Add functions to add platforms at .STEP files

2020-11-03 08:50:54 +01:00 · 2020-11-03 08:50:54 +01:00 · 32330b92f0
commit 32330b92f0
parent 58cd2026dc
23 changed files with 95501 additions and 99 deletions
--- a/docs/figs/comp_relative_motion_sensor_act_leg.pdf
+++ b/docs/figs/comp_relative_motion_sensor_act_leg.pdf
--- a/docs/figs/comp_relative_motion_sensor_act_leg.png
+++ b/docs/figs/comp_relative_motion_sensor_act_leg.png
--- a/docs/figs/comp_relative_motion_sensor_act_leg_encoder.pdf
+++ b/docs/figs/comp_relative_motion_sensor_act_leg_encoder.pdf
--- a/docs/figs/comp_relative_motion_sensor_act_leg_encoder.png
+++ b/docs/figs/comp_relative_motion_sensor_act_leg_encoder.png
--- a/docs/flexible-stewart-platform.html
+++ b/docs/flexible-stewart-platform.html
@ -3,7 +3,7 @@
 "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
 <html xmlns="http://www.w3.org/1999/xhtml" lang="en" xml:lang="en">
 <head>
-<!-- 2020-09-01 mar. 13:18 -->
+<!-- 2020-09-07 lun. 23:16 -->
 <meta http-equiv="Content-Type" content="text/html;charset=utf-8" />
 <title>Stewart Platform with Flexible Elements</title>
 <meta name="generator" content="Org mode" />
@ -28,48 +28,48 @@
 <ul>
 <li><a href="#orgbdb2a68">1. Simscape Model</a>
 <ul>
-<li><a href="#org1a0f3d5">1.1. Flexible APA</a></li>
+<li><a href="#org17a6e21">1.1. Flexible APA</a></li>
 <li><a href="#org3650a90">1.2. Flexible Joint</a></li>
-<li><a href="#org75c496c">1.3. Identification</a></li>
+<li><a href="#org1a49c82">1.3. Identification</a></li>
 <li><a href="#org52d500c">1.4. No Flexible Elements</a></li>
 <li><a href="#org6800cf5">1.5. Flexible joints</a></li>
-<li><a href="#org17a6e21">1.6. Flexible APA</a></li>
+<li><a href="#org896571b">1.6. Flexible APA</a></li>
 <li><a href="#org1609aa1">1.7. Flexible Joints and APA</a></li>
 <li><a href="#org238cd25">1.8. Save</a></li>
 <li><a href="#orge9b9e81">1.9. Direct Velocity Feedback</a></li>
 <li><a href="#org265a0a3">1.10. Integral Force Feedback</a></li>
 <li><a href="#org15aa3b2">1.11. Procedure to include flexible elements into Simscape</a></li>
-<li><a href="#org0b65066">1.12. Conclusion</a></li>
+<li><a href="#orgbddb83e">1.12. Conclusion</a></li>
 </ul>
 </li>
 <li><a href="#org90432f4">2. Control with flexible elements</a>
 <ul>
 <li><a href="#org1697b6a">2.1. Flexible APA and Flexible Joint</a></li>
-<li><a href="#org1a49c82">2.2. Identification</a></li>
+<li><a href="#orgeebd547">2.2. Identification</a></li>
 <li><a href="#org353e7e4">2.3. Decentralized Direct Velocity Feedback</a></li>
 <li><a href="#orgf84ea43">2.4. HAC</a></li>
 </ul>
 </li>
 <li><a href="#orge8b5f65">3. Flexible Joint Specifications</a>
 <ul>
-<li><a href="#orgfb150a0">3.1. Stewart Platform Initialization</a></li>
+<li><a href="#org36b0a8e">3.1. Stewart Platform Initialization</a></li>
 <li><a href="#orga01758c">3.2. Effect of the Bending Stiffness</a></li>
 <li><a href="#orga98637e">3.3. Effect of the Torsion Stiffness</a></li>
 <li><a href="#org4f5ee79">3.4. Effect of the Axial Stiffness</a></li>
 <li><a href="#org4a85ef8">3.5. Effect of the Radial (Shear) Stiffness</a></li>
-<li><a href="#orgd0fd2ec">3.6. Comparison of perfect joint and worst specified joint</a></li>
+<li><a href="#orgcb2d2af">3.6. Comparison of perfect joint and worst specified joint</a></li>
-<li><a href="#orgbddb83e">3.7. Conclusion</a></li>
+<li><a href="#orgbeb611a">3.7. Conclusion</a></li>
 </ul>
 </li>
 <li><a href="#org0017658">4. Flexible Joint Specifications with the APA300ML</a>
 <ul>
-<li><a href="#org96b5fde">4.1. Stewart Platform Initialization</a></li>
+<li><a href="#orgbd1d5a4">4.1. Stewart Platform Initialization</a></li>
-<li><a href="#orgcb2d2af">4.2. Comparison of perfect joint and worst specified joint</a></li>
+<li><a href="#org512c6e0">4.2. Comparison of perfect joint and worst specified joint</a></li>
 </ul>
 </li>
 <li><a href="#org649a6c9">5. Relative Motion Sensors</a>
 <ul>
-<li><a href="#org36b0a8e">5.1. Stewart Platform Initialization</a></li>
+<li><a href="#org9530a70">5.1. Stewart Platform Initialization</a></li>
 </ul>
 </li>
 </ul>
@ -80,8 +80,8 @@
 <h2 id="orgbdb2a68"><span class="section-number-2">1</span> Simscape Model</h2>
 <div class="outline-text-2" id="text-1">
 </div>
