假如你是一个经验丰富的翻译家,请把下面这段文字流畅的学术性的翻译成英文:在本小节中,设计并测试了三种不同的控制策略,并与无控制策略下的结果进行对比,以得到使反应器运行结果最好的控制策略,达到最优的控制效果。设计的控制策略如图2所示,图2(a)中ANN控制器与反应器同时接受干扰,随后对反应器进行控制,形成ANN前馈控制。图2(b)中反应器被干扰后进行输出,PI控制器接收输出与设定点的偏差,随后对反应器进行控制,形成PI反馈控制。图2(c)将ANN前馈控制与PI反馈控制相结合,由ANN控制器与PI控制器同时控制反应器,形成基于ANN的PI混合控制。三种控制策略的具体参数在表1中展示。
时间: 2023-03-02 08:24:55 浏览: 91
In this section, three different control strategies were designed and tested, and compared with the results without control strategy to obtain the best control strategy that can achieve the optimal control effect for the reactor operation. The designed control strategies are shown in Figure 2, where in Figure 2(a), the ANN controller and the reactor simultaneously receive disturbances, and then the reactor is controlled to form ANN feedforward control. In Figure 2(b), the reactor outputs after being disturbed, and the PI controller receives the deviation between the output and the set point, and then controls the reactor to form PI feedback control. In Figure 2(c), the ANN feedforward control is combined with the PI feedback control, and the reactor is controlled by both the ANN controller and the PI controller to form the ANN-based PI hybrid control. The specific parameters of the three control strategies are shown in Table 1.