fit polynomial to points using RANSAC filters2lp - Filters to Laurent polynomials imlpt - Inverse multiscale local 1-D polynomial transform mlpt - Multiscale local 1-D polynomial transform mlptdenoise - Denoise signal using multiscale local 1-D polynomial transform mlptrecon - Reconstruct signal using inverse multiscale local 1-D polynomial transform wave2lp - Laurent polynomials associated with wavelet comm.DPDCoefficientEstimator - Estimate memory-polynomial coefficients for digital predistortion dsp.FarrowRateConverter - Polynomial sample rate converter with arbitrary conversion factor dsphdl.FarrowRateConverter - Polynomial sample-rate converter LagOp - Create lag operator polynomial idpoly - Polynomial model with identifiable parameters polynomialRegressor - Specify polynomial regressor for nonlinear ARX model polynomialTrajectory - Piecewise-polynomial trajectory generator polynomialTrajectory - Piecewise-polynomial trajectory generator laurentPolynomial - Create Laurent polynomial dsp.FarrowRateConverter.getPolynomialCoefficients - Get polynomial coefficients of farrow rate conversion filter idgrey.polydata - Access polynomial coefficients and uncertainties of identified model idpoly.setPolyFormat - Specify format for B and F polynomials of multi-input polynomial model affinetform2d.outputLimits - Find output spatial limits given input spatial limits affinetform2d.transformPointsInverse - Apply inverse geometric transformation polynomialTrajectory.lookupPose - Obtain pose information for certain time polynomialTrajectory.waypointInfo - Get waypoint information table sym.bernoulli - Bernoulli numbers and polynomials sym.charpoly - Characteristic polynomial of matrix sym.chebyshevT - Chebyshev polynomials of the first kind sym.chebyshevU - Chebyshev polynomials of the second kind sym.coeffs - Coefficients of polynomial sym.euler - Euler numbers and polynomials sym.gegenbauerC - Gegenbauer polynomials sym.hermiteH - Hermite polynomials sym.horner - Horner nested polynomial representation sym.jacobiP - Jacobi polynomials sym.laguerreL - Generalized Laguerre Function and Laguerre Polynomials sym.legendreP - Legendre polynomials sym.minpoly - Minimal polynomial of matrix sym.poly2sym - Create symbolic polynomial from vector of coefficients sym.polynomialDegree - Degree of polynomial sym.polynomialReduce - Reduce polynomials by division sym.resultant - Resultant of two polynomials sym.root - Represent roots of polynomial sym.sym2poly - Extract vector of all numeric coefficients, including zeros, from symbolic polynomial polynomialTrajectory.lookupPose - Obtain pose information for certain time polynomialTrajectory.waypointInfo - Get waypoint information table laurentPolynomial.degree - Degree of Laurent polynomial laurentPolynomial.dyaddown - Dyadic downsampling of Laurent polynomial or Laurent matrix laurentPolynomial.dyadup - Dyadic upsampling of Laurent polynomial or Laurent matrix laurentPolynomial.eq - Laurent polynomials or Laurent matrices equality test laurentPolynomial.euclid - Euclidean algorithm for Laurent polynomials laurentPolynomial.horzcat - Horizontal concatenation of Laurent polynomials laurentPolynomial.lp2filters - Laurent polynomials to filters laurentPolynomial.lp2LS - Laurent polynomials to lifting steps and normalization factors laurentPolynomial.minus - Laurent polynomial or Laurent matrix subtraction laurentPolynomial.mpower - Laurent polynomial exponentiation laurentPolynomial.mtimes - Laurent polynomial or Laurent matrix multiplication laurentPolynomial.ne - Laurent polynomials inequality test laurentPolynomial.plus - Laurent polynomial or Laurent matrix addition laurentPolynomial.polyphase - Polyphase components of Laurent polynomial laurentPolynomial.reflect - Laurent polynomial or