-<div id="outline-container-org1a0f3d5" class="outline-3">
+<div id="outline-container-org17a6e21" class="outline-3">
-<h3 id="org1a0f3d5"><span class="section-number-3">1.1</span> Flexible APA</h3>
+<h3 id="org17a6e21"><span class="section-number-3">1.1</span> Flexible APA</h3>
 <div class="outline-text-3" id="text-1-1">
 <div class="org-src-container">
 <pre class="src src-matlab">apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
@ -323,8 +323,8 @@
 </div>
 </div>
-<div id="outline-container-org75c496c" class="outline-3">
+<div id="outline-container-org1a49c82" class="outline-3">
-<h3 id="org75c496c"><span class="section-number-3">1.3</span> Identification</h3>
+<h3 id="org1a49c82"><span class="section-number-3">1.3</span> Identification</h3>
 <div class="outline-text-3" id="text-1-3">
 <p>
 And we identify the dynamics from force actuators to force sensors.
@ -433,8 +433,8 @@ Gj.OutputName = {'Dm1', 'Dm2', 'Dm3', 'Dm4', 'Dm5', 'Dm6', 'Fm1', 'Fm2', 'Fm3',
 </div>
 </div>
-<div id="outline-container-org17a6e21" class="outline-3">
+<div id="outline-container-org896571b" class="outline-3">
-<h3 id="org17a6e21"><span class="section-number-3">1.6</span> Flexible APA</h3>
+<h3 id="org896571b"><span class="section-number-3">1.6</span> Flexible APA</h3>
 <div class="outline-text-3" id="text-1-6">
 <div id="org774a034" class="figure">
@ -564,8 +564,8 @@ In order to model a flexible element with only few mass-spring-damper elements:
 </div>
 </div>
-<div id="outline-container-org0b65066" class="outline-3">
+<div id="outline-container-orgbddb83e" class="outline-3">
-<h3 id="org0b65066"><span class="section-number-3">1.12</span> Conclusion</h3>
+<h3 id="orgbddb83e"><span class="section-number-3">1.12</span> Conclusion</h3>
 <div class="outline-text-3" id="text-1-12">
 <div class="important">
 <p>
@ -621,8 +621,8 @@ references = initializeReferences(stewart);
 </div>
 </div>
-<div id="outline-container-org1a49c82" class="outline-3">
+<div id="outline-container-orgeebd547" class="outline-3">
-<h3 id="org1a49c82"><span class="section-number-3">2.2</span> Identification</h3>
+<h3 id="orgeebd547"><span class="section-number-3">2.2</span> Identification</h3>
 <div class="outline-text-3" id="text-2-2">
 <p>
 And we identify the dynamics from force actuators to force sensors.
@ -718,8 +718,8 @@ Kl = diag(1./diag(abs(freqresp(Gl, wc)))) * wc/s * 1/(1 + s/3/wc);
 <h2 id="orge8b5f65"><span class="section-number-2">3</span> Flexible Joint Specifications</h2>
 <div class="outline-text-2" id="text-3">
 </div>
-<div id="outline-container-orgfb150a0" class="outline-3">
+<div id="outline-container-org36b0a8e" class="outline-3">
-<h3 id="orgfb150a0"><span class="section-number-3">3.1</span> Stewart Platform Initialization</h3>
+<h3 id="org36b0a8e"><span class="section-number-3">3.1</span> Stewart Platform Initialization</h3>
 <div class="outline-text-3" id="text-3-1">
 <div class="org-src-container">
 <pre class="src src-matlab">stewart = initializeStewartPlatform();
@ -796,11 +796,11 @@ controller = initializeController('type', 'open-loop');
 </div>
 </div>
-<div id="outline-container-orgd0fd2ec" class="outline-3">
+<div id="outline-container-orgcb2d2af" class="outline-3">
-<h3 id="orgd0fd2ec"><span class="section-number-3">3.6</span> Comparison of perfect joint and worst specified joint</h3>
+<h3 id="orgcb2d2af"><span class="section-number-3">3.6</span> Comparison of perfect joint and worst specified joint</h3>
 </div>
-<div id="outline-container-orgbddb83e" class="outline-3">
+<div id="outline-container-orgbeb611a" class="outline-3">
-<h3 id="orgbddb83e"><span class="section-number-3">3.7</span> Conclusion</h3>
+<h3 id="orgbeb611a"><span class="section-number-3">3.7</span> Conclusion</h3>
 <div class="outline-text-3" id="text-3-7">
 <p>
 Qualitatively:
@ -889,8 +889,8 @@ Quantitatively:
 <h2 id="org0017658"><span class="section-number-2">4</span> Flexible Joint Specifications with the APA300ML</h2>
 <div class="outline-text-2" id="text-4">
 </div>
-<div id="outline-container-org96b5fde" class="outline-3">
+<div id="outline-container-orgbd1d5a4" class="outline-3">
-<h3 id="org96b5fde"><span class="section-number-3">4.1</span> Stewart Platform Initialization</h3>
