La Ingeniería de Control y su Rol Actual en la Medicina
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José Fernando García Tirado
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García Tirado, J. F. (2016). La Ingeniería de Control y su Rol Actual en la Medicina. Ingenierías USBmed, 7(2), 4–6. https://doi.org/10.21500/20275846.2687
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References
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[2] T. Samad and A. M. Annaswamy, Eds., The Impact of Control Technology. IEEE, 2011.
[3] W. V Bolie, “Coefficients of normal blood glucose regulation,” J Appl Physiol., vol. 16, no. 5, pp. 783–788, 1961.
[4] R. N. Bergman, R. N. Bergman, Y. Z. Ider, Y. Z. Ider, C. R. Bowden, C. R. Bowden, C. Cobelli, and C. Cobelli, “Quantitative estimation of insulin sensitivity.,” Am. J. Physiol., vol. 236, no. 6, pp. E667–77, 1979.
[5] C. Dalla Man, F. Micheletto, D. Lv, M. Breton, B. Kovatchev, and C. Cobelli, “The UVA/PADOVA Type 1 Diabetes Simulator: New Features.,” J. Diabetes Sci. Technol., vol. 8, pp. 26–34, 2014.
[6] M. E. Wilinska, M. Bodenlenz, L. J. Chassin, H. C. Schaller, L. A. Schaupp, T. R. Pieber, and R. Hovorka, “Interstitial glucose kinetics in subjects with type 1 diabetes under physiologic conditions,” Metabolism., vol. 53, no. 11, pp. 1484–1491, 2004.
[7] J. T. Sorensen, “A Phisiologic Model of Glucose Metabolism in Man and its use to Design and Assess Improved Insulin Therapies for Diabetes,” Massachusetts Institute of Technology, 1985.
[8] L. Lema-Perez, E. Aguirre-Zapata, and J. Garcia-Tirado, “Recent advances in mathematical models for the understanding and treatment of Type 1 Diabetes Mellitus,” in Automatic Control (CCAC), 2015 IEEE 2nd Colombian Conference on, 2015, pp. 1–6.
[2] T. Samad and A. M. Annaswamy, Eds., The Impact of Control Technology. IEEE, 2011.
[3] W. V Bolie, “Coefficients of normal blood glucose regulation,” J Appl Physiol., vol. 16, no. 5, pp. 783–788, 1961.
[4] R. N. Bergman, R. N. Bergman, Y. Z. Ider, Y. Z. Ider, C. R. Bowden, C. R. Bowden, C. Cobelli, and C. Cobelli, “Quantitative estimation of insulin sensitivity.,” Am. J. Physiol., vol. 236, no. 6, pp. E667–77, 1979.
[5] C. Dalla Man, F. Micheletto, D. Lv, M. Breton, B. Kovatchev, and C. Cobelli, “The UVA/PADOVA Type 1 Diabetes Simulator: New Features.,” J. Diabetes Sci. Technol., vol. 8, pp. 26–34, 2014.
[6] M. E. Wilinska, M. Bodenlenz, L. J. Chassin, H. C. Schaller, L. A. Schaupp, T. R. Pieber, and R. Hovorka, “Interstitial glucose kinetics in subjects with type 1 diabetes under physiologic conditions,” Metabolism., vol. 53, no. 11, pp. 1484–1491, 2004.
[7] J. T. Sorensen, “A Phisiologic Model of Glucose Metabolism in Man and its use to Design and Assess Improved Insulin Therapies for Diabetes,” Massachusetts Institute of Technology, 1985.
[8] L. Lema-Perez, E. Aguirre-Zapata, and J. Garcia-Tirado, “Recent advances in mathematical models for the understanding and treatment of Type 1 Diabetes Mellitus,” in Automatic Control (CCAC), 2015 IEEE 2nd Colombian Conference on, 2015, pp. 1–6.
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