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bibliography: => #+BIBLIOGRAPHY: here

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Thomas Dehaeze
2021-05-02 22:18:30 +02:00
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content/article/preumont02_force_feedb_versus_accel_feedb.md
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@@ -8,7 +8,7 @@ Tags
: [Vibration Isolation]({{< relref "vibration_isolation" >}})
Reference
: ([Preumont et al. 2002](#org35c3663))
: ([Preumont et al. 2002](#orgbec44eb))
Author(s)
: Preumont, A., A. Francois, Bossens, F., & Abu-Hanieh, A.
@@ -26,14 +26,14 @@ The force applied to a **rigid body** is proportional to its acceleration, thus
Thus force feedback and acceleration feedback are equivalent for solid bodies.
When there is a flexible payload, the two sensing options are not longer equivalent.
- For light payload (Figure [1](#org93ee8cd)), the acceleration feedback gives larger damping on the higher mode.
- For heavy payload (Figure [2](#orgec90b36)), the acceleration feedback do not give alternating poles and zeros and thus for high control gains, the system becomes unstable
- For light payload (Figure [1](#orga040a9a)), the acceleration feedback gives larger damping on the higher mode.
- For heavy payload (Figure [2](#org1916ab2)), the acceleration feedback do not give alternating poles and zeros and thus for high control gains, the system becomes unstable
<a id="org93ee8cd"></a>
<a id="orga040a9a"></a>
{{< figure src="/ox-hugo/preumont02_force_acc_fb_light.png" caption="Figure 1: Root locus for **light** flexible payload, (a) Force feedback, (b) acceleration feedback" >}}
<a id="orgec90b36"></a>
<a id="org1916ab2"></a>
{{< figure src="/ox-hugo/preumont02_force_acc_fb_heavy.png" caption="Figure 2: Root locus for **heavy** flexible payload, (a) Force feedback, (b) acceleration feedback" >}}
@@ -46,6 +46,7 @@ The same is true for the transfer function from the force actuator to the relati
> According to physical interpretation of the zeros, they represent the resonances of the subsystem constrained by the sensor and the actuator.
## Bibliography {#bibliography}
<a id="org35c3663"></a>Preumont, A., A. François, F. Bossens, and A. Abu-Hanieh. 2002. “Force Feedback Versus Acceleration Feedback in Active Vibration Isolation.” _Journal of Sound and Vibration_ 257 (4):60513. <https://doi.org/10.1006/jsvi.2002.5047>.
<a id="orgbec44eb"></a>Preumont, A., A. François, F. Bossens, and A. Abu-Hanieh. 2002. “Force Feedback Versus Acceleration Feedback in Active Vibration Isolation.” _Journal of Sound and Vibration_ 257 (4):60513. <https://doi.org/10.1006/jsvi.2002.5047>.