Lee, S., Kim, J.-K., Kim, J., Kim, T., & Lee, J. (2024). HiPPO-KAN: Efficient KAN Model for Time Series Analysis. arXiv preprint arXiv:2410.14939.
This research paper introduces HiPPO-KAN, a novel model for time series analysis that aims to address the limitations of traditional methods in handling long sequences and capturing complex temporal dependencies. The study investigates the effectiveness of integrating HiPPO transformations with KAN for improved parameter efficiency, scalability, and predictive accuracy in time series forecasting.
The researchers developed HiPPO-KAN by combining the HiPPO framework, which encodes time series data into a fixed-dimensional coefficient vector, with KAN, which models the nonlinear relationships between these coefficients. They evaluated the model's performance on a BTC-USDT 1-minute futures dataset, comparing it against baseline models such as HiPPO-MLP, KAN, LSTM, and RNN using metrics like Mean Squared Error (MSE) and Mean Absolute Error (MAE). Additionally, they investigated the impact of a bottleneck layer on model efficiency and addressed the lagging problem often observed in time series forecasting models by modifying the loss function to operate directly on the coefficient vectors.
The experimental results demonstrate that HiPPO-KAN consistently outperforms the baseline models across various window sizes and prediction horizons, achieving superior accuracy with fewer parameters. The model's ability to maintain a constant parameter count regardless of sequence length highlights its parameter efficiency and scalability, making it suitable for handling long sequences. Furthermore, incorporating a bottleneck layer further enhances performance, suggesting that information bottleneck principles contribute to improved feature extraction and predictive capability. Addressing the lagging problem through a modified loss function significantly improves the model's responsiveness to sudden changes in the data.
The study concludes that HiPPO-KAN offers a powerful and efficient approach for time series analysis, particularly for long-range forecasting tasks. The integration of HiPPO and KAN provides a scalable solution that effectively captures complex temporal dependencies while maintaining interpretability. The findings suggest that HiPPO-KAN has the potential to advance time series forecasting across various domains, including financial modeling and climate prediction.
This research significantly contributes to the field of time series analysis by introducing a novel model that addresses key limitations of existing methods. The development of HiPPO-KAN provides researchers and practitioners with a more efficient and scalable tool for analyzing complex temporal data, potentially leading to more accurate predictions and better decision-making in various applications.
While the study demonstrates the effectiveness of HiPPO-KAN for univariate time series, future research could explore its extension to multivariate time series data by integrating it with Graph Neural Networks (GNNs). This integration could enable the model to capture dependencies and relationships between multiple variables, further enhancing its applicability to complex real-world scenarios.
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by SangJong Lee... : arxiv.org 10-22-2024
https://arxiv.org/pdf/2410.14939.pdfDaha Derin Sorular