Abstract
Differential equations are commonly used to model dynamical deterministic systems in applications. When statistical parameter estimation is required to calibrate theoretical models to data, classical statistical estimators are often confronted to complex and potentially ill-posed optimization problem. As a consequence, alternative estimators to classical parametric estimators are needed for obtaining reliable estimates. We propose a gradient matching approach for the estimation of parametric Ordinary Differential Equations (ODE) observed with noise. Starting from a nonparametric proxy of a true solution of the ODE, we build a parametric estimator based on a variational characterization of the solution. As a Generalized Moment Estimator, our estimator must satisfy a set of orthogonal conditions that are solved in the least squares sense. Despite the use of a nonparametric estimator, we prove the - consistency and asymptotic normality of the Orthogonal Conditions estimator. We can derive confidence sets thanks to a closed-form expression for the asymptotic variance. Finally, the OC estimator is compared to classical estimators in several (simulated and real) experiments and ODE models to show its versatility and relevance with respect to classical Gradient Matching and Nonlinear Least Squares estimators. In particular, we show on a real dataset of influenza infection that the approach gives reliable estimates. Moreover, we show that our approach can deal directly with more elaborated models such as Delay Differential Equation (DDE). Supplementary materials for this article are available online.
Highlights
1.1 Problem position and motivationsDierential Equations are a standard mathematical framework for modeling dynamics in physics, chemistry, biology, engineering sciences, etc and have proved their eciency in describing the real world
Such models are dened thanks to a time-dependent vector eld that depends on a parameter to Dierential Equation, dened for
We introduce here a new estimator that can be seen as an improvement and a generalization of the φ, previous two-step estimators
Summary
Dierential Equations are a standard mathematical framework for modeling dynamics in physics, chemistry, biology, engineering sciences, etc and have proved their eciency in describing the real world. Such models are dened thanks to a time-dependent vector eld that depends on a parameter to Dierential Equation, dened for Rd. If φ(t). An important task is the estimation of the parameter gave motivations for further statistical studies. We are interested in the denition and in the optimality of a statistical procedure for the estimation of the parameter of a solution at times θ from real data. We are interested in the denition and in the optimality of a statistical procedure for the estimation of the parameter of a solution at times θ from real data. [30] proposed a signicant improvement to this statistical problem, and from noisy observations y1 , . . . , yn ∈ Rd t1 < · · · < tn
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