bibliography: => #+BIBLIOGRAPHY: here

content/article/collette11_review_activ_vibrat_isolat_strat.md

@@ -8,7 +8,7 @@ Tags
 : [Vibration Isolation]({{< relref "vibration_isolation" >}})
 
 Reference
-: ([Collette, Janssens, and Artoos 2011](#org7b1a927))
+: ([Collette, Janssens, and Artoos 2011](#orgc3712d7))
 
 Author(s)
 : Collette, C., Janssens, S., & Artoos, K.
@@ -22,12 +22,11 @@ Year
 
 ### Passive Isolation Tradeoffs {#passive-isolation-tradeoffs}
 
-<div class="cbox">
-  <div></div>
+1DoF Equations:
 
-\\[ X(s) = \underbrace{\frac{cs + k}{ms^2 + cs + k}}\_{T\_{wx}(s)} W(s) + \underbrace{\frac{1}{ms^2 + cs + k}}\_{T\_{Fx}(s)} F(s) \\]
-
-</div>
+\begin{equation}
+\boxed{X(s) = \underbrace{\frac{cs + k}{ms^2 + cs + k}}\_{T\_{wx}(s)} W(s) + \underbrace{\frac{1}{ms^2 + cs + k}}\_{T\_{Fx}(s)} F(s)}
+\end{equation}
 
 -   \\(T\_{wx}(s)\\) is called the **transmissibility** of the isolator. It characterize the way seismic vibrations \\(w\\) are transmitted to the equipment.
 -   \\(T\_{Fx}(s)\\) is called the **compliance**. It characterize the capacity of disturbing forces \\(F\\) to create motion \\(x\\) of the equipment.
@@ -71,11 +70,12 @@ The general expression of the force delivered by the actuator is \\(f = g\_a \dd
 
 ## Conclusions {#conclusions}
 
-<a id="org0035120"></a>
+<a id="orgdceedb5"></a>
 
 {{< figure src="/ox-hugo/collette11_comp_isolation_strategies.png" caption="Figure 1: Comparison of Active Vibration Isolation Strategies" >}}
 
 
+
 ## Bibliography {#bibliography}
 
-<a id="org7b1a927"></a>Collette, Christophe, Stef Janssens, and Kurt Artoos. 2011. “Review of Active Vibration Isolation Strategies.” _Recent Patents on Mechanical Engineeringe_ 4 (3):212–19. <https://doi.org/10.2174/2212797611104030212>.
+<a id="orgc3712d7"></a>Collette, Christophe, Stef Janssens, and Kurt Artoos. 2011. “Review of Active Vibration Isolation Strategies.” _Recent Patents on Mechanical Engineeringe_ 4 (3):212–19. <https://doi.org/10.2174/2212797611104030212>.