Adjoint Sensitivities of Chaotic Flows without Adjoint Solvers: A Data-Driven Approach

Defne E. Ozan, Luca Magri
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Abstract

In one calculation, adjoint sensitivity analysis provides the gradient of a quantity of interest with respect to all system's parameters. Conventionally, adjoint solvers need to be implemented by differentiating computational models, which can be a cumbersome task and is code-specific. To propose an adjoint solver that is not code-specific, we develop a data-driven strategy. We demonstrate its application on the computation of gradients of long-time averages of chaotic flows. First, we deploy a parameter-aware echo state network (ESN) to accurately forecast and simulate the dynamics of a dynamical system for a range of system's parameters. Second, we derive the adjoint of the parameter-aware ESN. Finally, we combine the parameter-aware ESN with its adjoint version to compute the sensitivities to the system parameters. We showcase the method on a prototypical chaotic system. Because adjoint sensitivities in chaotic regimes diverge for long integration times, we analyse the application of ensemble adjoint method to the ESN. We find that the adjoint sensitivities obtained from the ESN match closely with the original system. This work opens possibilities for sensitivity analysis without code-specific adjoint solvers.
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不使用交点求解器的混沌流交点敏感性:数据驱动法
在一次计算中,邻接灵敏度分析提供了相关含水量相对于所有系统参数的梯度。传统的邻接求解器需要通过区分计算模型来实现,这可能是一项繁琐的任务,而且需要特定的代码。为了提出一种不针对特定代码的邻接求解器,我们开发了一种数据驱动策略。我们演示了该策略在计算混沌流长时间平均值梯度上的应用。首先,我们部署了参数感知回声状态网络(ESN),以准确预测和模拟动态系统在一定范围内的参数动态。其次,我们推导出参数感知 ESN 的邻接。最后,我们将参数感知 ESN 与其邻接版本相结合,计算系统参数的敏感性。我们在一个原型混沌系统上演示了该方法。由于混沌状态下的邻接敏感性在较长的积分时间内会发散,我们分析了集合邻接法在 ESN 中的应用。我们发现从 ESN 中得到的邻接敏感度与原始系统非常吻合。这项工作为在没有特定代码邻接求解器的情况下进行敏感度分析提供了可能性。
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