Switching control signal for bilateral tele-operation of a mobile manipulator

Andaluz, Víctor H.; Carelli, Ricardo; Robertí, Flavio; Toibero, Juan Marcos; Carelli, Ricardo

doi:10.1109/icca.2011.6138029

Cited by 11 publications

(7 citation statements)

References 17 publications

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“…Ideally, the tele-operation must be completely transparent in order that the human feels a direct interaction with the remote task [23,24]. In order that the human operator have more transparency of the remote site, this work shows a Human Robot Interaction in 3D (HRI-3D) implemented on local site (view Fig.…”

Section: Transparency's Local Sitementioning

confidence: 99%

“…The forces can be real or fictitious and are generated by the robot contact or non-contact interaction with the environment. The evolution of robotics and advancement of computers have helped increase the capabilities of tele-operated systems, especially as regards transparency in the local site, thus improving the performance of the human-machine interface [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

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Transparency of a Bilateral Tele-Operation Scheme of a Mobile Manipulator Robot

Andaluz

Quevedo

Chicaiza

et al. 2016

Lecture Notes in Computer Science

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Abstract. This work presents the design of a bilateral tele-operation system for a mobile manipulator robot, allowing a human operator to perform complex tasks in remote environments. In the tele-operation system it is proposed that the human operator is immersed in an augmented reality environment to have greater transparency of the remote site. The transparency of a tele-operation system indicates a measure of how the human feels the remote system. In the local site an environment of augmented reality developed in Unity3D is implemented, which through input devices recreates the sensations that the human would feel if he were in the remote site, for which is considered the senses of sight, touch and hearing. These senses help the human operator to "transmit" their ability and experience to the robot to perform a task. Finally, experimental results are reported to verify the performance of the proposed system.

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Section: Transparency's Local Sitementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Transparency of a Bilateral Tele-Operation Scheme of a Mobile Manipulator Robot

Andaluz

Quevedo

Chicaiza

et al. 2016

Lecture Notes in Computer Science

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“…Switching Strategies 1) Manual strategy: A simple control scheme is simply to let the operator choose the operation mode directly [8], [9], [10], [11]. The operator then decides what operation mode should be used, for example by pushing a button on the haptic device.…”

Section: A Control Modesmentioning

confidence: 99%

“…Also Lasnier and Murakami [10] propose two operation modes: a standard bilateral mode to control the manipulator and a joystick-like rate control mode for the mobile base. Andaluz et al [11] switch between controlling the velocity of the entire vehicle-manipulator system, or the position of the robotic arm only.…”

Section: Introductionmentioning

confidence: 99%

Control allocation for mobile manipulators with on-board cameras

Pham

From

2013

2013 IEEE/RSJ International Conference on Intelligent Robots and Systems

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This paper presents a new set of approaches for teleoperation of mobile manipulators with on-board cameras. Mobile manipulators consist of a robotic arm which provides for interaction and manipulation, and a mobile base which extends the workspace of the arm. While the position of the onboard camera is determined by the base motion, the principal control objective is the motion of the manipulator arm. This calls for intelligent control allocation between the base and the manipulator arm in order to obtain intuitive control of both the camera and the arm. We implement virtual massspring-damper forces between the end-effector and the camera so that the camera follows the end-effector with an overdamped characteristics. The operator therefore only needs to control the end-effector motion, while the vehicle with the camera will follow naturally. The operator is thus able to control the more than six degrees of freedom of the vehicle and manipulator through a standard haptic device. The control allocation problem, i.e., whether the vehicle or manipulator arm actuation is applied, is then performed automatically so that the operator can concentrate on the manipulator motion.

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“…In switching control teleoperation is proposed, where the human operator decides to control mobile base speed or final effector position. In a switching control teleoperation is developed, where the velocity of the end effector is controlled instead of the mobile base velocity. Although these works address the problem of bilateral teleoperation, the communication delays are considered negligible, therefore, the closed loop stability of the whole system, including the human operator is not analyzed.…”

Section: Introductionmentioning

confidence: 99%

Stable Delayed Bilateral Teleoperation of Mobile Manipulators

Santiago

Slawiñski

Mut

2017

Asian Journal of Control

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This paper proposes a control scheme for a stable teleoperation of non‐holonomic mobile manipulator robots. This configuration presents high‐coupled dynamics and motion redundancy. The problem approached in this work is the teleoperation of the end effector velocity of the Mobile Manipulator, while system redundancy is used to achieve secondary control objectives. We considered variable asymmetric time delays as well as non‐passive models of operator and environment. From this study, it is possible to infer the control parameters, depending on the time delay, in order to assure stability. Finally, the performance of the delayed teleoperation system is evaluated through simulations of human‐in‐the‐loop internet teleoperation.

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Switching control signal for bilateral tele-operation of a mobile manipulator

Cited by 11 publications

References 17 publications

Transparency of a Bilateral Tele-Operation Scheme of a Mobile Manipulator Robot

Transparency of a Bilateral Tele-Operation Scheme of a Mobile Manipulator Robot

Control allocation for mobile manipulators with on-board cameras

Stable Delayed Bilateral Teleoperation of Mobile Manipulators

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