Laurent matrix reflection laurentPolynomial.rescale - Rescale Laurent polynomial laurentPolynomial.uminus - Unary minus for Laurent polynomial or Laurent matrix laurentPolynomial.vertcat - Vertical concatenation of Laurent polynomials LagOp.filter - Apply lag operator polynomial to filter time series LagOp.isEqLagOp - Determine if two LagOp objects are same mathematical polynomial LagOp.isStable - Determine stability of lag operator polynomial LagOp.minus - Lag operator polynomial subtraction LagOp.mldivide - Lag operator polynomial left division LagOp.mrdivide - Lag operator polynomial right division LagOp.mtimes - Lag operator polynomial multiplication LagOp.plus - Lag operator polynomial addition LagOp.reflect - Reflect lag operator polynomial coefficients around lag zero LagOp.toCellArray - Convert lag operator polynomial object to cell array comm.BCHDecoder.GeneratorPolynomialSource - Source of generator polynomial comm.BCHDecoder.GeneratorPolynomial - Generator polynomial comm.BCHDecoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.BCHDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.BCHDecoder.PrimitivePolynomial - Primitive polynomial comm.BCHEncoder.GeneratorPolynomialSource - Source of generator polynomial comm.BCHEncoder.GeneratorPolynomial - Generator polynomial comm.BCHEncoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.BCHEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.BCHEncoder.PrimitivePolynomial - Primitive polynomial comm.CRCDetector.Polynomial - Generator polynomial comm.CRCGenerator.Polynomial - Generator polynomial comm.Descrambler.Polynomial - Connections for linear feedback shift registers comm.DPD.PolynomialType - Polynomial type comm.DPD.Coefficients - Memory-polynomial coefficients comm.DPDCoefficientEstimator.PolynomialType - Polynomial type comm.DPDCoefficientEstimator.Degree - Memory-polynomial degree comm.DPDCoefficientEstimator.MemoryDepth - Memory-polynomial depth comm.GoldSequence.FirstPolynomial - Generator polynomial for first preferred PN sequence comm.GoldSequence.SecondPolynomial - Generator polynomial for second preferred PN sequence comm.HDLCRCDetector.Polynomial - Generator polynomial comm.HDLCRCGenerator.Polynomial - Generator polynomial comm.HDLRSDecoder.B - Starting power for roots of primitive polynomial comm.HDLRSDecoder.BSource - Source of starting power for roots of primitive polynomial comm.HDLRSDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.HDLRSDecoder.PrimitivePolynomial - Primitive polynomial comm.HDLRSEncoder.B - Starting power for roots of primitive polynomial comm.HDLRSEncoder.BSource - Source of starting power for roots of primitive polynomial comm.HDLRSEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.HDLRSEncoder.PrimitivePolynomial - Primitive polynomial comm.KasamiSequence.Polynomial - Generator polynomial comm.MemorylessNonlinearity.TOISpecification - Third-order nonlinearity specification for cubic polynomial comm.PNSequence.Polynomial - Generator polynomial comm.RSDecoder.GeneratorPolynomialSource - Source of generator polynomial comm.RSDecoder.GeneratorPolynomial - Generator polynomial comm.RSDecoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.RSDecoder.PrimitivePolynomialSource - Source of primitive polynomial comm.RSDecoder.PrimitivePolynomial - Primitive polynomial comm.RSEncoder.GeneratorPolynomialSource - Source of generator polynomial comm.RSEncoder.GeneratorPolynomial - Generator polynomial comm.RSEncoder.CheckGeneratorPolynomial - Option to check generator polynomial comm.RSEncoder.PrimitivePolynomialSource - Source of primitive polynomial comm.RSEncoder.PrimitivePolynomial - Primitive polynomial comm.Scrambler.Polynomial - Connections for linear feedback shift registers zpk.DisplayFormat - Specifies how