PURPOSE
s = zeros(s,N,M,P,...) : initialize an iData array
SYNOPSIS
function s = zeros(iData_in,varargin)
DESCRIPTION
CROSS-REFERENCE INFORMATION
This function calls:
- copyobj b = copyobj(s) : makes a copy of iData object
- end b = end(s,index,n) : end value for iData objects
- iData d = iData(a, ...) : iData class object constructor
- isempty isempty(s) : true for empty iData object
- reshape c = reshape(a) : reshape the object Signal
- size size(s) : get iData object size (number of elements)
- zeros s = zeros(s,N,M,P,...) : initialize an iData array
This function is called by:
- camproj s = camproj(a,dim) : projection/radial integration of iData objects elements
- cart2sph s = cart2sph(a,dim) : cartesian to polar/spherical representation of iData objects
- caxis c = caxis(s, h) : Use the 2D/3D data as the colormap (CData property) in current object.
- colormap h=colormap(objects, colormaps, ..., options): Produce surfaces from iData 2D objects with different colormaps
- conv c = conv(a,b) : computes the convolution of iData objects
- copyobj b = copyobj(s) : makes a copy of iData object
- cwt b = cwt(s,dim,scales,wname,'wname',...) : Continuous wavelet transform
- dog s= dog(dim,a) : split iData objects elements along dimension
- edit edit(s) : edit iData object Signal/Monitor
- fft c = fft(a) : computes the Discrete Fourier transform of iData objects
- fill FILL fill-in over missing data
- hist hist(a, axis1, axis2, ...) computes the accumulated histogram from event data sets
- image h = image(r,g,b, option) : Plot up to 3 images overlayed on the RGB channels
- interp [b...] = interp(s, ...) : interpolate iData object
- intersect [ai,bi] = intersect(a, b) : computes object intersection area and values
- isempty isempty(s) : true for empty iData object
- isfield b = isfield(s, field) : check existence of field/alias in iData objects
- isvector b = isvector(s) : True for vector iData object
- jacobian [b, j] = jacobian(a, new_axes, 'new_axes_labels'...) : computes the gradient (derivative) of iData objects
- kmeans [b,c] = kmeans(X, k) : k-means clustering of iData object
- linspace v = linspace(a,b,n) : creates a linearly spaced vector of objects
- logspace v = logspace(a,b,n) : creates a logarithmically spaced vector of objects
- max [m,id] = max(a,b, dim) : computes the maximum value of iData object(s)
- mean b = mean(s, dim) : mean value of iData object
- median b = median(s, dim) : median value of iData object
- meshgrid s = meshgrid(a) : transforms an iData object so that its axes are grids
- min [m,id] = min(a,b, dim) : computes the maximum value of iData object(s)
- mtimes c = mtimes(a,b) : computes the matrix product of iData objects
- ndims d = ndims(s) : get the dimensionality of iData object
- ones s = ones(s,N,M,P,...) : initialize an iData array
- pack b = pack(a) : compress iData storage to save memory
- peaks [half_width, center, amplitude, baseline] = peaks(s, dim, m) : peak position and width of iData
- reducevolume h = reducevolume(s, factor) : reduce an iData object size
- rotate s = rotate(a, theta) : computes the rotation of iData objects around the origin
- smooth Z = smooth(Y) : smooth iData objects
- sort s = sort(a,dim) : Sort iData objects axes in ascending or descending order
- unique s = unique(a,dim) : set unique iData objects axes with no repetitions
- zeros s = zeros(s,N,M,P,...) : initialize an iData array
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