一般圣维南方程的PI控制器

Amaury Hayat
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引用次数: 13

摘要

我们研究了具有任意摩擦和斜率的非线性Saint-Venant(或浅水)方程的$H^{2}$范数的指数稳定性,并在通道的一端使用单个比例积分(PI)控制。利用一个简单的李雅普诺夫函数,我们找到了一个简单而明确的条件,即PI控制的增益可以保证任意稳态的指数稳定性。这个条件与坡度、摩擦系数、河流长度、流入扰动无关,更令人惊讶的是,它可以与所考虑的稳态无关。当流入扰动是时变的且不存在稳态时,我们仍然具有系统的输入到状态稳定性,并且我们表明稍微改变PI控制可以恢复缓慢变化轨迹的指数稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PI controllers for the general Saint-Venant equations
We study the exponential stability in the $H^{2}$ norm of the nonlinear Saint-Venant (or shallow water) equations with arbitrary friction and slope using a single Proportional-Integral (PI) control at one end of the channel. Using a good but simple Lyapunov function we find a simple and explicit condition on the gain the PI control to ensure the exponential stability of any steady-states. This condition is independent of the slope, the friction coefficient, the length of the river, the inflow disturbance and, more surprisingly, can be made independent of the steady-state considered. When the inflow disturbance is time-dependent and no steady-state exist, we still have the Input-to-State stability of the system, and we show that changing slightly the PI control enables to recover the exponential stability of slowly varying trajectories.
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