基于深度学习的图像拼接篡改检测

传统图像拼接检测算法通过研究人员手动构造拼接特征，随着科技的进步以及图像处理技术的不断发展，手动构造特征的局限性逐渐体现出来，鲁棒性较弱，位置不易确定等。为了解决这些问题，构建了一种卷积神经网络（CNN），将卷积核前置并固定，自主学习相关特征从而检测拼接篡改的图像区域。经过一系列研究，发现拼接篡改图像的拼接篡改区域特征可以被CNN模型学习。在CNN模型之前，卷积核使用高通滤波器，激活函数采用指数线性单元（ELU），使得CNN模型具有识别拼接篡改图像边缘痕迹等特征的能力。检测结果表明:在IEEE IFS-TC图像拼接取证竞赛训练集上对拼接篡改图像拼接篡改区域定位的准确率为84.3%，对拼接篡改区域判定的真负类率为96.18%。 

Image mosaic tampering detection based on deep learning

The traditional image stitching detection algorithm manually constructs the stitching features by researchers. With the advancement of technology and the continuous development of image processing technology, the limitations of the features of manual construction, such as weak robustness and difficult positioning, are gradually manifested. Aimed at this kind of problem, this paper proposes to construct a Convolutional Neural Network (CNN) by means of fixed pre-convolution kernel, and detect the image tampering area by feature self-learning. Through experiments and research, it is found that the features of the mosaic tampering area of the spliced tamper image can be learned by the CNN model. Prior to the CNN model, the convolution kernel uses a high-pass filter and the activation function uses an Exponential Linear Unit (ELU), which makes the CNN model be capable of identifying features such as splicing and tampering with image edge traces. The detection results show that the positioning accuracy for the falsification image's tampering area is 84.3% in the IEEE IFS-TC image forensics training set and the detection true negative rate of the tampering area is 96.18%.