function h = plotFFdB(nf2ff,varargin) % h = plotFFdB(nf2ff,varargin) % % plot far field pattern in dBi % % input: % nf2ff: output of CalcNF2FF % % variable input: % 'freq_index': - use the given frequency index, see nf2ff.freq % - default is 1 % 'xaxis': - 'phi' (default) or 'theta' % 'param': - array positions of parametric plot % - if xaxis='phi', theta is parameter, and vice versa % - default is 1 % % example: % plotFFdB(nf2ff, 'freq_index', 2, ... % 'xaxis', 'phi', 'param', [1 46 91]) % % see examples/NF2FF/infDipol.m % % See also CalcNF2FF, plotFF3D, polarFF % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig, Stefan Mahr % defaults freq_index = 1; xaxis = 'phi'; param = 1; for n=1:2:numel(varargin) if (strcmp(varargin{n},'freq_index')==1); freq_index = varargin{n+1}; elseif (strcmp(varargin{n},'xaxis')==1); xaxis = varargin{n+1}; elseif (strcmp(varargin{n},'param')==1); param = varargin{n+1}; else warning('openEMS:plotFFdB',['unknown argument key: ''' varargin{n} '''']); end end D_log = nf2ff.E_norm{freq_index} / max(nf2ff.E_norm{freq_index}(:)); D_log = 20*log10(D_log) + 10*log10(nf2ff.Dmax(freq_index)); if (strcmp(xaxis,'theta')==1); xax = nf2ff.theta; yax = D_log(:,param); parval = nf2ff.phi(param); param = 'phi'; elseif (strcmp(xaxis,'phi')==1); xax = nf2ff.phi; yax = D_log(param,:); parval = nf2ff.theta(param); param = 'theta'; else error('openEMS:plotFFdB','unknown parameter to ''xaxis'''); end %figure h = plot( xax / pi * 180 , yax ); xlabel( sprintf('%s (deg)',xaxis )); ylabel( 'directivity (dBi)'); createlegend = @(d)sprintf('%s = %3.1f',param,d / pi * 180); legendtext = arrayfun(createlegend,parval,'UniformOutput',0); legend( legendtext ); title( sprintf('far field pattern @ f = %e Hz',nf2ff.freq(freq_index)) ); grid on; if (nargout == 0) clear h; end end