基于降维的生成对抗性网络分类数据集生成

Narendra Gopal, Sivakumar D
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引用次数: 0

摘要

术语数据增强指的是一种可用于防止训练数据集中过拟合的方法,这是问题首先表现出来的地方。这是基于一个假设,即额外的数据集可以通过包含有用的新信息来改进。利用数据翘曲和过采样等方法人工创建更大的训练数据集是可行的。这将允许创建更精确的模型。这一想法通过各种不同方法的应用得到了证明,其中一些方法包括神经风格转移、对抗性训练和随机擦除等。通过利用过采样增强,可以创建可以合并到训练数据中的合成实例。这可以通过生成合成实例来实现。这方面有许多例子,包括图像合并、特征空间增强和生成对抗网络(gan)等。在本文中,我们的目标是提供证据,证明生成对抗网络可以用于将常规图像转换为高光谱图像(HSI)。该模型的目的是通过包含一定量的不可预测的噪声来生成数据。
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DIMENSIONALITY REDUCTION BASED CLASSIFICATION USING GENERATIVE ADVERSARIAL NETWORKS DATASET GENERATION
The term data augmentation refers to an approach that can be used to prevent overfitting in the training dataset, which is where the issue first manifests itself. This is based on the assumption that extra datasets can be improved by include new information that is of use. It is feasible to create an artificially larger training dataset by utilizing methods such as data warping and oversampling. This will allow for the creation of more accurate models. This idea is demonstrated through the application of a variety of different methods, some of which include neural style transfer, adversarial training, and erasure by random erasure, amongst others. By utilizing oversampling augmentations, it is feasible to create synthetic instances that can be incorporated into the training data. This is made possible by the generation of synthetic instances. There are numerous illustrations of this, including image merging, feature space enhancements, and generative adversarial networks, to name a few (GANs). In this paper, we aim to provide evidence that a Generative Adversarial Network can be used to convert regular images into Hyper Spectral Images (HSI). The purpose of the model is to generate data by including a certain amount of unpredictable noise.
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DIMENSIONALITY REDUCTION BASED CLASSIFICATION USING GENERATIVE ADVERSARIAL NETWORKS DATASET GENERATION ADVANCED COLOR COVERT IMAGE SHARING USING ARNOLD CAT MAP AND VISUAL CRYPTOGRAPHY STREETLIGHT OBJECTS RECOGNITION BY REGION AND HISTOGRAM FEATURES IN AN AUTONOMOUS VEHICLE SYSTEM SMART GESTURE USING REAL TIME OBJECT TRACKING CLASSIFICATION OF BRAIN TUMOR USING BEES SWARM OPTIMISATION
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