the numerator and denominator polynomials are factorized for display dsp.AllpassFilter.AllpassCoefficients - Allpass polynomial coefficients dsp.CoupledAllpassFilter.AllpassCoefficients1 - Allpass polynomial coefficients of branch 1 dsp.CoupledAllpassFilter.AllpassCoefficients2 - Allpass polynomial coefficients of branch 2 dsp.FarrowRateConverter.PolynomialOrder - Order of Lagrange-interpolation-filter polynomial dsp.FarrowRateConverter.Coefficients - Filter polynomial coefficients dsp.IIRHalfbandDecimator.AllpassCoefficients1 - Allpass polynomial filter coefficients of first branch dsp.IIRHalfbandDecimator.AllpassCoefficients2 - Allpass polynomial filter coefficients of second branch dsp.IIRHalfbandInterpolator.AllpassCoefficients1 - Allpass polynomial filter coefficients of first branch dsp.IIRHalfbandInterpolator.AllpassCoefficients2 - Allpass polynomial filter coefficients of second branch dsp.VariableFractionalDelay.ProductPolynomialValueDataType - Data type of the product polynomial value dsp.VariableFractionalDelay.CustomProductPolynomialValueDataType - Word and fraction lengths of product polynomial value dsp.VariableFractionalDelay.AccumulatorPolynomialValueDataType - Data type of the accumulator polynomial value dsp.VariableFractionalDelay.CustomAccumulatorPolynomialValueDataType - Word and fraction lengths of accumulator polynomial value dsp.VariableFractionalDelay.MultiplicandPolynomialValueDataType - Data type of multiplicand polynomial value dsp.VariableFractionalDelay.CustomMultiplicandPolynomialValueDataType - Word and fraction lengths of multiplicand polynomial value arima.P - Compound AR polynomial degree arima.Q - Compound MA polynomial degree arima.AR - Nonseasonal AR polynomial coefficients arima.SAR - Seasonal AR polynomial coefficients arima.MA - Nonseasonal MA polynomial coefficients arima.SMA - Seasonal MA polynomial coefficients arima.Seasonality - Degree of seasonal differencing polynomial conjugatebvarm.P - Multivariate autoregressive polynomial order diffusebvarm.P - Multivariate autoregressive polynomial order egarch.P - GARCH polynomial degree egarch.Q - Maximum degree of ARCH and leverage polynomials egarch.GARCH - GARCH polynomial coefficients egarch.ARCH - ARCH polynomial coefficients egarch.Leverage - Leverage polynomial coefficients empiricalbvarm.P - Multivariate autoregressive polynomial order garch.P - GARCH polynomial degree garch.Q - ARCH polynomial degree garch.GARCH - GARCH polynomial coefficients garch.ARCH - ARCH polynomial coefficients gjr.P - GARCH polynomial degree gjr.Q - Maximum degree of ARCH and leverage polynomials gjr.GARCH - GARCH polynomial coefficients gjr.ARCH - ARCH polynomial coefficients gjr.Leverage - Leverage polynomial coefficients LagOp.Coefficients - Lag operator polynomial coefficients LagOp.Degree - Polynomial degree p LagOp.Dimension - Polynomial dimension m LagOp.Lags - Polynomial lags associated with nonzero coefficients normalbvarm.P - Multivariate autoregressive polynomial order regARIMA.P - Compound AR polynomial degree regARIMA.Q - Compound MA polynomial degree regARIMA.AR - Nonseasonal AR polynomial coefficients ϕ regARIMA.MA - Nonseasonal MA polynomial coefficients θ regARIMA.SAR - Seasonal AR polynomial coefficients Φ regARIMA.SMA - Seasonal MA polynomial coefficients regARIMA.Seasonality - Degree of seasonal differencing polynomial semiconjugatebvarm.P - Multivariate autoregressive polynomial order varm.P - Multivariate autoregressive polynomial order idpoly.A - Values of polynomial coefficients idpoly.B - Values of polynomial coefficients idpoly.C - Values of polynomial coefficients idpoly.D - Values of polynomial coefficients idpoly.F - Values of polynomial coefficients idpoly.Variable - Polynomial model display variable