Utilizando resultados algebraicos conocidos, el principio del modelo interno y un criterio de garantía de polos dominantes que permite expresar especificaciones temporales de la salida controlada a través de un polinomio deseado a lazo cerrado; se plantea una ecuación Diofantina. Esta ecuación incorpora elementos de incertidumbre tipo intervalo provenientes de los parámetros del modelo matemático de un proceso de flujo de calor. Posteriormente, la ecuación Diofantina se formula como un problema de optimización lineal cuya solución resulta en un controlador robusto que garantiza el seguimiento de perfiles de temperatura que varían en forma escalonada y el rechazo a perturbaciones constantes para el proceso de flujo de calor.

Recibido: 02/02/2024
Aceptado: 03/07/2024

Al-Saggaf, U., Mehedi, I., Bettayeb, M., y Mansouri, R. (2016). Fractional-order controller design for a heat flow process. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 230(7), 680-691.

https://doi.org/10.1177/0959651816649917

Al-Saggaf, U. M., Mehedi, I. M., Mansouri, R., y Bettayeb, M. (2021). Fractional Order Linear ADRC-Based Controller Design for Heat-Flow Experiment. Mathematical problems in Engineering.

https://doi.org/10.1155/2021/7291420

Åström, K. J., y Wittenmark, B. (2013). Computer-controlled systems: theory and design. Courier Corporation.

Bartlett, A. C., Hollot, C. V., Lin, H., (1988). Root locations of an entire polytope of polynomials: It suffices to check the edges. Mathematics of Control, Signals and Systems, 1(11), pp. 61-71.

https://doi.org/10.1007/BF02551236

Chen, C.T., (1987). Introduction to the linear algebraic method for control system design. IEEE Control Systems Magazine, 7(5), pp. 36-42.

doi: 10.1109/MCS.1987.1105378

Chen, C., (1999). Linear System: Theory and Design. Oxford University Press.

Dorf, R., Bishop, R., (2017). Modern control systems. Pearson Prentice Hall.

Francis, B. A., Wonham, W. M. (1976). The internal model principle of control theory. Automatica, 12(5), pp. 457-465.

https://doi.org/10.1016/0005-1098(76)90006-6

Hedberg, E., Löfberg, J., y Helmersson, A. (2020). A pedagogical path from the internal model principle to Youla-Kucera parametrization. IFAC-PapersOnLine, 53(2), pp. 17374-17379.

https://doi.org/10.1016/j.ifacol.2020.12.2090

Jain, M., Rani, A., Pachauri, N., Singh, V., y Mittal, A. P. (2019). Design of fractional order 2-DOF PI controller for real-time control of heat flow experiment. Engineering Science and Technology, an International Journal, 22(1), pp. 215-228.

https://doi.org/10.1016/j.jestch.2018.07.002

Jamil, A. A., Tu, W. F., Ali, S. W., Terriche, Y., y Guerrero, J. M. (2022). Fractional-order PID controllers for temperature control: A review. Energies, 15(10), p. 3800

https://doi.org/10.3390/en15103800

Kaan, C., Sekban, H., Orman, K., y Basçi, A. (2020). Design, Simulation and Comparison of Controllers for Temperature Profile Tracking Control of a Heat Flow System. Erzincan University Journal of Science and Technology, 13(2), pp. 828-838.

http://dx.doi.org/10.18185/erzifbed.766645

Oliveira, E. J., Honorio, L. M., Anzai, A. H., y Soares, T. X. (2014). Linear programming for optimum PID controller tuning. Applied Mathematics, 5, pp.886-897.

http://dx.doi.org/10.4236/am.2014.56084

Orman, K. (2019). Temperature profile tracking control with memristor based PI controller in the heat flow system. International Journal of Modern Research in Engineering and Technology, 4(12), pp. 12-15.

Orman, K. (2022). Design of a memristor-based 2-DOF PI controller and testing of its temperature profile tracking in a heat flow system. IEEE Access, 10, pp. 98384-98390.

http://dx.doi.org/10.1109/ACCESS.2022.3206022

Persson, P. y Åström, K. (1992). Dominant pole design a unified view of PID controller tuning, IFAC Proceedings Volumes, 25(14), pp. 377-382.

Pradhan, R., Pati, B. B. (2019). Comparative performance evaluation of fractional order PID controller for heat flow system using evolutionary algorithms. International Journal of Applied Metaheuristic Computing (IJAMC), 10(4), pp. 68-90.

http://dx.doi.org/10.4018/IJAMC.2019100105

Quanser innovative edutech, (2012). Heat flow laboratory. Quanser Inc., Ontario.

Teppa-Garran, P. y Faggioni, M. (2023). Closed-loop poles assignment using linear programming. Ciencia e Ingeniería, 44(2), pp. 89-94.