+<h3 id="orgbd1d5a4"><span class="section-number-3">4.1</span> Stewart Platform Initialization</h3>
 <div class="outline-text-3" id="text-4-1">
 <div class="org-src-container">
 <pre class="src src-matlab">apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
@ -932,22 +932,17 @@ controller = initializeController('type', 'open-loop');
 </div>
 </div>
-<div id="outline-container-orgcb2d2af" class="outline-3">
+<div id="outline-container-org512c6e0" class="outline-3">
-<h3 id="orgcb2d2af"><span class="section-number-3">4.2</span> Comparison of perfect joint and worst specified joint</h3>
+<h3 id="org512c6e0"><span class="section-number-3">4.2</span> Comparison of perfect joint and worst specified joint</h3>
 </div>
 </div>
 <div id="outline-container-org649a6c9" class="outline-2">
 <h2 id="org649a6c9"><span class="section-number-2">5</span> Relative Motion Sensors</h2>
 <div class="outline-text-2" id="text-5">
 </div>
-<div id="outline-container-org36b0a8e" class="outline-3">
+<div id="outline-container-org9530a70" class="outline-3">
-<h3 id="org36b0a8e"><span class="section-number-3">5.1</span> Stewart Platform Initialization</h3>
+<h3 id="org9530a70"><span class="section-number-3">5.1</span> Stewart Platform Initialization</h3>
 <div class="outline-text-3" id="text-5-1">
 <div class="org-src-container">
 <pre class="src src-matlab">apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
 </pre>
 </div>
 <div class="org-src-container">
 <pre class="src src-matlab">stewart = initializeStewartPlatform();
 stewart = initializeFramesPositions(stewart);
@ -957,33 +952,24 @@ stewart = computeJointsPose(stewart);
 </div>
 <div class="org-src-container">
-<pre class="src src-matlab">stewart = initializeAmplifiedStrutDynamics(stewart, 'Ke', 1.5e6*ones(6,1), 'Ka', 43e6*ones(6,1), 'K1', 0.4e6*ones(6,1), 'C1', 10*ones(6,1));
+<pre class="src src-matlab">apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
 stewart = initializeAmplifiedStrutDynamics(stewart, 'Ke', 1.5e6*ones(6,1), 'Ka', 40.5e6*ones(6,1), 'K1', 0.4e6*ones(6,1));
 % stewart = initializeFlexibleStrutDynamics(stewart, 'H', 0.03, 'K', apa.K, 'M', apa.M, 'n_xyz', apa.n_xyz, 'xi', 0.1, 'step_file', 'mat/APA300ML.STEP');
 </pre>
 </div>
 <div class="org-src-container">
-<pre class="src src-matlab">stewart = initializeJointDynamics(stewart, 'type_F', 'universal_3dof', ...
+<pre class="src src-matlab">flex_joint = load('./mat/flexor_025.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
-                                           'type_M', 'spherical_3dof', ...
+stewart = initializeJointDynamics(stewart, 'type_M', 'spherical_3dof', ...
-                                           'Kf_M', 100*ones(6,1), ...
+                                           'Kr_M', flex_joint.K(1,1)*ones(6,1), ...
-                                           'Kt_M', 500*ones(6,1), ...
+                                           'Ka_M', flex_joint.K(3,3)*ones(6,1), ...
-                                           'Kf_F', 100*ones(6,1), ...
+                                           'Kf_M', flex_joint.K(4,4)*ones(6,1), ...
-                                           'Kt_F', 500*ones(6,1), ...
+                                           'Kt_M', flex_joint.K(6,6)*ones(6,1), ...
-                                           'Ka_M', 200e6*ones(6,1), ...
+                                           'type_F', 'universal_3dof', ...
-                                           'Kr_M', 1e6*ones(6,1), ...
+                                           'Kr_F', flex_joint.K(1,1)*ones(6,1), ...
-                                           'Ka_F', 200e6*ones(6,1), ...
+                                           'Ka_F', flex_joint.K(3,3)*ones(6,1), ...
-                                           'Kr_F', 1e6*ones(6,1));
+                                           'Kf_F', flex_joint.K(4,4)*ones(6,1), ...
-% stewart = initializeJointDynamics(stewart, 'type_F', 'universal_3dof', ...
+                                           'Kt_F', flex_joint.K(6,6)*ones(6,1));
 %                                            'type_M', 'spherical_3dof', ...
 %                                            'Kf_M', 100*ones(6,1), ...
 %                                            'Kt_M', 500*ones(6,1), ...
