function FDTD = InitFDTD(varargin) % function FDTD = InitFDTD(varargin) % % Inititalize the FDTD data-structure. % % optional field arguments for usage with openEMS: % NrTS: max. number of timesteps to simulate (e.g. default=1e9) % EndCriteria: end criteria, e.g. 1e-5, simulations stops if energy has % decayed by this value (<1e-4 is recommended, default=1e-5) % MaxTime: max. real time in seconds to simulate % OverSampling: nyquist oversampling of time domain dumps % CoordSystem: choose coordinate system (0 Cartesian, 1 Cylindrical) % TimeStep: force to use a given timestep (dangerous!) % TimeStepFactor: reduce the timestep by a given factor (>0 to <=1) % TimeStepMethod: 1 or 3 chose timestep method (1=CFL, 3=Rennigs (default)) % CellConstantMaterial: set to 1 to assume a material is constant inside % a cell (material probing in cell center) % % examples: % %default init with 1e9 max. timesteps and -50dB end-criteria % FDTD = InitFDTD(); % % %init with 1e6 max. timesteps and -60dB end-criteria % FDTD = InitFDTD('NrTS', 1e6, 'EndCriteria', 1e-6); % % %cylindrical FDTD simulation % FDTD = InitFDTD('CoordSystem', 1); % % See also InitCSX % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig (c) 2010-2013 % default values NrTS = 1e9; endCrit = 1e-5; % legacy support if ((nargin==1) && (isnumeric(varargin{1}))) NrTS = varargin{1}; warning('openEMS:InitFDTD',['Syntax for InitFDTD has changed, use: "InitFDTD(''NrTS'', ' num2str(NrTS) ')" instead! Legacy support enabled.']); elseif ((nargin>1) && (isnumeric(varargin{1})) && (isnumeric(varargin{2}))) NrTS = varargin{1}; endCrit = varargin{2}; varargin(1:2) = []; warning('openEMS:InitFDTD',['Syntax for InitFDTD has changed, use: "InitFDTD(''NrTS'', ' num2str(NrTS) ', ''EndCriteria'', ' num2str(endCrit) ')" instead! Legacy support enabled.']); end for n=1:numel(varargin)/2 if strcmpi(varargin{2*n-1},'CoordSystem')==1 FDTD.ATTRIBUTE.CylinderCoords=varargin{2*n}==1; elseif strcmpi(varargin{2*n-1},'NrTS')==1 NrTS=varargin{2*n}; elseif strcmpi(varargin{2*n-1},'EndCriteria')==1 endCrit=varargin{2*n}; else FDTD.ATTRIBUTE.(varargin{2*n-1})=varargin{2*n}; end end FDTD.ATTRIBUTE.NumberOfTimesteps=NrTS; FDTD.ATTRIBUTE.endCriteria=endCrit;