Classification of recyclable waste using deep learning architectures

A. Sevinç, Fatih Ozyurt
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Abstract

Managing waste in big cities is a big problem. Wastes are dangerous in terms of causing environmental pollution and affecting human health. In particular, solid wastes such as glass and plastic do not dissolve in the soil for a long time and pollute the environment. By recycling such solid wastes, the surrounding waste can be reduced. Therefore, it is important to classify waste and to recycle the separated waste. In this study, a data set consisting of 22500 waste images was used. The data set contains color image data with a size of 227 x 227 pixels. The data used in the study are divided into two as organic and recyclable waste. This study proposes a deep learning-based system for classifying waste. With such a system, wastes can be classified and recycled. The data was trained with the ResNet 50 architecture and the CNN architecture created to classify waste, and accuracy rates were compared. The CNN architecture created to classify waste is more successful for this data set with an accuracy rate of 91.84%.
利用深度学习架构对可回收垃圾进行分类
处理大城市的垃圾是一个大问题。废物在造成环境污染和影响人类健康方面是危险的。特别是玻璃、塑料等固体废弃物,不长期溶于土壤,污染环境。通过回收这些固体废物,可以减少周围的废物。因此,对垃圾进行分类和回收是很重要的。在本研究中,使用了由22500张垃圾图像组成的数据集。该数据集包含大小为227 x 227像素的彩色图像数据。研究中使用的数据分为有机废物和可回收废物两类。本研究提出一种基于深度学习的垃圾分类系统。有了这样一个系统,废物可以分类和回收。使用ResNet 50架构和CNN架构对数据进行训练,并比较准确率。对于该数据集,创建的用于垃圾分类的CNN架构更为成功,准确率为91.84%。
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