Control of bilateral teleoperators with time delays using only position measurements

Nuño, Emmanuel; Arteaga, Marco A.; Espinosa-Pérez, G.

doi:10.1002/rnc.3903

Cited by 26 publications

(11 citation statements)

References 38 publications

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“…Theorem 2 Consider the teleoperation system described by dynamics ( 9), (10) and kinematics (11) without external forces, employing the estimation laws (18) and sliding-mode observers (46), with the application of the controllers (51), the dynamic uncertainties and kinematic uncertainties can be tackled within finite time. Further, the task-space position tracking errors between the local manipulator and remote manipulator will asymptotically stabilized.…”

Section: Control Design In Task Spacementioning

confidence: 99%

“…Many remarkable results have been obtained for control of teleoperation system [8][9][10][11][12][13][14][15][16]. The passivity-based control innovatively proposed in [8] has been the cornerstone of the teleoperation system control, which is further developed in [9] to address the problem of steadystate position as well as force tracking.…”

Section: Introductionmentioning

confidence: 99%

“…In [10], position tracking is addressed for teleoperators with a simple PD-like and a scattering-based controller. In an attempt to realize position tracking of bilateral teleoperators with communication delays and without measuring velocity, a second-order dynamical controller is proposed in [11]. In these works, control strategies are usually developed for joint position coordination.…”

Section: Introductionmentioning

confidence: 99%

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Sliding Mode Observer-based Control of Teleoperation System With Uncertain Dynamics and Kinematics

Zhang

Wang

Wen

2021

Preprint

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This paper concentrates on the control issue of nonlinear teleoperators in the presence of uncertain dynamics and kinematics. An observer-based control framework is introduced to compensate for the unfavorable effects arising from the uncertainties. The employment of the proposed sliding mode observers provide control system with the ability of finite-time estimation errors convergence, upon which, it is demonstrated that the bilateral teleoperators are stable and both of position and velocity tracking can be achieved with uncertain dynamics in joint space. Due to the practical requirement of driving the end-effectors to perform specific tasks, the control law which can ensure position coordination with uncertain dynamics and kinematics in task space is subsequently developed. The Lyapunov method is applied to demonstrate the stability of the closed-loop system. Simulation results are provided to testify the performance of the suggested algorithm.

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Section: Control Design In Task Spacementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Sliding Mode Observer-based Control of Teleoperation System With Uncertain Dynamics and Kinematics

Zhang

Wang

Wen

2021

Preprint

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“…The technical challenge of realizing this objective is mainly due to the closed architecture of the robots (i.e., no torque design interface is available and typically only the joint velocity or position command can be specified) and due to the typically employed proportional-derivative (PD) or proportional-integral-derivative (PID) control action of the inner control loop with unknown gains. This challenge also renders most existing results developed in the context of an open torque design interface (e.g., [1], [20], [12], [13], [14], [21], [15], [22], [23]) no longer applicable. The involved challenge for bilateral control of teleoperators subjected to closed architecture may be alleviated via measuring interaction force/torque using force/torque sensors mounted on the endeffector, which can, however, only achieve partial force/torque reflection [the reflection of partial interaction force/torque (e.g., that associated with the end-effector) can be guaranteed since it relies on the direct measurement of the interaction via force/torque sensors].…”

Section: Introductionmentioning

confidence: 99%

Task-Space Bilateral Control of Teleoperators with Time-Varying Delay

Wang¹

2019

2019 IEEE 58th Conference on Decision and Control (CDC)

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This paper investigates bilateral control of teleoperators with closed architecture and subjected to arbitrary bounded time-varying delay. A prominent challenge for bilateral control of such teleoperators lies in the closed architecture, especially in the context not involving interaction force/torque measurement. This yields the long-standing situation that most bilateral control rigorously developed in the literature is hard to be justified as applied to teleoperators with closed architecture. With a new class of dynamic feedback, we propose kinematic and adaptive dynamic controllers for teleoperators with closed architecture, and we show that the proposed kinematic and dynamic controllers are robust with respect to arbitrary bounded time-varying delay. In addition, by exploiting the input-output properties of an inverted form of the dynamics of robot manipulators with closed architecture, we remove the assumption of uniform exponential stability of a linear time-varying system due to the adaptation to the gains of the inner controller in demonstrating stability of the presented adaptive dynamic control. The application of the proposed approach is illustrated by the experimental results using a Phantom Omni and a UR10 robot.

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“…Sin embargo, para que este funcione, es necesario conocer el modelo del sistema por completo, lo que dificulta su implementación. Como alternativa, enNuño et al (2018) se propone una solución que no requiere el modelo del sistema por completo, basta con el conocimiento del vector de gravedad de cada manipulador para garantizar el consenso. Como se puede ver, por un lado se tiene la dependencia del modelo en algunos esquemas, y por otro lado no se cuenta con mediciones de velocidad, así que con base en estos problemas abiertos, en Arteaga-Pérez et al (2017) se propone un esquema de observación y de control diseñado en conjunto, el cual está basado en técnicas de modos deslizantes de segundo orden permitiendo garantizar que los errores de posición no sólo permanezcan acotados sino que además, con un conjunto adecuado de ganancias se logre hacer estos errores arbitrariamente pequeños para el caso de movimiento libre, resolviendo así el problema de consenso.…”

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Resultados experimentales del control de un sistema de teleoperación bilateral de robots con retardos variantes en el tiempo

Rodríguez

Pérez

Gutiérrez–Giles

et al. 2021

Rev. iberoam. autom. inform. ind.

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Los sistemas bilaterales de teleoperación son útiles en una amplia gama de tareas que pueden resultar peligrosas o inaccesibles para un humano. Sin embargo, cuando aparecen retardos variantes en el tiempo en el canal de comunicación, ya no se puede garantizar una transparencia perfecta. En cambio, se pueden perseguir otros objetivos de control, como la correspondencia cinemática entre los robots local y remoto. Además, dado que la mayoría de los robots disponibles comercialmente no están equipados con sensores de velocidad, para garantizar un cierto nivel de transparencia o correspondencia cinemática, el controlador no puede depender de las mediciones de velocidad. Este artículo está enfocado en presentar los resultados experimentales de un esquema robusto ante los retardos en el tiempo para manipuladores no lineales conectados a través de un canal de comunicación. Las ventajas principales del esquema propuesto son: i) no es necesario conocer los parámetros dinámicos de los manipuladores, ii) no es necesario imponer restricciones acerca del comportamiento del operador humano y de la superficie remota, iii) se obtiene una estimación de velocidades através de un filtro lineal de segundo orden, iv) un término que garantiza el seguimiento de fuerza fue agregado al esquema. Con el objetivo de mostrar el buen desempeño del esquema propuesto, se reportan un conjunto de experimentos que se han llevado a cabo entre diferentes ciudades de México utilizando Internet como canal de comunicación.

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Control of bilateral teleoperators with time delays using only position measurements

Cited by 26 publications

References 38 publications

Sliding Mode Observer-based Control of Teleoperation System With Uncertain Dynamics and Kinematics

Sliding Mode Observer-based Control of Teleoperation System With Uncertain Dynamics and Kinematics

Task-Space Bilateral Control of Teleoperators with Time-Varying Delay

Resultados experimentales del control de un sistema de teleoperación bilateral de robots con retardos variantes en el tiempo

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