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+<title>Mechatronics Approach for the Development of a Nano-Active-Stabilization-System</title>
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+<h1 class="title">Mechatronics Approach for the Development of a Nano-Active-Stabilization-System
+<br />
+<span class="subtitle">Dehaeze Thomas, Bonnefoy Julien, Collette Christophe</span>
+</h1>
+<blockquote>
+<p>
+<b>Abstract</b>:
+</p>
+
+<p>
+With the growing number of fourth generation light sources, there is an increased need of fast positioning end-stations with nanometric precision.
+Such systems are usually including dedicated control strategies, and many factors may limit their performances.
+In order to design such complex systems in a predictive way, a mechatronic design approach also known as &ldquo;model based design&rdquo;, may be utilized.
+In this paper, we present how this mechatronic design approach was used for the development of a nano-hexapod for the ESRF ID31 beamline.
+The chosen design approach consists of using models of the mechatronic system (including sensors, actuators and control strategies) to predict its behavior.
+Based on this behavior and closed-loop simulations, the elements that are limiting the performances can be identified and re-designed accordingly.
+This allows to make adequate choices concerning the design of the nano-hexapod and the overall mechatronic architecture early in the project and save precious time and resources.
+Several test benches were used to validate the models and to gain confidence on the predictability of the final system&rsquo;s performances.
+Measured nano-hexapod&rsquo;s dynamics was shown to be in very good agreement with the models.
+Further tests should be done in order to confirm that the performances of the system match the predicted one.
+The presented development approach is foreseen to be applied more frequently to future mechatronic system design at the ESRF.
+</p>
+</blockquote>
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+<h2 id="org3cd2d8c">Conference Paper (<a href="paper/dehaeze21_mechatronics_approach_nass.pdf">pdf</a>)</h2>
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