使用cnn和迁移学习的深度假图像检测

2021 International Conference on Computing, Communication and Green Engineering (CCGE) Pub Date : 2021-09-23 DOI:10.1109/CCGE50943.2021.9776410

Niteesh Kumar, Pranav P, Vishal Nirney, G. V.

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引用次数: 4

摘要

深度学习的进步使欺诈性数字内容的创建变得容易。这种伪造的数字内容与原始数字内容完全无法区分。这种紧密的同一性足以造成大破坏。这种欺诈性的数字内容，俗称deepfakes，具有改变真相和腐蚀信仰的潜力，可以在大规模甚至我们的日常生活中留下印象。Deepfake由两个词组成，第一个是deep(深度学习)，第二个是fake(虚假的数字内容)。人工智能构成了任何深度伪造配方技术的核心，使其能够通过学习避开大多数深度伪造检测技术。深度伪造的这种学习和躲避检测技术的能力是一个值得关注的问题。在这项研究工作中，我们将重点放在深度假图像的检测上。我们采用两种方法进行深度伪造图像检测，第一种方法是建立一个基于自定义CNN的深度学习网络来检测深度伪造图像，第二种方法是使用迁移学习的概念。

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Deepfake Image Detection using CNNs and Transfer Learning

Headways in deep learning has enabled the creation of fraudulent digital content with ease. This fraudulent digital content created is entirely indistinguishable from the original digital content. This close identicalness has what it takes to cause havoc. This fraudulent digital content, popularly known as deepfakes having the potential to change the truth and decay faith, can leave impressions on a large scale and even our daily lives. Deepfake is composed of two words, the first being deep: deep learning and the second being fake: fake digital content. Artificial intelligence forming the nucleus of any deepfake formulation technology empowers it to dodge most of the deepfake detection techniques through learning. This ability of deepfakes to learn and elude detection technologies is a matter of significant concern. In this research work, we focus on our efforts towards the detection of deepfake images. We follow two approaches for deepfake image detection, and the first is to build a custom CNN based deep learning network to detect deepfake images, and the second is to use the concept of transfer learning.

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来源期刊

2021 International Conference on Computing, Communication and Green Engineering (CCGE)

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