End-To-End Gender Determination by Images of an Human Eye

Remittances Review Pub Date : 2022-11-19 DOI:10.47059/rr.v7i1.2406

Yasaswini Paladugu, Dr. Ramesh Sekaran

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Abstract

For immediate gender classification based on face eye images, a convolutional neural network (CNN) is presented. The suggested architecture has much less design complexity than previous CNN systems used for pattern recognition. With the use of computer vision, we can train a computer to recognize and classify things in the physical world. In this view, computer vision entails developing mathematical models that can simulate how a human's visual system and brain work. The goal is to teach computers how to recognize objects in pictures and movies. The science of computer vision and imaging makes extensive use of CNNs, a type of deep neural network. Object recognition, picture labeling, and similarity grouping are all possible with the help of convolutional neural networks (CNNs). The Sequential model will be our starting point. Last but not least, CNN is constructed using a number of layers, including an input layer, an output layer, and multiple hidden layers. Additionally, fully connected layers, convolutional, an activation function layer (typically ReLU or Softmax), normalisation layers, and pooling layers are all included in a CNN's hidden layers. This network was trained with a Sequential model, binary cross volatility as the loss function, and RMSProp as the operator. Dphi data set, which contains around 9000 pictures, is used to evaluate the suggested CNN solution. As a result of our efforts, we are able to attain a 95.78% success rate in In less than 0.27 milliseconds, a neural network can analyze and label a 32 x 32 pixel facial image, giving it the ability to scan more than 3700 images per second. A training converges within 5 epochs. These findings demonstrate that the suggested CNN is a viable method for instantaneous gender recognition.

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人眼图像的端到端性别测定

为了基于人脸眼睛图像的即时性别分类，提出了一种卷积神经网络(CNN)。所建议的架构比以前用于模式识别的CNN系统的设计复杂性要低得多。通过使用计算机视觉，我们可以训练计算机识别和分类物理世界中的事物。在这种观点中，计算机视觉需要开发数学模型来模拟人类视觉系统和大脑的工作方式。目标是教计算机如何识别图片和电影中的物体。计算机视觉和成像科学广泛使用cnn，这是一种深度神经网络。在卷积神经网络(cnn)的帮助下，物体识别、图片标记和相似性分组都是可能的。顺序模型将是我们的起点。最后但并非最不重要的是，CNN是使用许多层构建的，包括输入层，输出层和多个隐藏层。此外，全连接层、卷积层、激活函数层(通常是ReLU或Softmax)、规范化层和池化层都包含在CNN的隐藏层中。该网络采用时序模型，二元交叉波动作为损失函数，RMSProp作为算子进行训练。Dphi数据集包含大约9000张图片，用于评估建议的CNN解决方案。由于我们的努力，我们能够在不到0.27毫秒的时间内达到95.78%的成功率，神经网络可以分析和标记32 x 32像素的面部图像，使其能够每秒扫描超过3700张图像。一次训练在5个周期内收敛。这些发现表明，所建议的CNN是一种可行的即时性别识别方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Remittances Review

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