%% Open Simulink file
open rotating_frame.slx

%% Options for Linearized
options = linearizeOptions;
options.SampleTime = 0;

%% Name of the Simulink File
mdl = 'rotating_frame';

%% Input/Output definition
io(1) = linio([mdl, '/fx'], 1, 'input');
io(2) = linio([mdl, '/fy'], 1, 'input');

io(3) = linio([mdl, '/dx'], 1, 'output');
io(4) = linio([mdl, '/dy'], 1, 'output');

%% Run the linearization
angle_e = 0; rot_speed = 0;
G = linearize(mdl, io, 0);

%% Input/Output names
G.InputName  = {'Fx', 'Fy'};
G.OutputName = {'Dx', 'Dy'};

%% Run the linearization
angle_e = 0; rot_speed = 2*pi;
Gr = linearize(mdl, io, 0);

%% Input/Output names
Gr.InputName  = {'Fx', 'Fy'};
Gr.OutputName = {'Dx', 'Dy'};


%% Run the linearization
angle_e = 1*2*pi/180; rot_speed = 2*pi;
Ge = linearize(mdl, io, 0);

%% Input/Output names
Ge.InputName  = {'Fx', 'Fy'};
Ge.OutputName = {'Dx', 'Dy'};

%%
f = figure('visible', 'off');
bode(G);
exportFig('G_x_y', 'wide-tall');
close(f);

figure;
bode(Ge);
% exportFig('G_x_y_e', 'normal-normal');