Result 81 to 100 from 204 total
Self-tuning fault-tolerant digital PID controller for MIMO analogue systems with partial actuator and system component failures. (English)
IMA J. Math. Control Inf. 25, No. 2, 221-238 (2008).
81
Control design in the time and frequency domain using nonsmooth techniques. (English)
Syst. Control Lett. 57, No. 3, 271-282 (2008).
82
Design and analysis of direct-action CMAC PID controller. (English)
Neurocomputing 70, No. 16-18, 2615-2625 (2007).
83
A goal oriented approach to model identification of an industrial furnace system combining a priori knowledge and optimal estimation. (English)
Syst. Sci. 33, No. 4, 103-110 (2007).
84
PID control of MIMO process based on rank niching genetic algorithm. (English)
Appl. Intell. 29, No. 3, 290-305 (2008).
85
Optimal design of AQM routers with D-stable regions based on ITAE performance. (Chinese)
J. Softw. 18, No. 12, 3092-3103 (2007).
86
Reheat steam temperature composite control system based on CMAC neural network and immune PID controller. (English)
Liu, Derong (ed.) et al., Advances in neural networks ‒ ISNN 2007. 4th international symposium on neural networks, ISNN 2007, Nanjing, China, June 3‒7, 2007. Proceedings, Part I. Berlin: Springer (ISBN 978-3-540-72382-0/pbk). Lecture Notes in Computer Science 4491, 302-310 (2007).
87
Chaos synchronization via multivariable PID control. (English)
Int. J. Bifurcation Chaos Appl. Sci. Eng. 17, No. 5, 1753-1758 (2007).
88
Multi-objective satisfactory PID controller via a graphical approach in the parameter space. (Chinese)
Syst. Eng. Electron. 29, No. 1, 134-138 (2007).
89
Uplink PID power control technique for TDMA-based cellular radio systems. (English)
Int. J. Commun. Syst. 20, No. 9, 1097-1111 (2007).
90
Tuning rules for fractional PIDs. (English)
Sabatier, J. (ed.) et al., Advances in fractional calculus. Theoretical developments and applications in physics and engineering. Dordrecht: Springer (ISBN 978-1-4020-6041-0/hbk; 978-1-4020-6042-7/e-book). 463-476 (2007).
91
Neural network-based digital redesign approach for PID control unknown nonlinear multivariable systems. (English)
Dyn. Contin. Discrete Impuls. Syst., Ser. B, Appl. Algorithms 14, No. 3, 401-432 (2007).
92
PI-Fuzzy controllers for integral plants to ensure robust stability. (English)
Inf. Sci. 177, No. 20, 4410-4429 (2007).
93
Combining fuzzy, PID and regulation control for an autonomous mini-helicopter. (English)
Inf. Sci. 177, No. 10, 1999-2022 (2007).
94
Robust PID control parameter design by Taguchi method. (English)
Proceedings of the 37th ISCIE international symposium on stochastic systems theory and its applications (ISCIE SSS’05), Osaka, Japan, October 28‒29, 2005. Kyoto: The Institute of Systems, Control and Information Engineers (ISCIE) (ISBN 4-915740-22-0/pbk). 30-35 (2006).
95
Control strategy of large volume temperature simulating system based on neural networks. (Chinese)
Control Theory Appl. 23, No. 3, 429-432 (2006).
96
Nonlinear decoupling PID control using neural networks and multiple models. (English)
J. Control Theory Appl. 4, No. 1, 62-69 (2006).
97
Research on self-turning PID for texturing machine heating controller. (Chinese)
J. Zhejiang Univ., Eng. Sci. 40, No. 9, 1638-1642 (2006).
98
A novel multiple-controller incorporating a radial basis function neural network based generalized learning model. (English)
Neurocomputing 69, No. 16-18, 1868-1881 (2006).
99
Fixed structure PID controller design for standard $H_{\infty}$ control problem. (English)
Automatica 42, No. 1, 93-100 (2006).
100
Result 81 to 100 from 204 total
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