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Hauptverfasser: Buse, Rebekka, Görgen, Konstantin, Schienle, Melanie
Format: Preprint
Veröffentlicht: 2022
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2203.08224
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author Buse, Rebekka
Görgen, Konstantin
Schienle, Melanie
author_facet Buse, Rebekka
Görgen, Konstantin
Schienle, Melanie
contents We study the prediction of Value at Risk (VaR) for cryptocurrencies. In contrast to classic assets, returns of cryptocurrencies are often highly volatile and characterized by large fluctuations around single events. Analyzing a comprehensive set of 105 major cryptocurrencies, we show that Generalized Random Forests (GRF) (Athey, Tibshirani & Wager, 2019) adapted to quantile prediction have superior performance over other established methods such as quantile regression, GARCH-type and CAViaR models. This advantage is especially pronounced in unstable times and for classes of highly-volatile cryptocurrencies. Furthermore, we identify important predictors during such times and show their influence on forecasting over time. Moreover, a comprehensive simulation study also indicates that the GRF methodology is at least on par with existing methods in VaR predictions for standard types of financial returns and clearly superior in the cryptocurrency setup.
format Preprint
id arxiv_https___arxiv_org_abs_2203_08224
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Predicting Value at Risk for Cryptocurrencies With Generalized Random Forests
Buse, Rebekka
Görgen, Konstantin
Schienle, Melanie
Statistical Finance
Applications
We study the prediction of Value at Risk (VaR) for cryptocurrencies. In contrast to classic assets, returns of cryptocurrencies are often highly volatile and characterized by large fluctuations around single events. Analyzing a comprehensive set of 105 major cryptocurrencies, we show that Generalized Random Forests (GRF) (Athey, Tibshirani & Wager, 2019) adapted to quantile prediction have superior performance over other established methods such as quantile regression, GARCH-type and CAViaR models. This advantage is especially pronounced in unstable times and for classes of highly-volatile cryptocurrencies. Furthermore, we identify important predictors during such times and show their influence on forecasting over time. Moreover, a comprehensive simulation study also indicates that the GRF methodology is at least on par with existing methods in VaR predictions for standard types of financial returns and clearly superior in the cryptocurrency setup.
title Predicting Value at Risk for Cryptocurrencies With Generalized Random Forests
topic Statistical Finance
Applications
url https://arxiv.org/abs/2203.08224