A variable structure control method based on T-S fuzzy neural network (FNN) is brought forward.
提出基于T - S模糊神经网络的变结构控制方法。
In order to solve the difficult modeling problem of the lithopone calcination process, this paper proposes an adaptive neural fuzzy inference systems (ANFIS) modeling method based on t s model.
针对锌钡白干燥煅烧过程建模难的问题,提出了一种基于T S模型的自适应神经模糊推理系统(ANFIS)建模方法。
A direct inverse model controller of fuzzy neural network with changeable structure based on t s inference is presented in this paper and it is used to the motion control of mobile robot.
本文提出一种基于T -S模型的变结构模糊神经网络直接逆模型控制器,并将其应用于移动机器人的运动控制中。
This paper introduced firstly the basic knowledge of fuzzy logic and neural network, then the network structure and algorithm of the standard T-S fuzzy neural network were presented.
本文首先介绍了模糊逻辑和神经网络的基本知识,并由此给出了标准的T - S模糊神经网络的网络结构及算法。
T-S fuzzy neural network not only has the advantage of fuzzy logic and the neural networks, but also has good learning ability.
基于T - s模型的模糊神经网络不但具有模糊逻辑和神经网络两者的优点,又具有很好的学习能力。
The t-test result showed that the prediction value agreed with the observation data fairly well and the BP neural network model had rather high prediction precision.
t检验结果表明,BP神经网络训练和预测得到的模拟值与实测值之间吻合很好,该方法具有较高的预测精度。
A fuzzy neural network in t s model is constructed. Chaotic mechanism is introduced into the normal BP algorithm to train the weight parameters of the fuzzy neural networks.
出一种T -S模型的模糊神经网络,在通常BP算法的基础上,引进混沌机制来训练模糊神经网络的权值参数。
RUNX3, a member of RUNX family, plays important roles in the regulation of gastric epithelial growth, dorsal ganglion neural development and differentiation of t cells.
RUNX3基因是RUNX转录因子家族成员之一,其在胃黏膜上皮生长调控、脊神经节的神经发育和T细胞分化过程中发挥重要作用。
The paper introduces a kind of adaptive neural-fuzzy inference systems (ANFIS) based on T-S model to deal with the modeling problem of the complex soda carbonization process.
针对纯碱碳化过程的复杂建模问题,提出基于T-S模型的自适应神经模糊推理系统(ANFIS)的建模方法。
Moreover, T-S model is used to adjust the dynamic fuzzy rules by the latter neural network, which can improve the adaptability of the control system.
采用T - S模型,由后件网络动态调整模糊规则,提高控制系统的适应性。
The invention is of 'T'-shape, including a microplate, covered on the seam after cutting the skull or the neural plate, and is vertical with the seam.
本发明呈“T”型,包括一微型板,覆盖在颅骨或椎板切除后的骨缝上,并与骨缝垂直;
The invention is of 'T'-shape, including a microplate, covered on the seam after cutting the skull or the neural plate, and is vertical with the seam.
本发明呈“T”型,包括一微型板,覆盖在颅骨或椎板切除后的骨缝上,并与骨缝垂直;
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