 %                                            'Kf_F', 100*ones(6,1), ...
 %                                            'Kt_F', 500*ones(6,1), ...
 %                                            'Ka_M', 1e6*ones(6,1), ...
 %                                            'Kr_M', 1e6*ones(6,1), ...
 %                                            'Ka_F', 1e6*ones(6,1), ...
 %                                            'Kr_F', 1e6*ones(6,1));
 % stewart = initializeJointDynamics(stewart, 'type_F', 'universal_p', 'type_M', 'spherical_p');
 </pre>
 </div>
@ -994,7 +980,6 @@ stewart = computeJointsPose(stewart);
 <div class="org-src-container">
 <pre class="src src-matlab">stewart = initializeCylindricalStruts(stewart);
 % stewart = initializeCylindricalStruts(stewart, 'type_F', 'none', 'type_M', 'none');
 </pre>
 </div>
@ -1018,18 +1003,13 @@ controller = initializeController('type', 'open-loop');
 <pre class="src src-matlab">disturbances = initializeDisturbances();
 </pre>
 </div>
 <div class="org-src-container">
 <pre class="src src-matlab">open('stewart_platform_model.slx')
 </pre>
 </div>
 </div>
 </div>
 </div>
 </div>
 <div id="postamble" class="status">
 <p class="author">Author: Dehaeze Thomas</p>
-<p class="date">Created: 2020-09-01 mar. 13:18</p>
+<p class="date">Created: 2020-09-07 lun. 23:16</p>
 </div>
 </body>
 </html>
--- a/mat/APA300ML.mat
+++ b/mat/APA300ML.mat
--- a/mat/base_plate.STEP
+++ b/mat/base_plate.STEP
--- a/mat/flexor_025.mat
+++ b/mat/flexor_025.mat
--- a/mat/flexor_025.step
+++ b/mat/flexor_025.step
--- a/mat/motion_error_ol.mat
+++ b/mat/motion_error_ol.mat
--- a/mat/strut_encoder.mat
+++ b/mat/strut_encoder.mat
--- a/mat/strut_encoder.step
+++ b/mat/strut_encoder.step
--- a/mat/top_plate.STEP
+++ b/mat/top_plate.STEP
--- a/matlab/stewart_platform_model.slx
+++ b/matlab/stewart_platform_model.slx
--- a/org/flexible-stewart-platform.org
+++ b/org/flexible-stewart-platform.org
@ -1450,11 +1450,11 @@ Quantitatively:
  simulinkproject('../');
 #+end_src
 ** Stewart Platform Initialization
 #+begin_src matlab
-  apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
+  open('stewart_platform_model.slx')
 #+end_src
 ** Stewart Platform Initialization
 #+begin_src matlab
  stewart = initializeStewartPlatform();
  stewart = initializeFramesPositions(stewart);
@ -1463,32 +1463,23 @@ Quantitatively:
 #+end_src
 #+begin_src matlab
-  stewart = initializeAmplifiedStrutDynamics(stewart, 'Ke', 1.5e6*ones(6,1), 'Ka', 43e6*ones(6,1), 'K1', 0.4e6*ones(6,1), 'C1', 10*ones(6,1));
+  apa = load('./mat/APA300ML.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
  stewart = initializeAmplifiedStrutDynamics(stewart, 'Ke', 1.5e6*ones(6,1), 'Ka', 40.5e6*ones(6,1), 'K1', 0.4e6*ones(6,1));
  % stewart = initializeFlexibleStrutDynamics(stewart, 'H', 0.03, 'K', apa.K, 'M', apa.M, 'n_xyz', apa.n_xyz, 'xi', 0.1, 'step_file', 'mat/APA300ML.STEP');
 #+end_src
 #+begin_src matlab
-  stewart = initializeJointDynamics(stewart, 'type_F', 'universal_3dof', ...
+  flex_joint = load('./mat/flexor_025.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
-                                             'type_M', 'spherical_3dof', ...
+  stewart = initializeJointDynamics(stewart, 'type_M', 'spherical_3dof', ...
-                                             'Kf_M', 100*ones(6,1), ...
+                                             'Kr_M', flex_joint.K(1,1)*ones(6,1), ...
-                                             'Kt_M', 500*ones(6,1), ...
+                                             'Ka_M', flex_joint.K(3,3)*ones(6,1), ...
-                                             'Kf_F', 100*ones(6,1), ...
+                                             'Kf_M', flex_joint.K(4,4)*ones(6,1), ...
-                                             'Kt_F', 500*ones(6,1), ...
+                                             'Kt_M', flex_joint.K(6,6)*ones(6,1), ...
-                                             'Ka_M', 200e6*ones(6,1), ...
+                                             'type_F', 'universal_3dof', ...
-                                             'Kr_M', 1e6*ones(6,1), ...
+                                             'Kr_F', flex_joint.K(1,1)*ones(6,1), ...
-                                             'Ka_F', 200e6*ones(6,1), ...
+                                             'Ka_F', flex_joint.K(3,3)*ones(6,1), ...
