Utilizing Transfer Learning on Landscape Image Classification Using the VGG16 Model

Abubakar MAYANJA, İlker Ali ÖZKAN, Şakir TAŞDEMİR
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Abstract

In recent times, the need for the use of image classification techniques of machine learning to solve worldly problems in various areas such as agriculture, the health sector, and tourism is rocketing up day by day. Traditionally, one of the most used techniques in image classification is the use of deep neural networks called convolution neural networks (CNN). To come up with a good network model, one needs to have an enormous quantity of data in the form of images and design a network model from scratch in a trial-and-error way. This not only takes a lot of time but also requires very powerful computation equipment such as graphical processing units (GPU). To overcome such barriers, a machine learning technique called transfer learning enables the use of already trained network models in the form of fine-tuning them to solve related issues. In this work, the 2014 ImageNet winner model called Vgg16 was adopted to classify landscape images in the Intel dataset. The dataset contains 5 categories of images namely buildings, forest, glacier, mountain, sea, and street. The performance of Vgg16 was compared to that of a 7-layer ordinary convolution neural network and the results showed that transfer learning with Vgg16 outperformed the ordinary network by 90.1% for Vgg16 compared to 62.5% for the ordinary convolutional neural network model.
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基于VGG16模型的景观图像分类迁移学习
近年来,利用机器学习的图像分类技术来解决农业、卫生部门、旅游等各个领域的现实问题的需求日益增加。传统上,图像分类中最常用的技术之一是使用称为卷积神经网络(CNN)的深度神经网络。为了得到一个好的网络模型,需要有大量的图像形式的数据,并以试错的方式从零开始设计一个网络模型。这不仅需要大量的时间,而且需要非常强大的计算设备,如图形处理单元(GPU)。为了克服这些障碍,一种被称为迁移学习的机器学习技术能够以微调的形式使用已经训练好的网络模型来解决相关问题。在这项工作中,采用2014年ImageNet获胜者模型Vgg16对英特尔数据集中的景观图像进行分类。该数据集包含5类图像,即建筑物、森林、冰川、山脉、海洋和街道。将Vgg16的性能与7层普通卷积神经网络的性能进行比较,结果表明,Vgg16的迁移学习性能比普通卷积神经网络模型的迁移学习性能高出90.1%,而普通卷积神经网络模型的迁移学习性能高出62.5%。
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