Alexander Vlasenko scite author profile

Alexander Vlasenko

3Publications

23Citation Statements Received

79Citation Statements Given

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Affiliations

Kharkiv National University of Radio Electronics, V. N. Karazin Kharkiv National University

Publications

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A Novel Ensemble Neuro-Fuzzy Model for Financial Time Series Forecasting

Vlasenko

Vynokurova

et al. 2019

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Neuro-fuzzy models have a proven record of successful application in finance. Forecasting future values is a crucial element of successful decision making in trading. In this paper, a novel ensemble neuro-fuzzy model is proposed to overcome limitations and improve the previously successfully applied a five-layer multidimensional Gaussian neuro-fuzzy model and its learning. The proposed solution allows skipping the error-prone hyperparameters selection process and shows better accuracy results in real life financial data.

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A Hybrid Neuro-Fuzzy Model for Stock Market Time-Series Prediction

Vlasenko

Vynokurova

Vlasenko

et al. 2018

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In this paper we propose a hybrid five-layer neuro-fuzzy model and a corresponding learning algorithm with application in stock market time-series prediction tasks. The key difference between classical ANFIS architecture and the proposed model is in the fourth layer-multidimensional Gaussian functions are used instead of polynomials in order to achieve better computational performance and representational abilities in processing highly nonlinear volatile data. The experimental results have shown the clear advantages of the described model and its learning.

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A Novel Neuro-Fuzzy Model for Multivariate Time-Series Prediction

Vlasenko

Vynokurova

et al. 2018

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Time series forecasting can be a complicated problem when the underlying process shows high degree of complex nonlinear behavior. In some domains, such as financial data, processing related time-series jointly can have significant benefits. This paper proposes a novel multivariate hybrid neuro-fuzzy model for forecasting tasks, which is based on and generalizes the neuro-fuzzy model with consequent layer multi-variable Gaussian units and its learning algorithm. The model is distinguished by a separate consequent block for each output, which is tuned with respect to the its output error only, but benefits from extracting additional information by processing the whole input vector including lag values of other variables. Numerical experiments show better accuracy and computational performance results than competing models and separate neuro-fuzzy models for each output, and thus an ability to implicitly handle complex cross correlation dependencies between variables.

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