Many space activities could benefit by learning from the available on-orbit data collected during the mission. An effective improvement in control system performance and autonomy can be obtained implementing learning-based strategies, opportunely modified to adapt themselves to specific mission requirements. Growing interest is currently being addressed to in-space assembly and deploy operations worldwide. Due to the repetitive nature of space structures geometry and assembling procedure, these missions could benefit from the data collected during previous phases. In this sense, the Iterative Learning Control (ILC) appears to be a promising tool for the purpose. The proposed paper explores the possibility of its application to space deployable systems. In particular, this study focusses on the application of ILC to those foldable systems that have a repetitive modular structure, in order to track the same deployment trajectory for each module. In this scenario, the ILC can cope with the uncertainties in the model using the deploying information originated by the previous extended modules. Thus, the control system can be considered as an online supporting signal co-operating with a traditional feedback controller to achieve better deploying performance. The system is able to learn from the past experience, reducing the tracking error of the modules belonging to the successive iteration.
Learning-based control scheme to deploy modular space structures / Angeletti, Federica; Gasbarri, Paolo; Palmerini, Giovanni; Sabatini, Marco. - ELETTRONICO. - 2018-:(2018), pp. 1-16. (Intervento presentato al convegno 2018 IEEE Aerospace Conference, AERO 2018 tenutosi a usa) [10.1109/AERO.2018.8396782].
Learning-based control scheme to deploy modular space structures
Angeletti, Federica
Primo
Investigation
;Gasbarri, PaoloSecondo
Methodology
;Palmerini, GiovanniPenultimo
Supervision
;Sabatini, MarcoUltimo
Validation
2018
Abstract
Many space activities could benefit by learning from the available on-orbit data collected during the mission. An effective improvement in control system performance and autonomy can be obtained implementing learning-based strategies, opportunely modified to adapt themselves to specific mission requirements. Growing interest is currently being addressed to in-space assembly and deploy operations worldwide. Due to the repetitive nature of space structures geometry and assembling procedure, these missions could benefit from the data collected during previous phases. In this sense, the Iterative Learning Control (ILC) appears to be a promising tool for the purpose. The proposed paper explores the possibility of its application to space deployable systems. In particular, this study focusses on the application of ILC to those foldable systems that have a repetitive modular structure, in order to track the same deployment trajectory for each module. In this scenario, the ILC can cope with the uncertainties in the model using the deploying information originated by the previous extended modules. Thus, the control system can be considered as an online supporting signal co-operating with a traditional feedback controller to achieve better deploying performance. The system is able to learn from the past experience, reducing the tracking error of the modules belonging to the successive iteration.| File | Dimensione | Formato | |
|---|---|---|---|
|
Angeletti_learning-based_2018.pdf
solo gestori archivio
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Tutti i diritti riservati (All rights reserved)
Dimensione
1.18 MB
Formato
Adobe PDF
|
1.18 MB | Adobe PDF | Contatta l'autore |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
