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Remote operating system and method

An operating system and teleoperation technology, applied in the field of teleoperation, which can solve the problems of large operation, inaccurate deviation signal, and self-heavy mechanical arm, and achieve the effect of improved accuracy and flexible and smooth movement.

Active Publication Date: 2011-06-08
SHENZHEN INST OF ADVANCED TECH CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The position servo type remote control system transmits the force sense through the position deviation between the operating handle and the mechanical arm, but if the inertial force and frictional force are not compensated, then for the mechanical arm with large self-weight and frictional force, deviation will occur Defects of imprecise signal, not suitable for heavy load, high power operation
The force feedback type remote control system directly feeds back the force or torque on the operating handle to the main hand, but it is still very difficult to operate the operating handle even when the mechanical arm has a large weight and no load on the mechanical arm.
The force feedback servo type remote control system also has difficulties in operation
However, the force-position integrated teleoperation system also has the defect of difficult operation when the manipulator has a relatively large weight.

Method used

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Embodiment Construction

[0025] figure 1 It shows a teleoperation system in one embodiment, including a master control terminal 10 and a slave terminal 20, the master control terminal 10 is used to establish a master control terminal workspace, and obtains operation instructions; the slave terminal 20 is used to establish a slave terminal The workspace of the slave end collides with the operation object in the workspace of the slave end according to the operation instruction, and gives feedback.

[0026] The master workspace is the space for the user to operate, and the slave workspace is the space for performing operations on the operation objects according to the user's operations in the workspace. The user operates on the master control terminal 10 , inputs an operation instruction in the master control terminal 10 , and exerts a control force on the slave terminal 20 to realize precise control of the slave terminal 20 . The slave end 20 collides with the operation object in the work space of the ...

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Abstract

The invention relates to a remote operating system, comprising a master terminal and a slave terminal, wherein the master terminal creates a master terminal operating space to acquire an operation instruction; and the slave terminal creates a slave terminal operating space and collides with an operational object in the slave terminal operating space according to the operational instruction and then feeds back. The master terminal comprises a master interface module which is used for creating the master terminal operating space and mapping the slave terminal operating space and the master terminal operating space into a virtual space, a force feedback device which is used for acquiring the operational instruction and moving in the master terminal operating space according to the operational instruction to obtain a motion state, a master controller which is used for calculating according to the motion state and carrying out gravity compensation to obtain a control force; and the slave terminal comprises a slave interface module used for creating the slave terminal operating space according to the position of a mechanical arm, a slave controller used for controlling the mechanical arm according to the control force and the mechanical arm used for colliding the operation object in the slave terminal operating space. The remote operating system carries out the gravity compensation, thus the mechanical arm operates easily under the condition of heavy load, and the aim of easy operation is realized.

Description

【Technical field】 [0001] The invention relates to remote operation technology, in particular to a remote operating system and method. 【Background technique】 [0002] The teleoperation system refers to the system in which the operator controls the remote robot to affect the working environment through the main console. In the teleoperation system, the operator does not have direct contact with the working environment, and only controls the movement of the mechanical arm of the remote robot through the operating handle in the main console. [0003] The traditional teleoperation system is divided into position servo type, force feedback type, force feedback servo type and force-position comprehensive type. The position servo type remote control system transmits the force sense through the position deviation between the operating handle and the mechanical arm, but if the inertial force and frictional force are not compensated, then for the mechanical arm with large self-weight ...

Claims

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Application Information

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IPC IPC(8): B25J13/00
Inventor 王平安谢永明张吉帅刘平李建英
Owner SHENZHEN INST OF ADVANCED TECH CHINESE ACAD OF SCI
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