idSupportVectorMachine.Polynomial Order - Polynomial kernel function order polynomialRegressor.Variables - Output and input variable names polynomialRegressor.Lags - Lags in each variable polynomialRegressor.UseAbsolute - Absolute value indicator polynomialRegressor.AllowVariableMix - Mixed variables indicator polynomialRegressor.AllowLagMix - Mixed lag indicator polynomialRegressor.TimeVariable - Name of time variable images.geotrans.PolynomialTransformation2D.A - Polynomial coefficients used to determine U in the inverse transformation images.geotrans.PolynomialTransformation2D.B - Polynomial coefficients used to determine V in the inverse transformation images.geotrans.PolynomialTransformation2D.Degree - Degree of polynomial transformation images.geotrans.PolynomialTransformation2D.Dimensionality - Dimensionality of geometric transformation map.geotiff.RPCCoefficientTag.LineNumeratorCoefficients - Coefficients for the polynomial in the numerator of the r(n) equation map.geotiff.RPCCoefficientTag.LineDenominatorCoefficients - Coefficients for the polynomial in the denominator of the r(n) equation map.geotiff.RPCCoefficientTag.SampleNumeratorCoefficients - Coefficients for the polynomial in the numerator of the c(n) equation map.geotiff.RPCCoefficientTag.SampleDenominatorCoefficients - Coefficients for the polynomial in the denominator of the c(n) equation pde.FEMesh.GeometricOrder - Element polynomial order phased.NonlinearFMWaveform.PolynomialCoefficients - Coefficients of polynomial frequency function polynomialTrajectory.SampleRate - Sample rate of trajectory (Hz) polynomialTrajectory.SamplesPerFrame - Number of samples per output frame polynomialTrajectory.Orientation - Orientation at each waypoint polynomialTrajectory.Waypoints - Positions in navigation coordinate system (m) polynomialTrajectory.TimeOfArrival - Timestamp at each waypoint (s) polynomialTrajectory.AutoPitch - Align pitch angle with direction of motion polynomialTrajectory.AutoBank - Align roll angle to counteract centripetal force polynomialTrajectory.ReferenceFrame - Reference frame of trajectory polynomialTrajectory.Velocities - Velocity in navigation coordinate system at each waypoint (m/s) polynomialTrajectory.Course - Horizontal direction of travel (degrees) polynomialTrajectory.GroundSpeed - Groundspeed at each waypoint (m/s) polynomialTrajectory.ClimbRate - Climb rate at each waypoint (m/s) dvbrcs2RecoveryConfig.ScramblingPolynomial - Scrambling polynomial dvbrcs2WaveformGenerator.ScramblingPolynomial - Scrambling polynomial polynomialTrajectory.SampleRate - Sample rate of trajectory (Hz) polynomialTrajectory.SamplesPerFrame - Number of samples per output frame polynomialTrajectory.Orientation - Orientation at each waypoint polynomialTrajectory.Waypoints - Positions in navigation coordinate system (m) polynomialTrajectory.TimeOfArrival - Timestamp at each waypoint (s) polynomialTrajectory.AutoPitch - Align pitch angle with direction of motion polynomialTrajectory.AutoBank - Align roll angle to counteract centripetal force polynomialTrajectory.ReferenceFrame - Reference frame of trajectory polynomialTrajectory.Velocities - Velocity in navigation coordinate system at each waypoint (m/s) polynomialTrajectory.Course - Horizontal direction of travel (degrees) polynomialTrajectory.GroundSpeed - Groundspeed at each waypoint (m/s) polynomialTrajectory.ClimbRate - Climb rate at each waypoint (m/s) fisheyeIntrinsics.MappingCoefficients - Polynomial coefficients for projection function laurentPolynomial.Coefficients - Laurent polynomial coefficients laurentPolynomial.MaxOrder - Maximum order DPD Coefficient Estimator - Estimate memory-polynomial coefficients for digital predistortion General CRC Generator - Generate CRC code bits according to generator polynomial