针对系统较为复杂的核电站稳压器,在生物神经内分泌腺体激素调节的原理上,设计了一种包含长反馈和超短反馈的双层控制器.在内模和滑模复合控制系统中,内模控制器即内分泌单神经元PID负责控制系统的跟踪性能,滑模控制器负责消除系统的干扰.引入模糊控制整定单神经元PID的输出增益,建立稳压器压力和水位控制的仿真模型.结果表明:内分泌变增益单神经元滑模的控制器相较于传统PID控制器具有更加优良的性能. In view of the more complex nuclear power station regulator, a bi-layer controller with long feedback and ultra-short feedback is designed on the principle of bio-neuroendocrine gland hormones regulation.In the internal control and sliding mode control systems, The internal model controller, endocrine single neuron PID, is responsible for controlling the tracking performance of the system, and the sliding mode controller is responsible for eliminating the system disturbance. The introduction of fuzzy control adjusts the output gain of single neuron PID and establishes the simulation model of pressure and water level control The results show that the single neuron sliding mode controller with endocrine gain has more excellent performance than the traditional PID controller.