针对不完整多视图聚类的数据完成指导的统一图学习

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Knowledge Discovery from Data Pub Date : 2024-05-09 DOI:10.1145/3664290
Tianhai Liang, Qiangqiang Shen, Shuqin Wang, Yongyong Chen, Guokai Zhang, Junxin Chen
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引用次数: 0

摘要

多视图数据因其异构特性,在提高性能方面比单视图数据受到广泛关注。遗憾的是,由于一些不可控因素,有些实例可能只有部分可用信息,为此提出了不完整多视图聚类(IMVC)问题。IMVC 的目的是利用多视图数据的异质性,克服数据丢失的困难,将未标记的不完整多视图数据划分为各自的聚类。然而,现有的大多数 IMVC 方法,如 BSV、MIC、OMVC 和 IVC,往往只对输入数据进行基本的完成处理,而没有利用样本之间的相关性和信息冗余。为了克服上述问题,我们提出了一种新颖的 IMVC 方法,名为 "数据补全指导的统一图学习(DCUGL)",它可以补全缺失视图的数据,并将多个学习到的特定视图相似性矩阵融合为一个统一图。具体来说,我们首先降低输入数据的维度,以学习多个特定视图的相似性矩阵。通过堆叠所有特定视图的相似性矩阵,DCUGL 构建了一个具有低阶约束的三阶张量,从而可以很好地探索视图内部和视图之间的样本相关性。最后,DCUGL 将原始数据分为观察到的数据和未观察到的数据,根据视图特有的相似性矩阵推断并补全缺失的数据,得到统一的图,可直接用于聚类。为了求解所提出的模型,我们设计了一种基于交替乘法(ADMM)框架的迭代算法。通过在六个具有挑战性的数据集上进行基准测试,证明与最先进的 IMVC 方法相比,所提出的模型更胜一筹。
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Data Completion-guided Unified Graph Learning for Incomplete Multi-View Clustering

Due to its heterogeneous property, multi-view data has been widely concerned over single-view data for performance improvement. Unfortunately, some instances may be with partially available information because of some uncontrollable factors, for which the incomplete multi-view clustering (IMVC) problem is raised. IMVC aims to partition unlabeled incomplete multi-view data into their clusters by exploiting the heterogeneity of multi-view data and overcoming the difficulty of data loss. However, most existing IMVC methods like BSV, MIC, OMVC, and IVC tend to conduct basic completion processing on the input data, without taking advantage of the correlation between samples and information redundancy. To overcome the above issue, we propose one novel IMVC method named Data Completion-guided Unified Graph Learning (DCUGL), which could complete the data of missing views and fuse multiple learned view-specific similarity matrices into one unified graph. Specifically, we first reduce the dimension of the input data to learn multiple view-specific similarity matrices. By stacking all view-specific similarity matrices, DCUGL constructs a third-order tensor with the low-rank constraint, such that sample correlation within and between views can be well explored. Finally, by dividing the original data into observed data and unobserved data, DCUGL can infer and complete the missing data according to the view-specific similarity matrices, and obtain a unified graph, which can be directly used for clustering. To solve the proposed model, we design an iterative algorithm, which is based on the alternating direction method of multipliers (ADMM) framework. The proposed model proves to be superior by benchmarking on six challenging datasets compared with state-of-the-art IMVC methods.

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来源期刊
ACM Transactions on Knowledge Discovery from Data
ACM Transactions on Knowledge Discovery from Data COMPUTER SCIENCE, INFORMATION SYSTEMS-COMPUTER SCIENCE, SOFTWARE ENGINEERING
CiteScore
6.70
自引率
5.60%
发文量
172
审稿时长
3 months
期刊介绍: TKDD welcomes papers on a full range of research in the knowledge discovery and analysis of diverse forms of data. Such subjects include, but are not limited to: scalable and effective algorithms for data mining and big data analysis, mining brain networks, mining data streams, mining multi-media data, mining high-dimensional data, mining text, Web, and semi-structured data, mining spatial and temporal data, data mining for community generation, social network analysis, and graph structured data, security and privacy issues in data mining, visual, interactive and online data mining, pre-processing and post-processing for data mining, robust and scalable statistical methods, data mining languages, foundations of data mining, KDD framework and process, and novel applications and infrastructures exploiting data mining technology including massively parallel processing and cloud computing platforms. TKDD encourages papers that explore the above subjects in the context of large distributed networks of computers, parallel or multiprocessing computers, or new data devices. TKDD also encourages papers that describe emerging data mining applications that cannot be satisfied by the current data mining technology.
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