//function [w] = blackmannuttall (m, opt) //This function returns the filter coefficients of a Blackman-Nuttall window. //Calling Sequence //w = blackmannuttall (m) //w = blackmannuttall (m, opt) //Parameters //m: positive integer value //opt: string value, takes "periodic" or "symmetric" //w: output variable, vector of real numbers //Description. //This is an Octave function. //This function returns the filter coefficients of a Blackman-Nuttall window of length m supplied as input, to the output vector w. //The second parameter can take the values "periodic" or "symmetric", depending on which the corresponding form of window is returned. The default is symmetric. //Examples //blackmannuttall(5,"symmetric") //ans = // 0.0003628 // 0.2269824 // 1. // 0.2269824 // 0.0003628 function w = blackmannuttall (m, opt) funcprot(0); rhs= argn(2); if (rhs < 1 | rhs > 2) error("Wrong Number of input arguments"); end if (~ (isscalar (m) & (m == fix (m)) & (m > 0))) error ("blackmannuttall: M must be a positive integer"); end N = m - 1; if (rhs == 2) select (opt) case "periodic" N = m; case "symmetric" N = m-1; else error ("nuttallwin: window type must be either periodic or symmetric"); end end if (m == 1) w = 1; else a0 = 0.3635819; a1 = 0.4891775; a2 = 0.1365995; a3 = 0.0106411; // n = [-N/2:(m-1)/2]'; // w = a0 + a1.*cos(2.*%pi.*n./N) + a2.*cos(4.*%pi.*n./N) + a3.*cos(6.*%pi.*n./N); n=[0:m-1]' w = a0 - a1.*cos(2.*%pi.*n./N) + a2.*cos(4.*%pi.*n./N) - a3.*cos(6.*%pi.*n./N); end endfunction