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" /><meta name="description" content="Tags Stewart Platforms, Vibration Isolation, Flexible Joints Reference (Wang {\it et al.}, 2016) Author(s) Wang, C., Xie, X., Chen, Y., &amp;amp; Zhang, Z. Year 2016  Model of the Stewart platform:
 Struts are treated as flexible beams Payload and the base are treated as flexible plates The FRF synthesis method permits to derive FRFs of the Stewart platform  The model is compared with a Finite Element model and is shown to give the same results." />
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      <h1 class="post-title">Investigation on active vibration isolation of a stewart platform with piezoelectric actuators</h1>
    </header>

    <div class="post-toc" id="post-toc">
  <h2 class="post-toc-title">Contents</h2>
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</div>
    <div class="post-content">
      <dl>
<dt>Tags</dt>
<dd><a href="/zettels/stewart_platforms/">Stewart Platforms</a>, <a href="/zettels/vibration_isolation/">Vibration Isolation</a>, <a href="/zettels/flexible_joints/">Flexible Joints</a></dd>
<dt>Reference</dt>
<dd><sup id="db95fac7cd46c14e2b4f38e8ca4158fe"><a href="#wang16_inves_activ_vibrat_isolat_stewar" title="Wang, Xie, Chen, Zhang \&amp; Zhiyi, Investigation on Active Vibration Isolation of a Stewart  Platform With Piezoelectric Actuators, {Journal of Sound and Vibration}, v(), 1-19 (2016).">(Wang {\it et al.}, 2016)</a></sup></dd>
<dt>Author(s)</dt>
<dd>Wang, C., Xie, X., Chen, Y., &amp; Zhang, Z.</dd>
<dt>Year</dt>
<dd>2016</dd>
</dl>
<p><strong>Model of the Stewart platform</strong>:</p>
<ul>
<li>Struts are treated as flexible beams</li>
<li>Payload and the base are treated as flexible plates</li>
<li>The FRF synthesis method permits to derive FRFs of the Stewart platform</li>
</ul>
<p>The model is compared with a Finite Element model and is shown to give the same results.
The proposed model is thus effective.</p>
<p><a id="orgbc70494"></a></p>
<figure>
    <img src="/ox-hugo/wang16_stewart_platform.png"
         alt="Figure 1: Stewart Platform"/> <figcaption>
            <p>Figure 1: Stewart Platform</p>
        </figcaption>
</figure>

<p><strong>Control</strong>:
Combines:</p>
<ul>
<li>the FxLMS-based adaptive inverse control =&gt; suppress transmission of periodic vibrations</li>
<li>direct feedback of integrated forces =&gt; dampen vibration of inherent modes and thus reduce random vibrations</li>
</ul>
<p>Force Feedback (Figure <a href="#org4b1fbd9">2</a>).</p>
<ul>
<li>the force sensor is mounted <strong>between the base and the strut</strong></li>
</ul>
<p><a id="org4b1fbd9"></a></p>
<figure>
    <img src="/ox-hugo/wang16_force_feedback.png"
         alt="Figure 2: Feedback of integrated forces in the platform"/> <figcaption>
            <p>Figure 2: Feedback of integrated forces in the platform</p>
        </figcaption>
</figure>

<p>Sorts of HAC-LAC control:</p>
<ul>
<li>LAC: Decentralized integral force feedback</li>
<li>HAC: Inertial control using accelerometers. Use of the Jacobian to decouple the motion and then Fx-LMS based adaptive control is used</li>
</ul>
<p><strong>Experimental validation</strong>:</p>
<ul>
<li>All 6 transfer function from actuator force to force sensors are almost the same (gain offset)</li>
<li>Effectiveness of control methods are shown</li>
</ul>
<h1 id="bibliography">Bibliography</h1>
<p><a id="wang16_inves_activ_vibrat_isolat_stewar"></a>Wang, C., Xie, X., Chen, Y., &amp; Zhang, Z., <em>Investigation on active vibration isolation of a stewart platform with piezoelectric actuators</em>, Journal of Sound and Vibration, <em>383()</em>, 1–19 (2016).  <a href="http://dx.doi.org/10.1016/j.jsv.2016.07.021">http://dx.doi.org/10.1016/j.jsv.2016.07.021</a> <a href="#db95fac7cd46c14e2b4f38e8ca4158fe">↩</a></p>

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