Event-based LQR with integral action

S. Durand, Bruno Boisseau, J. M. Molina, N. Marchand, T. Raharijaona
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引用次数: 15

Abstract

In this paper, a state-feedback linear-quadratic regulator (LQR) is proposed for event-based control of a linear system. An interesting property of LQRs is that an optimal response of the system can be obtained in accordance to some specifications, like the actuator limits. An integral action is also added in order to not only restrict the study to null stabilization but also to tracking. The idea is to consider an external control loop and stabilize the integral of the error between the measurement and a desired setpoint to track. However, an event-triggered integral can lead to important overshoots when the interval between two successive events becomes large. Therefore, an exponential forgetting factor of the sampling interval is proposed as a solution to avoid such problems. The whole proposal is tested on a real-time system (a gyroscope) in order to highlight its ability, the reduction of control updates and the respect to the actuator limits.
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具有积分动作的基于事件的LQR
针对线性系统的事件控制问题,提出了一种状态反馈线性二次型调节器(LQR)。LQRs的一个有趣的特性是,系统的最优响应可以根据某些规范获得,如执行器的限制。为了使研究不仅局限于零镇定而且局限于跟踪,还加入了积分动作。其思想是考虑一个外部控制回路,并稳定测量值与需要跟踪的设定值之间的误差积分。但是,当两个连续事件之间的间隔变大时,事件触发的积分可能导致重要的超调。因此,我们提出了一个采样区间的指数遗忘因子来解决这类问题。整个方案在一个实时系统(陀螺仪)上进行了测试,以突出其能力、控制更新的减少和对执行器限制的尊重。
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