Add metrology mirror initialization. Change J-height of hexapods
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@ -28,3 +28,4 @@ octave-workspace
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Assemblage_grt_rtw/
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Figures/
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data/
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Videos/
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BIN
Assemblage.slx
BIN
Assemblage.slx
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@ -11,7 +11,7 @@ initializeSimConf(opts_sim);
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%% Initialize Inputs
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opts_inputs = struct(...
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'ground_motion', false, ...
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'rz', true ...
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'rz', false ...
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);
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initializeInputs(opts_inputs);
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@ -45,6 +45,9 @@ opts_nano_hexapod = struct('actuator', 'lorentz');
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initializeNanoHexapod(opts_nano_hexapod);
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%% Initialize the Mirror
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initializeMirror();
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%% Initialize Sample
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opts_sample = struct('mass', 20);
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@ -13,6 +13,7 @@ load('./mat/rz.mat', 'rz');
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load('./mat/micro_hexapod.mat', 'micro_hexapod');
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load('./mat/axisc.mat', 'axisc');
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load('./mat/nano_hexapod.mat', 'nano_hexapod');
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load('./mat/mirror.mat', 'mirror');
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load('./mat/sample.mat', 'sample');
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%% Load Signals Applied to the system
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@ -12,7 +12,7 @@ function [micro_hexapod] = initializeMicroHexapod(opts_param)
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%% Stewart Object
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micro_hexapod = struct();
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micro_hexapod.h = 350; % Total height of the platform [mm]
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micro_hexapod.jacobian = 435; % Point where the Jacobian is computed => Center of rotation [mm]
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micro_hexapod.jacobian = 265; % Point where the Jacobian is computed => Center of rotation [mm]
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%% Bottom Plate
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BP = struct();
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55
initialize/initializeMirror.m
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55
initialize/initializeMirror.m
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@ -0,0 +1,55 @@
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function [mirror] = initializeMirror(opts_param)
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%% Default values for opts
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opts = struct(...
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'shape', 'spherical', ... % spherical or conical
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'angle', 45 ...
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);
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%% Populate opts with input parameters
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if exist('opts_param','var')
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for opt = fieldnames(opts_param)'
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opts.(opt{1}) = opts_param.(opt{1});
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end
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end
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%%
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mirror = struct();
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mirror.h = 50; % height of the mirror [mm]
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mirror.thickness = 25; % Thickness of the plate supporting the sample [mm]
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mirror.hole_rad = 120; % radius of the hole in the mirror [mm]
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mirror.support_rad = 100; % radius of the support plate [mm]
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mirror.jacobian = 150; % point of interest offset in z (above the top surfave) [mm]
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mirror.rad = 180; % radius of the mirror (at the bottom surface) [mm]
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mirror.density = 2400; % Density of the mirror [kg/m3]
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mirror.cone_length = mirror.rad*tand(opts.angle)+mirror.h+mirror.jacobian; % Distance from Apex point of the cone to jacobian point
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%% Shape
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mirror.shape = [...
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0 mirror.h-mirror.thickness
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mirror.hole_rad mirror.h-mirror.thickness; ...
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mirror.hole_rad 0; ...
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mirror.rad 0 ...
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];
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if strcmp(opts.shape, 'spherical')
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mirror.sphere_radius = sqrt((mirror.jacobian+mirror.h)^2+mirror.rad^2); % Radius of the sphere [mm]
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for z = linspace(0, mirror.h, 101)
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mirror.shape = [mirror.shape; sqrt(mirror.sphere_radius^2-(z-mirror.jacobian-mirror.h)^2) z];
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end
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elseif strcmp(opts.shape, 'conical')
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mirror.shape = [mirror.shape; mirror.rad+mirror.h/tand(opts.ang) mirror.h];
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else
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error('Shape should be either conical or spherical');
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end
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mirror.shape = [mirror.shape; 0 mirror.h];
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%%
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if nargout == 0
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save('./mat/mirror.mat', 'mirror')
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end
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end
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@ -11,8 +11,8 @@ function [nano_hexapod] = initializeNanoHexapod(opts_param)
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%% Stewart Object
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nano_hexapod = struct();
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nano_hexapod.h = 90; % Total height of the platform [mm]
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nano_hexapod.jacobian = 174.5; % Point where the Jacobian is computed => Center of rotation [mm]
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nano_hexapod.h = 90; % Total height of the platform [mm]
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nano_hexapod.jacobian = 175; % Point where the Jacobian is computed => Center of rotation [mm]
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%% Bottom Plate
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BP = struct();
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BIN
mat/mirror.mat
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BIN
mat/mirror.mat
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@ -3,5 +3,8 @@
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* Description of the files
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* List of things to do
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** TODO Apply some MIMO control
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** SOMEDAY Apply some MIMO control
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** TODO Create multiple folder inside the ~mat~ folder.
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** DONE Add the mirror instead of the interface piece
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CLOSED: [2018-07-11 Wed 15:42]
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- Be carefull abouth the height of the mirror so that the interested point is still the same.
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