< Master index Index for Objects/@iFunc >

Index for iFit/Objects/@iFunc

Matlab files in this directory:

 absb = abs(s) : absolute value of iFunc object
 acosb = acos(s) : computes the arc cosine of iFunc object
 acoshb = acosh(s) : computes the inverse hyperbolic cosine of iFunc object
 asinb = asin(s) : computes the arc sine of iFunc object
 asinhb = asinh(s) : computes the inverse hyperbolic sine of iFunc object
 atanb = atan(s) : computes the arc tangent of iFunc object
 atanhb = atanh(s) : computes the inverse hyperbolic tangent of iFunc object
 ceilb = ceil(s) : upper integer round of iFunc object
 cellstrret = cellstr(s) : convert iFunc into a cell of strings
 charret = char(s) : convert iFunc into character
 conjb = conj(s) : conjugate of iFunc object
 convc = conv(a,b) : computes the convolution of iFunc models
 convnc = convn(a,b) : computes the convolution of an iFunc object with a response function
 copyobjb = copyobj(s) : makes a copy of iFunc object
 cosb = cos(s) : computes the cosine of iFunc object
 coshb = cosh(s) : computes the hyperbolic cosine of iFunc object
 ctransposeb = ctranspose(s) : complex conjugate transpose of iFunc object
 del2b = del2(s) : computes the Discrete Laplacian of iFunc object
 dispdisp(s) : display iFunc object (details)
 displayd = display(s) : display iFunc object (from command line)
 docdoc(iFunc): iFunc web page documentation
 edits = edit(s) : edit an iFunc model with a window dialogue
 expb = exp(s) : exponential value of iFunc object
 feval[signal, model, axes, name] = feval(model, parameters, x,y, ...) evaluate a function
 fits[pars,criteria,message,output] = fits(model, data, pars, options, constraints, ...) : fit a model on a data set
 fixb = fix(s, parameters, ...) : sets parameter lock (fix) for further fit using the model 's'
 fliplrb = fliplr(s) : Flip object in left/right direction
 flipudb = flipud(s) : Flip object in up/down direction
 floorb = floor(s) : lower integer round of iFunc object
 fullb = full(s) : Convert iFunc object storage to full matrix
 get[...] = get(s, 'PropertyName', ...) : get iFunc object properties
 iFuncmodel = iFunc(...): create a fit model function
 imagb = imag(s) : imaginary part of iFunc object
 isemptyisempty(s) : true for empty iFunc object
 loadd = load(s, file): iFunc Model loader
 logb = log(s) : natural logarithm value of iFunc object
 log10b = log10(s) : base 10 logarithm value of iFunc object
 minusc = minus(a,b) : computes the difference of iFunc objects
 mlockb = mlock(s, parameters, ...) : sets parameter lock (fix) for further fit using the model 's'
 mpowerc = mpower(a,b) : computes the power of iFunc objects
 mrdividec = mrdivide(a,b) : computes the ratio of iFunc objects
 mtimesc = mtimes(a,b) : computes the multiplication of iFunc objects
 munlockb = munlock(s, parameters, ...) : free parameter lock (clear) for further fit using the model 's'
 ndimsd = ndims(s) : get the dimensionality of iFunc object
 normb = norm(s) : norm-2 of iFunc object
 notb = not(s) : computes the logical 'not' of iFunc object
 ploth = plot(model, parameters, axes, ...) plot a model
 plusc = plus(a,b) : computes the sum of iFunc objects
 powerc = power(a,b) : computes the power of iFunc objects
 rdividec = rdivide(a,b) : computes the ratio of iFunc objects
 realb = real(s) : real value of iFunc object
 roundb = round(s) : upper integer round of iFunc object
 savef = save(s, filename, format, options) : save iFunc object into various data formats
 saveasf = saveas(s, filename, format, options) : save iFunc object into various data formats
 set[s,...] = set(s, 'PropertyName', Propertyvalue, ...) : set iFunc properties
 signb = sign(s) : sign of iFunc object
 sinb = sin(s) : computes the sine of iFunc object
 sinhb = sinh(s) : computes the hyperbolic sine of iFunc object
 sparseb = sparse(s) : Convert iFunc object storage to sparse
 sqrtb = sqrt(s) : square root value of iFunc object
 subploth = subplot(s) : plot iFunc array as subplots
 subsasgnb = subsasgn(a,index,b) : iFunc indexed assignement
 subsrefb = subsref(a,s) : iFunc indexed references
 tanb = tan(s) : computes the tangent of iFunc object
 tanhb = tanh(s) : computes the hyperbolic tangent of iFunc object
 timesc = times(a,b) : computes the multiplication of iFunc objects
 transposeb = transpose(s) : non-conjugate transpose of iFunc object
 uminusb = uminus(s) : opposite value of iFunc object
 uplusb = uplus(s) : makes a copy of iFunc object
 xcorrc = xcorr(a,b) : computes the correlation of iFunc models
 xlimb = xlim(s, parameters, [min max], ...) : sets parameter bounds (min,max) for further fit using the model 's'

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