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Stewart Platform - Active Damping

Table of Contents

1 Inertial Control

1.1 Simscape Model

open('simulink/stewart_active_damping.slx')

1.2 Initialize the Stewart model

stewart = initializeFramesPositions('H', 90e-3, 'MO_B', 45e-3);
stewart = generateCubicConfiguration(stewart, 'Hc', 40e-3, 'FOc', 45e-3, 'FHa', 5e-3, 'MHb', 5e-3);
stewart = computeJointsPose(stewart);
stewart = initializeStrutDynamics(stewart, 'Ki', 1e6*ones(6,1), 'Ci', 1e2*ones(6,1));
stewart = computeJacobian(stewart);

1.3 Identification of the Dynamics

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

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

%% Input/Output definition
clear io; io_i = 1;
io(io_i) = linio([mdl, '/F'],   1, 'openinput');  io_i = io_i + 1;
io(io_i) = linio([mdl, '/WVB'], 1, 'openoutput'); io_i = io_i + 1;
io(io_i) = linio([mdl, '/Dm'],  1, 'openoutput'); io_i = io_i + 1;

%% Run the linearization
G = linearize(mdl, io, options);
G.InputName  = {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'};
G.OutputName = {'Vx', 'Vy', 'Vz', 'Wx', 'Wy', 'Wz', ...
                'D1', 'D2', 'D3', 'D4', 'D5', 'D6'};

1.4 Analysis

freqs = 2*pi*logspace(1, 4, 1000);

figure;
bode(G({'D1', 'D2', 'D3', 'D4', 'D5', 'D6'}, {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'}), freqs)

figure;
bode(stewart.J*G({'Vx', 'Vy', 'Vz', 'Wx', 'Wy', 'Wz'}, {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'}), freqs)
figure;
bode(G({'D1', 'D2', 'D3', 'D4', 'D5', 'D6'}, {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'}), stewart.J*G({'Vx', 'Vy', 'Vz', 'Wx', 'Wy', 'Wz'}, {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'}), freqs)

1.5 Conclusion

It is similar to use:

  • one 6dof inertial sensor and the Jacobian the have the velocity of each lim
  • 6 1dof inertial sensor in each top part of the limbs

Author: Dehaeze Thomas

Created: 2020-01-22 mer. 16:31