The paper explores the performance of various artificial neural network architectures in pricing European call options on the S&P 500 (SPX) and NASDAQ 100 (NDX) indices. The authors use supervised learning methods, such as ANNs, KANs, and gradient-boosted decision trees (XGBoost), to approximate the complex multivariate functions required to calibrate option prices based on past market data.
The key highlights and insights are:
The authors use options data from 2015-2023 with times to maturity ranging from 15 days to over 4 years, and compare the performance of the neural network models to the traditional Black-Scholes (BS) model.
The BS model is found to underperform compared to all the other models tested. The best TDNN model outperforms the best MLP model on all error metrics.
The authors implement a simple self-attention mechanism to enhance the RNN models, which significantly improves their performance. The best-performing model overall is the LSTM-GRU hybrid RNN model with attention.
The KAN model also outperforms the TDNN and MLP models. The authors analyze the performance of all models by ticker, moneyness category, and over/under/correctly-priced percentage.
Due to some of the errors being complementary in the sense of having opposite percent over-priced and under-priced for some moneyness categories, the authors suggest investigating the ensembling of the best models.
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by Boris Ter-Av... о arxiv.org 09-12-2024
https://arxiv.org/pdf/2409.06724.pdfГлибші Запити