Identification of Nonlinear Systems

非线性系统的辨识

• 批准号: RGPIN-2015-06464
• 负责人: Westwick, David
• 金额: $ 1.82万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=680765
• 关键词: Identification; Nonlinear; Systems

Automatic control systems are ubiquitous in the modern world. They can range in scale from the position controller that regulates the position of the read/write head in a hard disk, to the autopilots that control the movement of aircraft, to the advanced traffic control systems that regulate the flow of traffic in major cities. Since the controller is designed based on a mathematical model of the system that will be controlled, the system's performance will be limited by the accuracy of the model used in its design. Thus, having an accurate mathematical model of the target system is a necessary pre-requisite to the design of a high-performance control system.******While models of comparatively simple systems can be derived based on first principles, this approach quickly becomes intractable as the system's scale and/or complexity increases. System identification, on the other hand, is a data-driven process that creates mathematical models of dynamic systems from measurements of their inputs and outputs. This research programme will develop system identification techniques that can create accurate mathematical models of nonlinear systems from data that have been gathered under normal operating conditions and when some form of control system is operating. ******The system identification process is greatly simplified if the input to the system is independent of any disturbances that affect the system, or of any noise that may be contained in the measurements. Unfortunately, many systems can only be operated in a "closed-loop" configuration, where the system output is measured, compared to a desired trajectory, and this error is then used to adjust the input signal. This type of feedback control may be necessary for safety, performance or economic reasons. The nonlinear system identification algorithms developed in this research programme will be designed to operate on data that have been gathered under closed-loop conditions, as this will allow them to be applied without the need for a separate, often impossible to perform, open-loop experiment. Instead, we will concentrate on constructing models from normal operating data, as this will minimize the economic impact of generating the model.

自动控制系统在现代世界中无处不在。它们的规模可以从调节硬盘中读/写头的位置的位置控制器到控制飞机移动的自动驾驶仪到调节主要城市交通流量的高级交通管制系统。由于控制器是基于将要控制的系统的数学模型设计的，因此系统的性能将受到设计中使用的模型的准确性的限制。因此，具有目标系统的准确数学模型是设计高性能控制系统的必要先决条件。另一方面，系统标识是一个数据驱动的过程，该过程从其输入和输出的测量值中创建动态系统的数学模型。 该研究计划将开发系统识别技术，这些技术可以从已在正常运行条件下以及某种形式的控制系统运行的数据中创建非线性系统的准确数学模型。 ******如果系统的输入独立于影响系统的任何干扰或测量中可能包含的任何噪声，则系统识别过程将大大简化。 不幸的是，与所需轨迹相比，许多系统只能以“闭环”配置进行操作，其中测量了系统输出，然后使用此错误来调整输入信号。 出于安全，绩效或经济原因，可能需要这种反馈控制。 该研究计划中开发的非线性系统识别算法将旨在根据在闭环条件下收集的数据进行操作，因为这将允许它们在无需单独的，通常不可能执行开放环实验的情况下应用它们。 取而代之的是，我们将专注于从正常运行数据中构建模型，因为这将最大程度地减少产生模型的经济影响。