基于神经网络的多维非线性景观设计

Yang Chen, Yihuai Xie
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引用次数: 0

摘要

为了提高景观设计的效果,本文在传统多维非线性景观设计和RBF神经网络的基础上,提出并设计了一种基于神经网络的多维非线性景观设计方法。首先,设置相机参数,由无人机采集景观图像,并对采集到的景观图像进行分割;根据不同的分类标准提取景观图像特征,并将特征信息作为训练样本对神经网络进行训练。最后对景观设计参数进行拟合,输出景观设计模型的结果。实验结果表明,该方法比其他两种传统的景观图像分类算法具有更好的分类精度。在不同的实验中,该方法的景观图像分类准确率保持在85%以上,而其他两种方法的分类准确率较低。此外,该方法的回归分析值和检验值也表现良好。最后,给定一个有噪声的图像,发现文本方法可以有效地去除景观设计图像中的噪声,使图像呈现更清晰的景观布局。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neural network based multi-dimensional and nonlinear landscape design
In order to improve the effect of landscape design, based on the traditional multi-dimensional nonlinear landscape design and RBF neural network, this paper proposes and designs a multi-dimensional nonlinear landscape design method based on neural network. Firstly, the camera parameters are set, the landscape images are collected by UAV, and the collected landscape images are segmented. Landscape image features are extracted according to different classification criteria, and the feature information is used as training samples to train the neural network. Finally, the landscape design parameters are fitted and the results of the landscape design model are output. The experimental results show that the proposed method has better classification accuracy than the other two traditional landscape image classification algorithms. In different experiments, the landscape image classification accuracy of this method is kept above 85%, while the other two methods are lower. In addition, the regression analysis value and test value of this method also perform well. Finally, given a noisy image, it is found that the text method can effectively remove the noise in the landscape design image, making the image present a clearer landscape layout.
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