Modeling of energy consumption(EC) and effluent quality(EQ) are very essential problems that need to be solved for the multiobjective optimal control in the wastewater treatment process(WWTP). To address this issue, a...Modeling of energy consumption(EC) and effluent quality(EQ) are very essential problems that need to be solved for the multiobjective optimal control in the wastewater treatment process(WWTP). To address this issue, a density peaks-based adaptive fuzzy neural network(DP-AFNN) is proposed in this study. To obtain suitable fuzzy rules, a DP-based clustering method is applied to fit the cluster centers to process nonlinearity.The parameters of the extracted fuzzy rules are fine-tuned based on the improved Levenberg-Marquardt algorithm during the training process. Furthermore, the analysis of convergence is performed to guarantee the successful application of the DPAFNN. Finally, the proposed DP-AFNN is utilized to develop the models of EC and EQ in the WWTP. The experimental results show that the proposed DP-AFNN can achieve fast convergence speed and high prediction accuracy in comparison with some existing methods.展开更多
文章针对生产过程中质量数据分布类型未知引起的传统质量控制图异常检测精度低的问题,提出结合支持向量数据描述(support vector data description,SVDD)和密度峰值聚类(density peaks clustering,DPC)的制造过程异常检测方法。采用DPC...文章针对生产过程中质量数据分布类型未知引起的传统质量控制图异常检测精度低的问题,提出结合支持向量数据描述(support vector data description,SVDD)和密度峰值聚类(density peaks clustering,DPC)的制造过程异常检测方法。采用DPC算法对质量特征数据进行聚类分析,将聚类结果作为模型输入训练得到各类超球体中心和决策边界;以此建立基于内核距离的DPC控制图,实现对生产过程质量波动的实时监控;最后将该控制图应用到再制造曲轴生产过程监控中。结果表明,该文提出的DPC控制图可以有效监测再制造曲轴生产过程质量异常波动,验证了该检测方法的可行性和有效性。展开更多
A method of environment mapping using laser-based light detection and ranging(LIDAR)is proposed in this paper.This method not only has a good detection performance in a wide range of detection angles,but also facilita...A method of environment mapping using laser-based light detection and ranging(LIDAR)is proposed in this paper.This method not only has a good detection performance in a wide range of detection angles,but also facilitates the detection of dynamic and hollowed-out obstacles.Essentially using this method,an improved clustering algorithm based on fast search and discovery of density peaks(CBFD)is presented to extract various obstacles in the environment map.By comparing with other cluster algorithms,CBFD can obtain a favorable number of clusterings automatically.Furthermore,the experiments show that CBFD is better and more robust in functionality and performance than the K-means and iterative self-organizing data analysis techniques algorithm(ISODATA).展开更多
密度峰值聚类(density peaks clustering,DPC)是一种基于密度的聚类算法,该算法可以直观地确定类簇数量,识别任意形状的类簇,并且自动检测、排除异常点.然而,DPC仍存在些许不足:一方面,DPC算法仅考虑全局分布,在类簇密度差距较大的数据...密度峰值聚类(density peaks clustering,DPC)是一种基于密度的聚类算法,该算法可以直观地确定类簇数量,识别任意形状的类簇,并且自动检测、排除异常点.然而,DPC仍存在些许不足:一方面,DPC算法仅考虑全局分布,在类簇密度差距较大的数据集聚类效果较差;另一方面,DPC中点的分配策略容易导致“多米诺效应”.为此,基于代表点(representative points)与K近邻(K-nearest neighbors,KNN)提出了RKNN-DPC算法.首先,构造了K近邻密度,再引入代表点刻画样本的全局分布,提出了新的局部密度;然后,利用样本的K近邻信息,提出一种加权的K近邻分配策略以缓解“多米诺效应”;最后,在人工数据集和真实数据集上与5种聚类算法进行了对比实验,实验结果表明,所提出的RKNN-DPC可以更准确地识别类簇中心并且获得更好的聚类结果.展开更多
基金supported by the National Science Foundation for Distinguished Young Scholars of China(61225016)the State Key Program of National Natural Science of China(61533002)
文摘Modeling of energy consumption(EC) and effluent quality(EQ) are very essential problems that need to be solved for the multiobjective optimal control in the wastewater treatment process(WWTP). To address this issue, a density peaks-based adaptive fuzzy neural network(DP-AFNN) is proposed in this study. To obtain suitable fuzzy rules, a DP-based clustering method is applied to fit the cluster centers to process nonlinearity.The parameters of the extracted fuzzy rules are fine-tuned based on the improved Levenberg-Marquardt algorithm during the training process. Furthermore, the analysis of convergence is performed to guarantee the successful application of the DPAFNN. Finally, the proposed DP-AFNN is utilized to develop the models of EC and EQ in the WWTP. The experimental results show that the proposed DP-AFNN can achieve fast convergence speed and high prediction accuracy in comparison with some existing methods.
文摘文章针对生产过程中质量数据分布类型未知引起的传统质量控制图异常检测精度低的问题,提出结合支持向量数据描述(support vector data description,SVDD)和密度峰值聚类(density peaks clustering,DPC)的制造过程异常检测方法。采用DPC算法对质量特征数据进行聚类分析,将聚类结果作为模型输入训练得到各类超球体中心和决策边界;以此建立基于内核距离的DPC控制图,实现对生产过程质量波动的实时监控;最后将该控制图应用到再制造曲轴生产过程监控中。结果表明,该文提出的DPC控制图可以有效监测再制造曲轴生产过程质量异常波动,验证了该检测方法的可行性和有效性。
基金Supported by the National Natural Science Foundation of China(61103157)
文摘A method of environment mapping using laser-based light detection and ranging(LIDAR)is proposed in this paper.This method not only has a good detection performance in a wide range of detection angles,but also facilitates the detection of dynamic and hollowed-out obstacles.Essentially using this method,an improved clustering algorithm based on fast search and discovery of density peaks(CBFD)is presented to extract various obstacles in the environment map.By comparing with other cluster algorithms,CBFD can obtain a favorable number of clusterings automatically.Furthermore,the experiments show that CBFD is better and more robust in functionality and performance than the K-means and iterative self-organizing data analysis techniques algorithm(ISODATA).
文摘密度峰值聚类(density peaks clustering,DPC)是一种基于密度的聚类算法,该算法可以直观地确定类簇数量,识别任意形状的类簇,并且自动检测、排除异常点.然而,DPC仍存在些许不足:一方面,DPC算法仅考虑全局分布,在类簇密度差距较大的数据集聚类效果较差;另一方面,DPC中点的分配策略容易导致“多米诺效应”.为此,基于代表点(representative points)与K近邻(K-nearest neighbors,KNN)提出了RKNN-DPC算法.首先,构造了K近邻密度,再引入代表点刻画样本的全局分布,提出了新的局部密度;然后,利用样本的K近邻信息,提出一种加权的K近邻分配策略以缓解“多米诺效应”;最后,在人工数据集和真实数据集上与5种聚类算法进行了对比实验,实验结果表明,所提出的RKNN-DPC可以更准确地识别类簇中心并且获得更好的聚类结果.