and append to input data frames General CRC Syndrome Detector - Detect errors in received codeword frames according to generator polynomial Farrow Rate Converter - Polynomial sample-rate converter with arbitrary conversion factor Least Squares Polynomial Fit - Compute polynomial coefficients that best fit input data in least-squares sense Polynomial Evaluation - Evaluate polynomial expression Polynomial Stability Test - Use Schur-Cohn algorithm to determine whether all roots of input polynomial are inside unit circle Farrow Rate Converter - Polynomial sample-rate converter Model Type Converter - Convert polynomial model coefficients to state-space model matrices Recursive Polynomial Model Estimator - Estimate input-output and time-series polynomial model coefficients Minimum Jerk Polynomial Trajectory - Generate minimum jerk polynomial trajectories through multiple waypoints Minimum Snap Polynomial Trajectory - Generate minimum snap polynomial trajectories through multiple waypoints Polynomial Trajectory - Generate polynomial trajectories through waypoints RST Controller - Predictive control using a polynomial representation Minimum Jerk Polynomial Trajectory - Generate minimum jerk polynomial trajectories through multiple waypoints Minimum Snap Polynomial Trajectory - Generate minimum snap polynomial trajectories through multiple waypoints Nonlinear Rotational Spring - Torsional spring based on polynomial or table lookup parameterizations Nonlinear Translational Spring - Translational spring based on polynomial or table lookup parameterizations PCCCS - Polynomial current-controlled current source PCCCS2 - Polynomial current-controlled current source with two controlling inputs PCCVS - Polynomial current-controlled voltage source PCCVS2 - Polynomial current-controlled voltage source with two controlling inputs PVCCS - Polynomial voltage-controlled current source PVCCS2 - Polynomial voltage-controlled current source with two controlling inputs PVCVS - Polynomial voltage-controlled voltage source PVCVS2 - Polynomial voltage-controlled voltage source with two controlling inputs laurpoly - (To be removed) Laurent polynomials constructor

POLYFIT Fit polynomial to data. P = POLYFIT(X,Y,N) finds the coefficients of a polynomial P(X) of degree N that fits the data Y best in a least-squares sense. P is a row vector of length N+1 containing the polynomial coefficients in descending powers, P(1)*X^N + P(2)*X^(N-1) +...+ P(N)*X + P(N+1). [P,S] = POLYFIT(X,Y,N) returns the polynomial coefficients P and a structure S for use with POLYVAL to obtain error estimates for predictions. S contains these fields: R - Triangular R factor (possibly permuted) from a QR decomposition of the Vandermonde matrix of X df - Degrees of freedom normr - Norm of the residuals If the data Y are random, an estimate of the covariance matrix of P is (Rinv*Rinv')*normr^2/df, where Rinv is the inverse of R. [P,S,MU] = POLYFIT(X,Y,N) finds the coefficients of a polynomial in XHAT = (X-MU(1))/MU(2) where MU(1) = MEAN(X) and MU(2) = STD(X). This centering and scaling transformation improves the numerical properties of both the polynomial and the fitting algorithm. Warning messages result if N is >= length(X), if X has repeated, or nearly repeated, points, or if X might need centering and scaling. Example: simple linear regression with polyfit % Fit a polynomial p of degree 1 to the (x,y) data: x = 1:50; y = -0.3*x + 2*randn(1,50); p = polyfit(x,y,1); % Evaluate the fitted polynomial p and plot: f = polyval(p,x); plot(x,y,'o',x,f,'-') legend('data','linear fit') Class support for inputs X,Y: float: double, single See also POLY, POLYVAL, ROOTS, LSCOV. Documentation for polyfit doc polyfit Other uses of polyfit codistributed/polyfit gpuArray/polyfit tall/polyfit