--- a/filterbank/ufilterbank.m +++ b/filterbank/ufilterbank.m @@ -2,17 +2,18 @@ %UFILTERBANK Apply Uniform filterbank % Usage: c=ufilterbank(f,g,a); % -% UFILTERBANK(f,g,a) applies the filter given in g to the signal f. Each -% subband will be subsampled by a factor of _a (the hop-size). If f is a -% matrix, the transformation is applied to each column. +% `ufilterbank(f,g,a)` applies the filter given in *g* to the signal +% *f*. Each subband will be subsampled by a factor of *a* (the +% hop-size). If *f* is a matrix, the transformation is applied to each +% column. % -% The filters g must be a cell-array, where each entry in the cell +% The filters *g* must be a cell-array, where each entry in the cell % array corresponds to an FIR filter. % -% If f is a single vector, then the output will be a matrix, where each -% column is f filtered by the corresponding filter in g. If f is a -% matrix, the output will be 3-dimensional, and the third dimension -% will correspond to the columns of the input signal. +% If *f* is a single vector, then the output will be a matrix, where each +% column in *f* is filtered by the corresponding filter in *g*. If *f* is +% a matrix, the output will be 3-dimensional, and the third dimension will +% correspond to the columns of the input signal. % % See also: ifilterbank, filterbankdual % @@ -38,6 +39,3 @@ end; c=comp_ufilterbank_fft(f,gw,a); - - -%OLDFORMAT