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Time Series Forecasting of Bitcoin Price Based on Autoregressive Integrated Moving Average and Machine Learning Approaches

Majid Khedmati, Farid Seifi, Mohammad Javad Azizi

2020International Journal of Engineering15 citationsDOI

Abstract

Bitcoin as the current leader in cryptocurrencies is a new asset class receiving significant attention in the financial and investment community and presents an interesting time series prediction problem. In this paper, some forecasting models based on classical like ARIMA and machine learning approaches including Kriging, Artificial Neural Network (ANN), Bayesian method, Support Vector Machine (SVM) and Random Forest (RF) are proposed and analyzed for modelling and forecasting the Bitcoin price. While some of the proposed models are univariate, the other models are multivariate and as a result, the maximum, minimum and the opening daily price of Bitcoin are also used in these models. The proposed models are applied on the Bitcoin price from December 18, 2019 to March 1, 2020 and their performances are compared in terms of the performance measures of RMSE and MAPE by Diebold-Mariano statistical test. Based on RMSE and MAPE measures, the results show that SVM provides the best performance among all the models. In addition, ARIMA and Bayesian approaches outperform other univariate models where they provide smaller values for RMSE and MAPE.

Topics & Concepts

Autoregressive integrated moving averageUnivariateMean squared errorSupport vector machineComputer scienceArtificial neural networkArtificial intelligenceMachine learningAutoregressive modelMean absolute percentage errorRandom forestBayesian probabilityTime seriesEconometricsSeries (stratigraphy)Multivariate statisticsStatisticsMathematicsPaleontologyBiologyBlockchain Technology Applications and SecurityStock Market Forecasting MethodsCurrency Recognition and Detection
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