allometric | y = allometric(p, x, [y]) : Power/Freundlich/Belehradek function |
allometric | y = allometric(p, x, [y]) : Power/Freundlich/Belehradek function |
bigauss | y = bigauss(p, x, [y]) : Bi-Gaussian |
bigauss | y = bigauss(p, x, [y]) : Bi-Gaussian |
bilorz | y = bilorz(p, x, [y]) : Bi-Lorentzian |
bilorz | y = bilorz(p, x, [y]) : Bi-Lorentzian |
bose | y = bose(p, x, [y]) : Bose |
bose | y = bose(p, x, [y]) : Bose |
constant | y = constant(p) : Constant |
constant | y = constant(p) : Constant |
dho | y = dho(p, x, [y]) : Damped harmonic oscillator |
dho | y = dho(p, x, [y]) : Damped harmonic oscillator |
dirac | y = dirac(p, x, [y]) : Dirac |
dirac | y = dirac(p, x, [y]) : Dirac |
doseresp | y = doseresp(p, x, [y]) : Dose-response curve with variable Hill slope |
doseresp | y = doseresp(p, x, [y]) : Dose-response curve with variable Hill slope |
expon | y = expon(p, x, [y]) : Exponential decay |
expon | y = expon(p, x, [y]) : Exponential decay |
expstretched | y = expstretched(p, x, [y]) : Exponential decay |
expstretched | y = expstretched(p, x, [y]) : Exponential decay |
fconv | FCONV Fast Convolution/Correlation |
fconv | FCONV Fast Convolution/Correlation |
fconvn | FCONVN Fast Convolution with nomalization and centering of the filter. |
fconvn | FCONVN Fast Convolution with nomalization and centering of the filter. |
fsinc | s=sinc(x) |
fsinc | s=sinc(x) |
fxcorr | FXCORR Correlation |
fxcorr | FXCORR Correlation |
gauss | y = gauss(p, x, [y]) : Gaussian |
gauss | y = gauss(p, x, [y]) : Gaussian |
gauss1 | y = gauss1(p, x, [y]) : Gaussian without background |
gauss1 | y = gauss1(p, x, [y]) : Gaussian without background |
gauss2d | signal = gauss2d(p, x, y, {signal}) : 2D Gaussian function |
gauss2d | signal = gauss2d(p, x, y, {signal}) : 2D Gaussian function |
green | y = green(p, x, [y]) : Green function |
green | y = green(p, x, [y]) : Green function |
heaviside | y = heaviside(p, x, [y]) : Heaviside step function |
heaviside | y = heaviside(p, x, [y]) : Heaviside step function |
langevin | y = langevin(p, x, [y]) : Langevin function for magnetic polarization |
langevin | y = langevin(p, x, [y]) : Langevin function for magnetic polarization |
laplace | y = laplace(p, x, [y]) : Laplace distribution function. |
laplace | y = laplace(p, x, [y]) : Laplace distribution function. |
lognormal | y = lognormal(p, x, [y]) : Log-Normal distribution function. |
lognormal | y = lognormal(p, x, [y]) : Log-Normal distribution function. |
lorz | y = lorz(p, x, [y]) : Lorentzian |
lorz | y = lorz(p, x, [y]) : Lorentzian |
lorz1 | y = lorz1(p, x, [y]) : Lorentzian without background |
lorz1 | y = lorz1(p, x, [y]) : Lorentzian without background |
lorz2d | signal = lorz2d(p, x, y, {signal}) : 2D Lorenztian function |
lorz2d | signal = lorz2d(p, x, y, {signal}) : 2D Lorenztian function |
maxwell | y = Maxwell(p, x, [y]) : Maxwellian |
maxwell | y = Maxwell(p, x, [y]) : Maxwellian |
pareto | y = pareto(p, x, [y]) : Pareto distribution function. |
pareto | y = pareto(p, x, [y]) : Pareto distribution function. |
plane2d | signal = plane2d(p, x, y, {signal}) : Planar function |
plane2d | signal = plane2d(p, x, y, {signal}) : Planar function |
poisson | y = poisson(p, x, [y]) : Poisson distribution function. |
poisson | y = poisson(p, x, [y]) : Poisson distribution function. |
powerlaw | y = powerlaw(p, x, [y]) : power law model |
powerlaw | y = powerlaw(p, x, [y]) : power law model |
pseudovoigt | y = pseudovoigt(p, x, [y]) : Pseudo Voigt |
pseudovoigt | y = pseudovoigt(p, x, [y]) : Pseudo Voigt |
pseudovoigt2d | signal = pseudovoigt2d(p, x, y, {signal}) : 2D Pseudo Voigt function |
pseudovoigt2d | signal = pseudovoigt2d(p, x, y, {signal}) : 2D Pseudo Voigt function |
quad2d | signal = quad2d(p, x, y, {signal}) : 2D Quadratic function |
quad2d | signal = quad2d(p, x, y, {signal}) : 2D Quadratic function |
quadline | y = quadline(p, x, [y]) : Quadratic line |
quadline | y = quadline(p, x, [y]) : Quadratic line |
sigmoid | y = sigmoid(p, x, [y]) : Sigmoidal |
sigmoid | y = sigmoid(p, x, [y]) : Sigmoidal |
sine | y = sine(p, x, [y]) : Sine function. |
sine | y = sine(p, x, [y]) : Sine function. |
sinedamp | y = sinedamp(p, x, [y]) : Sine function. |
sinedamp | y = sinedamp(p, x, [y]) : Sine function. |
strline | y = strline(p, x, [y]) : Straight line |
strline | y = strline(p, x, [y]) : Straight line |
tophat | y = tophat(p, x, [y]) : Top-Hat rectangular function |
tophat | y = tophat(p, x, [y]) : Top-Hat rectangular function |
triangl | y = triangl(p, x, [y]) : Triangular |
triangl | y = triangl(p, x, [y]) : Triangular |
twoexp | signal = twoexp(p, x, {signal}) : two exponential decay functions |
twoexp | signal = twoexp(p, x, {signal}) : two exponential decay functions |
voigt | y = voigt(p, x, [y]) : Voigt function |
voigt | y = voigt(p, x, [y]) : Voigt function |