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Autori principali: Pardo, Antón, Seoane, Sandra Díaz, Ionescu, Dorin A., Papachristodoulou, Antonis, Villaverde, Alejandro F.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.05450
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author Pardo, Antón
Seoane, Sandra Díaz
Ionescu, Dorin A.
Papachristodoulou, Antonis
Villaverde, Alejandro F.
author_facet Pardo, Antón
Seoane, Sandra Díaz
Ionescu, Dorin A.
Papachristodoulou, Antonis
Villaverde, Alejandro F.
contents Synthetic biology is a recent area of biological engineering, whose aim is to provide cells with novel functionalities. A number of important results regarding the development of control circuits in synthetic biology have been achieved during the last decade. A differential geometry approach can be used for the analysis of said systems, which are often nonlinear. Here we demonstrate the application of such tools to analyse the structural identifiability, observability, accessibility, and controllability of several biomolecular systems. We focus on a set of synthetic circuits of current interest, which can perform several tasks, both in open loop and closed loop settings. We analyse their properties with our own methods and tools; further, we describe a new open-source implementation of the techniques.
format Preprint
id arxiv_https___arxiv_org_abs_2411_05450
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Analysing control-theoretic properties of nonlinear synthetic biology circuits
Pardo, Antón
Seoane, Sandra Díaz
Ionescu, Dorin A.
Papachristodoulou, Antonis
Villaverde, Alejandro F.
Systems and Control
Quantitative Methods
Synthetic biology is a recent area of biological engineering, whose aim is to provide cells with novel functionalities. A number of important results regarding the development of control circuits in synthetic biology have been achieved during the last decade. A differential geometry approach can be used for the analysis of said systems, which are often nonlinear. Here we demonstrate the application of such tools to analyse the structural identifiability, observability, accessibility, and controllability of several biomolecular systems. We focus on a set of synthetic circuits of current interest, which can perform several tasks, both in open loop and closed loop settings. We analyse their properties with our own methods and tools; further, we describe a new open-source implementation of the techniques.
title Analysing control-theoretic properties of nonlinear synthetic biology circuits
topic Systems and Control
Quantitative Methods
url https://arxiv.org/abs/2411.05450