-                                             'Kr_F', 1e6*ones(6,1));
+                                             'Kf_F', flex_joint.K(4,4)*ones(6,1), ...
-  % stewart = initializeJointDynamics(stewart, 'type_F', 'universal_3dof', ...
+                                             'Kt_F', flex_joint.K(6,6)*ones(6,1));
  %                                            'type_M', 'spherical_3dof', ...
  %                                            'Kf_M', 100*ones(6,1), ...
  %                                            'Kt_M', 500*ones(6,1), ...
  %                                            'Kf_F', 100*ones(6,1), ...
  %                                            'Kt_F', 500*ones(6,1), ...
  %                                            'Ka_M', 1e6*ones(6,1), ...
  %                                            'Kr_M', 1e6*ones(6,1), ...
  %                                            'Ka_F', 1e6*ones(6,1), ...
  %                                            'Kr_F', 1e6*ones(6,1));
  % stewart = initializeJointDynamics(stewart, 'type_F', 'universal_p', 'type_M', 'spherical_p');
 #+end_src
 #+begin_src matlab
@ -1497,7 +1488,6 @@ Quantitatively:
 #+begin_src matlab
  stewart = initializeCylindricalStruts(stewart);
  % stewart = initializeCylindricalStruts(stewart, 'type_F', 'none', 'type_M', 'none');
 #+end_src
 #+begin_src matlab
@ -1518,10 +1508,6 @@ Quantitatively:
  disturbances = initializeDisturbances();
 #+end_src
 #+begin_src matlab
  open('stewart_platform_model.slx')
 #+end_src
 ** Initialization                                                  :noexport:
 #+begin_src matlab
  %% Options for Linearized
@ -1533,9 +1519,9 @@ Quantitatively:
  %% Input/Output definition
  clear io; io_i = 1;
-  io(io_i) = linio([mdl, '/Controller'],              1, 'openinput');  io_i = io_i + 1; % Actuator Force Inputs [N]
+  io(io_i) = linio([mdl, '/Controller'],        1, 'openinput');              io_i = io_i + 1; % Actuator Force Inputs [N]
  io(io_i) = linio([mdl, '/Stewart Platform'],  1, 'openoutput', [], 'dLm');  io_i = io_i + 1; % Relative Motion - Actuators [m]
-  io(io_i) = linio([mdl, '/Stewart Platform'],  1, 'openoutput', [], 'Lm');  io_i = io_i + 1;  % Relative Motion - Legs [m]
+  io(io_i) = linio([mdl, '/Stewart Platform'],  1, 'openoutput', [], 'Lm');   io_i = io_i + 1;  % Relative Motion - Legs [m]
 #+end_src
 #+begin_src matlab :exports none
@ -1581,3 +1567,156 @@ Quantitatively:
  linkaxes([ax1,ax2],'x');
 #+end_src
 #+begin_src matlab :tangle no :exports results :results file replace
  exportFig('figs/comp_relative_motion_sensor_act_leg.pdf', 'width', 'full', 'height', 'full');
 #+end_src
 #+name: fig:comp_relative_motion_sensor_act_leg
 #+caption: Comparison of the dynamique from actuator to relative motion sensor located in parallel with the actuator or with the leg (flexible joints included)
 #+RESULTS:
 [[file:figs/comp_relative_motion_sensor_act_leg.png]]
 * Struts with Encoders
 ** Matlab Init                                              :noexport:ignore:
 #+begin_src matlab :tangle no :exports none :results silent :noweb yes :var current_dir=(file-name-directory buffer-file-name)
  <<matlab-dir>>
 #+end_src
 #+begin_src matlab :exports none :results silent :noweb yes
  <<matlab-init>>
 #+end_src
 #+begin_src matlab :results none :exports none
  simulinkproject('../');
 #+end_src
 ** Flexible Strut
 #+begin_src matlab
  apa = load('./mat/strut_encoder.mat', 'int_xyz', 'int_i', 'n_xyz', 'n_i', 'nodes', 'M', 'K');
 #+end_src
 #+begin_src matlab :exports results :results value table replace :tangle no
  data2orgtable([length(apa.n_i); length(apa.int_i); size(apa.M,1) - 6*length(apa.int_i); size(apa.M,1)], {'Total number of Nodes', 'Number of interface Nodes', 'Number of Modes', 'Size of M and K matrices'}, {}, ' %.0f ');
 #+end_src
 #+RESULTS:
 | Total number of Nodes     |  8 |
 | Number of interface Nodes |  8 |
 | Number of Modes           |  6 |
 | Size of M and K matrices  | 54 |
 #+begin_src matlab :exports results :results value table replace :tangle no :post addhdr(*this*)
  data2orgtable([[1:length(apa.int_i)]', apa.int_i, apa.int_xyz], {}, {'Node i', 'Node Number', 'x [m]', 'y [m]', 'z [m]'}, ' %f ');
 #+end_src
 #+caption: Coordinates of the interface nodes
 #+RESULTS:
 | Node i | Node Number |   x [m] |  y [m] |    z [m] |
 |--------+-------------+---------+--------+----------|
 |    1.0 |    504411.0 |     0.0 |    0.0 |   0.0405 |
 |    2.0 |    504412.0 |     0.0 |    0.0 |  -0.0405 |
 |    3.0 |    504413.0 | -0.0325 |    0.0 |      0.0 |
 |    4.0 |    504414.0 | -0.0125 |    0.0 |      0.0 |
 |    5.0 |    504415.0 | -0.0075 |    0.0 |      0.0 |
 |    6.0 |    504416.0 |  0.0325 |    0.0 |      0.0 |
 |    7.0 |    504417.0 |   0.004 | 0.0145 | -0.00175 |
 |    8.0 |    504418.0 |   0.004 | 0.0166 | -0.00175 |
 ** Stewart Platform
 #+begin_src matlab
  stewart = initializeStewartPlatform();
  stewart = initializeFramesPositions(stewart, 'H', 95e-3, 'MO_B', 220e-3);
  stewart = generateGeneralConfiguration(stewart, 'FH', 22.5e-3, 'FR', 114e-3, 'FTh', [   -11,    11, 120-11, 120+11, 240-11, 240+11]*(pi/180), ...
