基于深度神经网络和主成分分析的房地产价格预测

F. Mostofi, V. Toğan, H. B. Başağa
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引用次数: 2

摘要

摘要尽管深度神经网络(DNN)模型应用广泛,但由于预测精度低和数据集维数高,其在小型房地产价格预测中的应用受到限制。这项研究促使小型房地产中介机构利用可用的本地数据集做出DNN驱动的决策。为了提高房地产价格数据集的高维性,从而提高DNN模型的价格预测精度,本文采用了主成分分析(PCA)。PCA在提高DNN模型预测精度方面有三个好处:降维、数据集转换和有影响力的价格特征的本地化。结果表明,通过PCA-DNN模型,与其他基准价格预测因子相比,转换后的数据集实现了更高的准确性(90%-95%)和更好的泛化能力。事实证明,空间和建筑年代对决定整体房地产价格的影响最大。PCA的应用不仅降低了数据集的高维性,而且提高了编码特征属性的质量。该模型在房地产和建筑应用中是有益的,因为缺乏中大型数据集会降低价格预测的准确性。
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Real-estate price prediction with deep neural network and principal component analysis
Abstract Despite the wide application of deep neural networks (DNN) models, their application over small-sized real-estate price prediction is limited due to the reduced prediction accuracy and the high-dimensionality of the dataset. This study motivates small-sized real-estate agencies to take DNN-driven decisions using the available local dataset. To improve the high-dimensionality of real-estate price datasets and thus enhance the price-prediction accuracy of a DNN model, this paper adopts principal component analysis (PCA). The PCA benefits in improving the prediction accuracy of a DNN model are threefold: dimensionality reduction, dataset transformation and localisation of influential price features. The results indicate that, through the PCA-DNN model, the transformed dataset achieves higher accuracy (90%–95%) and better generalisation ability compared with other benchmark price predictors. The spatial and building age proved to have the most impact in determining the overall real-estate price. The application of PCA not only reduces the high-dimensionality of the dataset but also enhances the quality of the encoded feature attributes. The model is beneficial in real-estate and construction applications, where the absence of medium and big datasets decreases the price-prediction accuracy.
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来源期刊
CiteScore
3.10
自引率
0.00%
发文量
8
审稿时长
16 weeks
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