%% clear; close all; clc; %% Initialize simulation configuration opts_sim = struct(... 'Tsim', 2 ... ); initializeSimConf(opts_sim); %% Initialize Inputs load('./mat/sim_conf.mat', 'sim_conf') time_vector = 0:sim_conf.Ts:sim_conf.Tsim; % Translation Stage ty = 0*ones(length(time_vector), 1); % Tilt Stage ry = 2*pi*(3/360)*ones(length(time_vector), 1); % Spindle rz = 2*pi*1*(time_vector); % Micro Hexapod u_hexa = zeros(length(time_vector), 6); % Gravity Compensator system mass = zeros(length(time_vector), 2); opts_inputs = struct(... 'ty', ty, ... 'ry', ry, ... 'rz', rz, ... 'u_hexa', u_hexa, ... 'mass', mass ... ); initializeInputs(opts_inputs); %% Initialize SolidWorks Data initializeSolids(); %% Initialize Ground initializeGround(); %% Initialize Granite initializeGranite(); %% Initialize Translation stage initializeTy(); %% Initialize Tilt Stage initializeRy(); %% Initialize Spindle initializeRz(); %% Initialize Hexapod Symétrie initializeMicroHexapod(); %% Initialize Center of Gravity compensation initializeAxisc(); %% Initialize NASS initializeNanoHexapod(struct('actuator', 'piezo')); %% Initialize Sample initializeSample(struct('mass', 20));