                                                  'MH', 22.5e-3, 'MR', 110e-3, 'MTh', [-60+15, 60-15,  60+15, 180-15, 180+15, -60-15]*(pi/180));
  stewart = computeJointsPose(stewart);
  stewart = initializeFlexibleStrutAndJointDynamics(stewart, 'H', (apa.int_xyz(1,3) - apa.int_xyz(2,3)), ...
                                                             'K', apa.K, ...
                                                             'M', apa.M, ...
                                                             'n_xyz', apa.n_xyz, ...
                                                             'xi', 0.1, ...
                                                             'Gf', -2.65e7, ...
                                                             'step_file', 'mat/APA300ML.STEP');
  stewart = initializeSolidPlatforms(stewart);
  stewart = initializeCylindricalStruts(stewart, 'type_F', 'none', 'type_M', 'none');
  stewart = computeJacobian(stewart);
  stewart = initializeStewartPose(stewart);
  stewart = initializeInertialSensor(stewart);
 #+end_src
 #+begin_src matlab
  disturbances = initializeDisturbances();
  ground = initializeGround('type', 'none');
  payload = initializePayload('type', 'rigid', 'm', 1);
  controller = initializeController('type', 'open-loop');
  references = initializeReferences(stewart);
 #+end_src
 #+begin_src matlab
  %% Options for Linearized
  options = linearizeOptions;
  options.SampleTime = 0;
  %% Name of the Simulink File
  mdl = 'stewart_platform_model';
  %% Input/Output definition
  clear io; io_i = 1;
  io(io_i) = linio([mdl, '/Controller'],        1, 'openinput');  io_i = io_i + 1; % Actuator Force Inputs [N]
  io(io_i) = linio([mdl, '/Stewart Platform'],  1, 'openoutput', [], 'dLm'); io_i = io_i + 1; % Relative Displacement Outputs [m]
  io(io_i) = linio([mdl, '/Stewart Platform'],  1, 'openoutput', [], 'Lm'); io_i = io_i + 1; % Force Sensors [N]
 #+end_src
 #+begin_src matlab
  %% Run the linearization
  G = linearize(mdl, io, options);
  G.InputName  = {'F1', 'F2', 'F3', 'F4', 'F5', 'F6'};
  G.OutputName = {'Dm1', 'Dm2', 'Dm3', 'Dm4', 'Dm5', 'Dm6', ...
                  'D1', 'D2', 'D3', 'D4', 'D5', 'D6'};
 #+end_src
 #+begin_src matlab :exports none
  freqs = logspace(0, 3, 1000);
  figure;
  ax1 = subplot(2, 1, 1);
  hold on;
  for i = 1:6
      plot(freqs, abs(squeeze(freqresp(G(i,i), freqs, 'Hz'))), 'color', [0 0.4470 0.7410 0.2]);
  end
  for i = 1:6
      plot(freqs, abs(squeeze(freqresp(G(6+i,i), freqs, 'Hz'))), 'color', [0.8500 0.3250 0.0980 0.2]);
  end
  hold off;
  set(gca, 'XScale', 'log'); set(gca, 'YScale', 'log');
  ylabel('Amplitude [m/N]'); set(gca, 'XTickLabel',[]);
  ax2 = subplot(2, 1, 2);
  hold on;
  for i = 1:6
      plot(freqs, 180/pi*angle(squeeze(freqresp(G(i,i), freqs, 'Hz'))), 'color', [0 0.4470 0.7410 0.2]);
  end
  for i = 1:6
      plot(freqs, 180/pi*angle(squeeze(freqresp(G(6+i,i), freqs, 'Hz'))), 'color', [0.8500 0.3250 0.0980 0.2]);
  end
  hold off;
  set(gca, 'XScale', 'log'); set(gca, 'YScale', 'lin');
  ylabel('Phase [deg]'); xlabel('Frequency [Hz]');
  ylim([-180, 180]);
  yticks([-180, -90, 0, 90, 180]);
  linkaxes([ax1,ax2],'x');
 #+end_src
 #+begin_src matlab :tangle no :exports results :results file replace
 exportFig('figs/comp_relative_motion_sensor_act_leg_encoder.pdf', 'width', 'full', 'height', 'full');
 #+end_src
 #+name: fig:comp_relative_motion_sensor_act_leg_encoder
 #+caption:
 #+RESULTS:
 [[file:figs/comp_relative_motion_sensor_act_leg_encoder.png]]
--- a/org/stewart-architecture.html
+++ b/org/stewart-architecture.html
--- a/org/stewart-architecture.org
+++ b/org/stewart-architecture.org
@ -926,6 +926,66 @@ This Matlab function is accessible [[file:../src/initializeCylindricalPlatforms.
