Deep Clustering with Reinforcement Strategy

The 2nd European Symposium on Computer and Communications Pub Date : 2021-04-16 DOI:10.1145/3478301.3478311

Chenxin Liu

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Abstract

Deep clustering learns deep feature representations that solve clustering tasks with a deep autoencoder. However, blurred clustering is inevitable due to the lack of overall clustering environment information, which means that no significant differences were observed between clusters. To address this issue, we propose a memory enhanced model for deep clustering with reinforcement strategy, where a Memory Cell is introduced as a storage unit for surrounding imformation. Specifically, the whole process of the model is divided into three parts. Firstly, the original high-dimensional image data is mapped to latent feature space thorugh the pre-training process, and the latent feature representation is obtained and stored in Memory Cell. Secondly, the traditional K-means algorithm is applied to initialize the clustering center on the latent representation. Finally, the reward regression strategy in reinforcement learning based on the Bernoulli distribution is adopted to fine-tune the results. ACC, ARI and NMI as evaluation metrics, the proposed model shows its competitiveness on MNIST and Fashion-MNIST dataset against recent state-of-art models.

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基于强化策略的深度聚类

深度聚类学习使用深度自编码器解决聚类任务的深度特征表示。然而，由于缺乏整体聚类环境信息，聚类模糊是不可避免的，这意味着聚类之间没有明显的差异。为了解决这个问题，我们提出了一个带有强化策略的深度聚类的记忆增强模型，其中引入了一个记忆单元作为周围信息的存储单元。具体来说，模型的整个过程分为三个部分。首先，通过预训练过程将原始高维图像数据映射到潜在特征空间，得到潜在特征表示并存储在Memory Cell中;其次，采用传统的K-means算法对潜在表示初始化聚类中心;最后，采用基于伯努利分布的强化学习奖励回归策略对结果进行微调。ACC, ARI和NMI作为评估指标，所提出的模型在MNIST和Fashion-MNIST数据集上与最近的最先进模型相比具有竞争力。

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The 2nd European Symposium on Computer and Communications

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