Ponencia
Bilateral boundary control of one-dimensional first- and second-order PDEs using infinite-dimensional backstepping
Autor/es | Vázquez Valenzuela, Rafael
Krstic, Miroslav |
Departamento | Universidad de Sevilla. Departamento de Ingeniería Aeroespacial y Mecánica de Fluidos |
Fecha de publicación | 2016 |
Fecha de depósito | 2021-06-25 |
Publicado en |
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Resumen | This paper develops an extension of infinite-dimensional backstepping method for parabolic and hyperbolic systems in one spatial dimension with two actuators. Typically, PDE backstepping is applied in 1-D domains with an ... This paper develops an extension of infinite-dimensional backstepping method for parabolic and hyperbolic systems in one spatial dimension with two actuators. Typically, PDE backstepping is applied in 1-D domains with an actuator at one end. Here, we consider the use of two actuators, one at each end of the domain, which we refer to as bilateral control (as opposed to unilateral control). Bilateral control laws are derived for linear reaction-diffusion, wave and 2 × 2 hyperbolic 1-D systems (with same speed of transport in both directions). The extension is nontrivial but straightforward if the backstepping transformation is adequately posed. The resulting bilateral controllers are compared with their unilateral counterparts in the reaction-diffusion case for constant coefficients, by making use of explicit solutions, showing a reduction in control effort as a tradeoff for the presence of two actuators when the system coefficients are large. These results open the door for more sophisticated designs such as bilateral sensor/actuator output feedback and fault-tolerant designs. |
Identificador del proyecto | MTM2015-65608-P |
Cita | Vázquez Valenzuela, R. y Krstic, M. (2016). Bilateral boundary control of one-dimensional first- and second-order PDEs using infinite-dimensional backstepping. En IEEE Conference on Decision and Control (537-542), Las Vegas, NV, USA: Institute of Electrical and Electronics Engineers (IEEE). |
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