Abstract
The algorithm to train artificial neural networks for intelligent decision support systems has been constructed. A distinctive feature of the proposed algorithm is that it conducts training not only for synaptic weights of an artificial neural network, but also for the type and parameters of membership function. In case of inability to ensure the assigned quality of functioning of artificial neural networks due to training of parameters of artificial neural network, the architecture of artificial neural networks is trained. The choice of the architecture, type and parameters of membership function occurs taking into consideration the computation resources of the facility and taking into consideration the type and the amount of information entering the input of an artificial neural network. In addition, when using the proposed algorithm, there is no accumulation of an error of artificial neural networks training as a result of processing the information entering the input of artificial neural networks.Development of the proposed algorithm was predetermined by the need to train artificial neural networks for intelligent decision support systems in order to process more information given the unambiguity of decisions being made. The research results revealed that the specified training algorithm provides on average 16–23 % higher the efficiency of training artificial neural networks training that is on average by 16–23 % higher and does not accumulate errors in the course of training. The specified algorithm will make it possible to conduct training of artificial neural networks; to determine effective measures to enhance the efficiency of functioning of artificial neural networks. The developed algorithm will also enable the improvement of the efficiency of functioning of artificial neural networks due to training the parameters and the architecture of artificial neural networks. The proposed algorithm reduces the use of computational resources of decision support systems. The application of the developed algorithm makes it possible to work out the measures aimed at improving the effectiveness of training artificial neural networks and to increase the efficiency of information processing
Publisher
Private Company Technology Center
Subject
Applied Mathematics,Electrical and Electronic Engineering,Management of Technology and Innovation,Industrial and Manufacturing Engineering,Computer Science Applications,Mechanical Engineering,Energy Engineering and Power Technology,Control and Systems Engineering
Reference30 articles.
1. Method of integral estimation of channel state in the multiantenna radio communication systems;Kalantaievska;Eastern-European Journal of Enterprise Technologies,2018-10-10
2. The method of improving the efficiency of routes selection in networks of connection with the possibility of self-organization.;Kuchuk, N., Mohammed, A. S., Shyshatskyi, A., Nalapko, O.;International Journal of Advanced Trends in Computer Science and Engineering,2019
3. Prediction of Air Pollutants Concentration Based on an Extreme Learning Machine: The Case of Hong Kong;Zhang;International Journal of Environmental Research and Public Health,2017-01-24
4. Modelling the dynamics of the adequacy of bank’s regulatory capital.;Katranzhy, L., Podskrebko, O., Krasko, V.;Baltic Journal of Economic Studies,2018
5. Multidimensional assessment of supporting ecosystem services for marine spatial planning of the Adriatic Sea;Manea;Ecological Indicators,2019
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