Distributed Linear Quadratic Regulator Robust to Communication Dropouts
We present a solution to deal with information package dropouts in distributed controllers for large-scale networks. We do this by leveraging the System Level Synthesis approach, a control framework particularly suitable for large-scale networks that addresses information exchange in a very transpar...
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| creator | Alonso, Carmen Amo Ho, Dimitar Maestre, Jose M |
| description | We present a solution to deal with information package dropouts in
distributed controllers for large-scale networks. We do this by leveraging the
System Level Synthesis approach, a control framework particularly suitable for
large-scale networks that addresses information exchange in a very transparent
manner. To this end, we propose two different schemes for controller synthesis
and implementation. The first one synthesizes a controller inherently robust to
dropouts, which is later implemented in an offline fashion. For the second
approach, we synthesize a collection of controllers offline and then switch
between different controllers online depending on the current dropouts detected
in the system. The two approaches are illustrated and compared by means of a
simulation example. |
| doi_str_mv | 10.48550/arxiv.2103.03967 |
| format | Article |
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distributed controllers for large-scale networks. We do this by leveraging the
System Level Synthesis approach, a control framework particularly suitable for
large-scale networks that addresses information exchange in a very transparent
manner. To this end, we propose two different schemes for controller synthesis
and implementation. The first one synthesizes a controller inherently robust to
dropouts, which is later implemented in an offline fashion. For the second
approach, we synthesize a collection of controllers offline and then switch
between different controllers online depending on the current dropouts detected
in the system. The two approaches are illustrated and compared by means of a
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distributed controllers for large-scale networks. We do this by leveraging the
System Level Synthesis approach, a control framework particularly suitable for
large-scale networks that addresses information exchange in a very transparent
manner. To this end, we propose two different schemes for controller synthesis
and implementation. The first one synthesizes a controller inherently robust to
dropouts, which is later implemented in an offline fashion. For the second
approach, we synthesize a collection of controllers offline and then switch
between different controllers online depending on the current dropouts detected
in the system. The two approaches are illustrated and compared by means of a
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distributed controllers for large-scale networks. We do this by leveraging the
System Level Synthesis approach, a control framework particularly suitable for
large-scale networks that addresses information exchange in a very transparent
manner. To this end, we propose two different schemes for controller synthesis
and implementation. The first one synthesizes a controller inherently robust to
dropouts, which is later implemented in an offline fashion. For the second
approach, we synthesize a collection of controllers offline and then switch
between different controllers online depending on the current dropouts detected
in the system. The two approaches are illustrated and compared by means of a
simulation example.</abstract><doi>10.48550/arxiv.2103.03967</doi><oa>free_for_read</oa></addata></record> |
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| title | Distributed Linear Quadratic Regulator Robust to Communication Dropouts |
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