Asynchronous gain-scheduled control of deepwater drilling riser system with hybrid event-triggered sampling and unreliable communication

IF 2.7 3区 工程技术 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Na Pang, Dawei Zhang, Shuqian Zhu
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引用次数: 0

Abstract

This paper investigates the recoil control of the deepwater drilling riser system with nonlinear tension force and energy-bounded friction force under the circumstances of limited network resources and unreliable communication. Different from the existing linearization modeling method, a triangle-based polytope modeling method is applied to the nonlinear riser system. Based on the polytope model, to improve resource utilization and accommodate random data loss and communication delay, an asynchronous gain-scheduled control strategy under a hybrid event-triggered scheme is proposed. An asynchronous linear parameter-varying system that blends input delay and impulsive update equation is presented to model the nonlinear networked recoil control system, where the asynchronous deviation bounds of scheduling parameters are calculated. Resorting to the Lyapunov–Krasovskii functional method, some solvable conditions of disturbance attenuation analysis and recoil control design are derived such that the resulting networked system is exponentially mean-square stable with prescribed H performance. The obtained numerical results verified that the proposed nonlinear networked control method can achieve a better recoil response of the riser system with less transmission data compared with the linear control method.

具有混合事件触发采样和不可靠通信功能的深水钻井立管系统的异步增益调度控制
本文研究了在网络资源有限和通信不可靠的情况下,具有非线性拉力和能量约束摩擦力的深水钻井立管系统的反冲控制。与现有的线性化建模方法不同,本文将基于三角形的多面体建模方法应用于非线性立管系统。基于多面体模型,为提高资源利用率并适应随机数据丢失和通信延迟,提出了一种混合事件触发方案下的异步增益调度控制策略。提出了一个融合了输入延迟和脉冲更新方程的异步线性参数变化系统来模拟非线性网络反冲控制系统,并计算了调度参数的异步偏差边界。利用 Lyapunov-Krasovskii 函数方法,推导出了干扰衰减分析和反冲控制设计的一些可解条件,从而使所得到的网络系统具有指数均方稳定和规定的 H∞ 性能。所获得的数值结果验证了与线性控制方法相比,所提出的非线性网络化控制方法能以更少的传输数据获得更好的立管系统反冲响应。
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来源期刊
Frontiers of Information Technology & Electronic Engineering
Frontiers of Information Technology & Electronic Engineering COMPUTER SCIENCE, INFORMATION SYSTEMSCOMPU-COMPUTER SCIENCE, SOFTWARE ENGINEERING
CiteScore
6.00
自引率
10.00%
发文量
1372
期刊介绍: Frontiers of Information Technology & Electronic Engineering (ISSN 2095-9184, monthly), formerly known as Journal of Zhejiang University SCIENCE C (Computers & Electronics) (2010-2014), is an international peer-reviewed journal launched by Chinese Academy of Engineering (CAE) and Zhejiang University, co-published by Springer & Zhejiang University Press. FITEE is aimed to publish the latest implementation of applications, principles, and algorithms in the broad area of Electrical and Electronic Engineering, including but not limited to Computer Science, Information Sciences, Control, Automation, Telecommunications. There are different types of articles for your choice, including research articles, review articles, science letters, perspective, new technical notes and methods, etc.
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