  stewart.platform_M.H = args.Mph;
 #+end_src
 ** =initializeSolidPlatforms=: Initialize the geometry of the Fixed and Mobile Platforms
 :PROPERTIES:
 :header-args:matlab+: :tangle ../src/initializeSolidPlatforms.m
 :header-args:matlab+: :comments none :mkdirp yes :eval no
 :END:
 <<sec:initializeSolidPlatforms>>
 This Matlab function is accessible [[file:../src/initializeSolidPlatforms.m][here]].
 *** Function description
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  function [stewart] = initializeSolidPlatforms(stewart, args)
  % initializeSolidPlatforms - Initialize the geometry of the Fixed and Mobile Platforms
  %
  % Syntax: [stewart] = initializeSolidPlatforms(args)
  %
  % Inputs:
  %    - args - Structure with the following fields:
  %        - density [1x1] - Density of the platforms [kg]
  %
  % Outputs:
  %    - stewart - updated Stewart structure with the added fields:
  %      - platform_F [struct] - structure with the following fields:
  %        - type = 2
  %        - M [1x1] - Fixed Platform Density [kg/m^3]
  %      - platform_M [struct] - structure with the following fields:
  %        - type = 2
  %        - M [1x1] - Mobile Platform Density [kg/m^3]
 #+end_src
 *** Optional Parameters
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  arguments
      stewart
      args.density (1,1) double {mustBeNumeric, mustBePositive} = 7800
  end
 #+end_src
 *** Populate the =stewart= structure
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  stewart.platform_F.type = 2;
  stewart.platform_F.density = args.density;
 #+end_src
 #+begin_src matlab
  stewart.platform_M.type = 2;
  stewart.platform_M.density = args.density;
 #+end_src
 ** =initializeCylindricalStruts=: Define the inertia of cylindrical struts
 :PROPERTIES:
 :header-args:matlab+: :tangle ../src/initializeCylindricalStruts.m
@ -1513,6 +1573,96 @@ Rotational Damping
  stewart.joints_M.step_file = args.step_file_M;
 #+end_src
 ** TODO =initializeFlexibleStrutAndJointDynamics=: Model each strut with a flexible element
 :PROPERTIES:
 :header-args:matlab+: :tangle ../src/initializeFlexibleStrutAndJointDynamics.m
 :header-args:matlab+: :comments none :mkdirp yes :eval no
 :END:
 <<sec:initializeFlexibleStrutAndJointDynamics>>
 This Matlab function is accessible [[file:../src/initializeFlexibleStrutAndJointDynamics.m][here]].
 *** Function description
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  function [stewart] = initializeFlexibleStrutAndJointDynamics(stewart, args)
  % initializeFlexibleStrutAndJointDynamics - Add Stiffness and Damping properties of each strut
  %
  % Syntax: [stewart] = initializeFlexibleStrutAndJointDynamics(args)
  %
  % Inputs:
  %    - args - Structure with the following fields:
  %        - K [nxn] - Vertical stiffness contribution of the piezoelectric stack [N/m]
  %        - M [nxn] - Vertical damping contribution of the piezoelectric stack [N/(m/s)]
  %        - xi        [1x1] - Vertical (residual) stiffness when the piezoelectric stack is removed [N/m]
  %        - step_file [6x1] - Vertical (residual) damping when the piezoelectric stack is removed [N/(m/s)]
  %        - Gf [6x1] - Gain from strain in [m] to measured [N] such that it matches
  %
  % Outputs:
  %    - stewart - updated Stewart structure with the added fields:
 #+end_src
 *** Optional Parameters
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  arguments
      stewart
      args.K        double {mustBeNumeric} = zeros(6,6)
      args.M        double {mustBeNumeric} = zeros(6,6)
      args.H        double {mustBeNumeric} = 0
      args.n_xyz    double {mustBeNumeric} = zeros(2,3)
      args.xi       double {mustBeNumeric} = 0.1
      args.Gf       double {mustBeNumeric} = 1
      args.step_file char {} = ''
  end
 #+end_src
 *** Compute the axial offset
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 #+begin_src matlab
  stewart.actuators.ax_off = (stewart.geometry.l(1) - args.H)/2; % Axial Offset at the ends of the actuator
 #+end_src
