Inferring Knowledge from Clinical Data for Anesthesia Automation
- Gonzalez-Cava, Jose M. 1
- Iván Castilla-Rodríguez 1
- José Antonio Reboso 2
- Ana León 2
- Martín, María 2
- Esteban Jove-Pérez 13
- José Luis Calvo-Rolle 3
- Méndez-Pérez, Juan Albino 1
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1
Universidad de La Laguna
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2
Hospital Universitario de Canarias
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3
Universidade da Coruña
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- Hilde Pérez García (coord.)
- Lidia Sánchez González (coord.)
- Manuel Castejón Limas (coord.)
- Héctor Quintián Pardo (coord.)
- Emilio Corchado Rodríguez (coord.)
Éditorial: Springer Suiza
ISBN: 978-3-030-29859-3, 978-3-030-29858-6
Année de publication: 2019
Pages: 480-491
Congreso: Hybrid Artificial Intelligent Systems (14. 2019. León)
Type: Communication dans un congrès
Résumé
The use of Hybrid Artificial Intelligent techniques in medicine has increased in recent years. Specifically, one of the main challenges in anesthesia is achieving new controllers capable of automating the drug titration during surgeries. This work deals with the development of a Takagi-Sugeno fuzzy controller to automate the drug infusion for the control of hypnosis in patients undergoing anesthesia. To do that, a combination of Neural Networks and optimization techniques were applied to tune the internal parameters of the fuzzy controller. For the training process, data from 20 patients undergoing surgery were used. Finally, the controller proposed was tested over 16 virtual surgeries. It was concluded that the fuzzy controller was able to meet both clinical and control objectives.