Archivio Istituzionale della RicercaThe aim of this paper is to present a novel physics-based framework for the identification of dynamical systems, in which the physical and structural insights are reflected directly into a backpropagation-like learning algorithm. The main result is a method to compute in closed form the gradient of a multi-step loss function, while enforcing physical properties and constraints. The derived algorithm has been exploited to identify the unknown inertia matrix of a space debris, and the results show the reliability of the method in capturing the physical adherence of the estimated parameters.
One-shot backpropagation for multi-step prediction in physics-based system identification / Donati, Cesare; Mammarella, Martina; Dabbene, Fabrizio; Novara, Carlo; Lagoa, Constantino. - ELETTRONICO. - 58:(2024), pp. 271-276. (Intervento presentato al convegno SYSID 2024 - 20th IFAC Symposium on System Identification tenutosi a Boston (USA) nel July 17-18, 2024) [10.1016/j.ifacol.2024.08.540].
One-shot backpropagation for multi-step prediction in physics-based system identification
Donati, Cesare;Mammarella, Martina;Dabbene, Fabrizio;Novara, Carlo;
2024
Abstract
The aim of this paper is to present a novel physics-based framework for the identification of dynamical systems, in which the physical and structural insights are reflected directly into a backpropagation-like learning algorithm. The main result is a method to compute in closed form the gradient of a multi-step loss function, while enforcing physical properties and constraints. The derived algorithm has been exploited to identify the unknown inertia matrix of a space debris, and the results show the reliability of the method in capturing the physical adherence of the estimated parameters.
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https://hdl.handle.net/11583/2992672