@inproceedings{8429921cffe7477a93c5dbc02343aca2,
title = "Extended kalman filter weights adjustment for neonatal incubator neurofuzzy identification",
abstract = "The temperature adaptive control for a neonatal incubator is shown in this paper. The control design is based on the neurofuzzy algorithm and the extended kalman niter technique. The Kalman niter adjusts the weights associated with the neural network structure, while the ANFIS (Artificial Neural Fuzzy Inference System) structure (using the Back propagation scheme) is applied to change the Gaussian membership function parameters in an adaptive way (using the delta rule scheme). The External Temperature Gradient (ETG) and the External Temperature Gradient Rate (ETGR) principles were used as input variables in the identifier-controller design. The results for this process were proved in real time and in a real incubator with a reference temperature around 37 °C. The efficiency of the suggested method is shown by the convergence of the ETG and ETGR to its reference range while the temperature in the care unit is keep very near to the selected set point value.",
keywords = "ANFIS structure, Extended kalman filter, Medical incubator, Neurofuzzy system, Premature neonate",
author = "D. Valdez and V. Ortiz and A. Cabrera and I. Chairez",
year = "2006",
doi = "10.1109/FUZZY.2006.1681954",
language = "Ingl{\'e}s",
isbn = "0780394887",
series = "IEEE International Conference on Fuzzy Systems",
pages = "1829--1834",
booktitle = "2006 IEEE International Conference on Fuzzy Systems",
note = "2006 IEEE International Conference on Fuzzy Systems ; Conference date: 16-07-2006 Through 21-07-2006",
}