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A new approach for dynamic modelling of energy consumption in the grinding process using recurrent neural networks.

, , , , и . Neural Comput. Appl., 27 (6): 1577-1592 (2016)

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Juan José Sánchez

José Sánchez Murillo

José Uriarte Sánchez

José Alvarez Sánchez

José Sánchez Meseguer

 

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Design, manufacture and industrial validation of an electro discharge dresser for metal bond CBN wheels., , , и . Int. J. Manuf. Technol. Manag., 15 (2): 207-218 (2008)A new approach for dynamic modelling of energy consumption in the grinding process using recurrent neural networks., , , , и . Neural Comput. Appl., 27 (6): 1577-1592 (2016)Virtual Sensors for On-line Wheel Wear and Part Roughness Measurement in the Grinding Process., , , , и . Sensors, 14 (5): 8756-8778 (2014)Microcomputer Decision Support System for Intensive Care., , , , , , , , , и 3 other автор(ы). MedInfo, том 52 из Studies in Health Technology and Informatics, стр. 534-536. IOS Press, (1998)Distributed and collaborative system to improve traffic conditions using fuzzy logic and V2X communications., , , , , и . Veh. Commun., (2024)Artificial Neural Networks for detecting instability trends in different workpiece thicknesses in a machining process., , , , и . ACC, стр. 1064-1069. IEEE, (2008)On-line Surface Roughness Prediction in Grinding Using Recurrent Neural Networks., , , и . EANN, том 517 из Communications in Computer and Information Science, стр. 24-34. Springer, (2015)Incorporation of Head-Up Display Devices in Real-Vehicular Environments to Improve Efficiency in Driving., , , , , и . Interacción, стр. 10. ACM, (2016)Computer simulation of performance of electrical discharge machining operations., , , , , и . Int. J. Computer Integrated Manufacturing, 22 (8): 799-811 (2009)Recurrent ANN-based modelling of the dynamic evolution of the surface roughness in grinding., , , , и . Neural Comput. Appl., 28 (6): 1293-1307 (2017)