基于 ICEEMDAN-FA-BiLSTM-GM 组合模型的股票收盘价预测

IF 3.1 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Lewei Xie, Ruibo Wan, Yuxin Wang, Fangjian Li
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引用次数: 0

摘要

股票价格预测的准确性对投资决策和风险管理具有重要意义。然而,股票价格的复杂性和波动性对传统预测方法的准确性提出了挑战。为了提高股价预测的准确性,本文提出了一种基于 ICEEMDAN-FA-BiLSTM-GM 的复杂组合预测方法。本文构建了一个全面有效的指标体系,涵盖了影响股价的传统因素、市场情绪、宏观经济指标和公司财务数据等 60 个指标。在数据预处理阶段,为了消除噪声的影响,首先使用 ICEEMDAN 方法对股票收盘价格序列进行分解,根据各自的频率将其有效地分为高频成分和低频成分。随后,利用 LLE 技术缩小剩余指标的范围,得到 9 个缩小后的特征。最后,每个高频子序列分别与所有降维特征相结合,构建新的指标集输入模型。在预测阶段,使用 FA 算法确定了每个子序列预测模型的超参数。采用 BiLSTM 和 GM 预测方法分别对高频和低频成分进行预测。最后,将各子序列的预测结果进行叠加,得出最终的股价预测值。本文利用上海综合指数等股价数据进行了实证研究。实验结果表明,基于 ICEEMDAN-FA-BiLSTM-GM 建立的股价预测模型与传统方法和其他组合预测方法相比,在预测精度和稳定性方面具有明显优势。该模型可以提供更准确的股价预测,促进投资决策的合理性和风险控制的准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Stock closing price prediction based on ICEEMDAN-FA-BiLSTM–GM combined model

Stock closing price prediction based on ICEEMDAN-FA-BiLSTM–GM combined model

The accuracy of stock price forecasting is of great significance in investment decision-making and risk management. However, the complexity and fluctuation of stock prices challenge the traditional forecasting methods to achieve the best accuracy. To improve the accuracy of stock price prediction, a sophisticated combination prediction method based on ICEEMDAN-FA-BiLSTM–GM has been proposed in this article. In this paper, a comprehensive and effective indicator system is constructed, covering 60 indicators such as traditional factors, market sentiment, macroeconomic indicators and company financial data, which affect stock prices. In the data preprocessing stage, in order to eliminate the influence of noise, the stock closing price series is first decomposed by using the ICEEMDAN method, which effectively divides them into high-frequency and low-frequency components according to their respective frequencies. Subsequently, LLE technique is used to narrow down the remaining indicators to obtain 9 narrowed features. Finally, each high-frequency subsequence is combined with all the dimensionality reduction features respectively to construct new indicator sets for input to the model. In the prediction stage, the hyperparameters of the prediction model for each subseries have been determined using the FA algorithm. The prediction has been carried out separately for the high-frequency and low-frequency components, employing the BiLSTM and GM prediction methods. Ultimately, the prediction results of each subseries have been superimposed to obtain the final stock price prediction value. In this paper, an empirical study was conducted using stock price data such as Shanghai composite index. The experimental results show that the established stock price prediction model based on ICEEMDAN-FA-BiLSTM–GM has obvious advantages in terms of prediction accuracy and stability compared with traditional methods and other combined prediction methods. This model can provide more accurate stock price prediction and promote the rationalization of investment decision and the accuracy of risk control.

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来源期刊
International Journal of Machine Learning and Cybernetics
International Journal of Machine Learning and Cybernetics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
7.90
自引率
10.70%
发文量
225
期刊介绍: Cybernetics is concerned with describing complex interactions and interrelationships between systems which are omnipresent in our daily life. Machine Learning discovers fundamental functional relationships between variables and ensembles of variables in systems. The merging of the disciplines of Machine Learning and Cybernetics is aimed at the discovery of various forms of interaction between systems through diverse mechanisms of learning from data. The International Journal of Machine Learning and Cybernetics (IJMLC) focuses on the key research problems emerging at the junction of machine learning and cybernetics and serves as a broad forum for rapid dissemination of the latest advancements in the area. The emphasis of IJMLC is on the hybrid development of machine learning and cybernetics schemes inspired by different contributing disciplines such as engineering, mathematics, cognitive sciences, and applications. New ideas, design alternatives, implementations and case studies pertaining to all the aspects of machine learning and cybernetics fall within the scope of the IJMLC. Key research areas to be covered by the journal include: Machine Learning for modeling interactions between systems Pattern Recognition technology to support discovery of system-environment interaction Control of system-environment interactions Biochemical interaction in biological and biologically-inspired systems Learning for improvement of communication schemes between systems
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