 *** Populate the =stewart= structure
 :PROPERTIES:
 :UNNUMBERED: t
 :END:
 No discrete joints:
 #+begin_src matlab
  stewart.joints_F.type = 10;
  stewart.joints_M.type = 10;
 #+end_src
 No discrete struts:
 #+begin_src matlab
  stewart.struts_F.type = 3;
  stewart.struts_M.type = 3;
 #+end_src
 #+begin_src matlab
  stewart.actuators.type = 4;
  stewart.actuators.Km = args.K;
  stewart.actuators.Mm = args.M;
  stewart.actuators.n_xyz = args.n_xyz;
  stewart.actuators.xi = args.xi;
  stewart.actuators.step_file = args.step_file;
  stewart.actuators.K = args.K(3,3); % Axial Stiffness
  stewart.actuators.Gf = args.Gf;
 #+end_src
 ** =initializeInertialSensor=: Initialize the inertial sensor in each strut
 :PROPERTIES:
 :header-args:matlab+: :tangle ../src/initializeInertialSensor.m
--- a/simscape_subsystems/Fixed_Based.slx
+++ b/simscape_subsystems/Fixed_Based.slx
--- a/simscape_subsystems/Mobile_Platform.slx
+++ b/simscape_subsystems/Mobile_Platform.slx
--- a/simscape_subsystems/Stewart_Platform.slx
+++ b/simscape_subsystems/Stewart_Platform.slx
--- a/simscape_subsystems/stewart_strut.slx
+++ b/simscape_subsystems/stewart_strut.slx
--- a/src/initializeFlexibleStrutAndJointDynamics.m
+++ b/src/initializeFlexibleStrutAndJointDynamics.m
@ -0,0 +1,48 @@
 function [stewart] = initializeFlexibleStrutAndJointDynamics(stewart, args)
 % initializeFlexibleStrutAndJointDynamics - Add Stiffness and Damping properties of each strut
 %
 % Syntax: [stewart] = initializeFlexibleStrutAndJointDynamics(args)
 %
 % Inputs:
 %    - args - Structure with the following fields:
 %        - K [nxn] - Vertical stiffness contribution of the piezoelectric stack [N/m]
 %        - M [nxn] - Vertical damping contribution of the piezoelectric stack [N/(m/s)]
 %        - xi        [1x1] - Vertical (residual) stiffness when the piezoelectric stack is removed [N/m]
 %        - step_file [6x1] - Vertical (residual) damping when the piezoelectric stack is removed [N/(m/s)]
 %        - Gf [6x1] - Gain from strain in [m] to measured [N] such that it matches
 %
 % Outputs:
 %    - stewart - updated Stewart structure with the added fields:
 arguments
    stewart
    args.K        double {mustBeNumeric} = zeros(6,6)
    args.M        double {mustBeNumeric} = zeros(6,6)
    args.H        double {mustBeNumeric} = 0
    args.n_xyz    double {mustBeNumeric} = zeros(2,3)
    args.xi       double {mustBeNumeric} = 0.1
    args.Gf       double {mustBeNumeric} = 1
    args.step_file char {} = ''
 end
 stewart.actuators.ax_off = (stewart.geometry.l(1) - args.H)/2; % Axial Offset at the ends of the actuator
 stewart.joints_F.type = 10;
 stewart.joints_M.type = 10;
 stewart.struts_F.type = 3;
 stewart.struts_M.type = 3;
 stewart.actuators.type = 4;
 stewart.actuators.Km = args.K;
 stewart.actuators.Mm = args.M;
 stewart.actuators.n_xyz = args.n_xyz;
 stewart.actuators.xi = args.xi;
 stewart.actuators.step_file = args.step_file;
 stewart.actuators.K = args.K(3,3); % Axial Stiffness
 stewart.actuators.Gf = args.Gf;
--- a/src/initializeSolidPlatforms.m
+++ b/src/initializeSolidPlatforms.m
@ -0,0 +1,30 @@
 function [stewart] = initializeSolidPlatforms(stewart, args)
 % initializeSolidPlatforms - Initialize the geometry of the Fixed and Mobile Platforms
 %
 % Syntax: [stewart] = initializeSolidPlatforms(args)
 %
 % Inputs:
 %    - args - Structure with the following fields:
 %        - density [1x1] - Density of the platforms [kg]
 %
 % Outputs:
 %    - stewart - updated Stewart structure with the added fields:
 %      - platform_F [struct] - structure with the following fields:
 %        - type = 2
 %        - M [1x1] - Fixed Platform Density [kg/m^3]
 %      - platform_M [struct] - structure with the following fields:
 %        - type = 2
 %        - M [1x1] - Mobile Platform Density [kg/m^3]
 arguments
    stewart
    args.density (1,1) double {mustBeNumeric, mustBePositive} = 7800
 end
 stewart.platform_F.type = 2;
 stewart.platform_F.density = args.density;
 stewart.platform_M.type = 2;
 stewart.platform_M.density = args.density;