Vision acquisition and calibration method, device and system based on multi-degree-of-freedom mechanical arm

A technology of visual acquisition and calibration method, which is applied in the field of intelligent robots and can solve problems such as increasing equipment costs

Active Publication Date: 2019-06-21
YIJIAHE TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The problem with this method is that, firstly, the equipment cost is increased due to the addition of two high-precision measuring instruments; second...

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  • Vision acquisition and calibration method, device and system based on multi-degree-of-freedom mechanical arm
  • Vision acquisition and calibration method, device and system based on multi-degree-of-freedom mechanical arm
  • Vision acquisition and calibration method, device and system based on multi-degree-of-freedom mechanical arm

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Embodiment 1

[0039] An embodiment of the present invention introduces a vision acquisition and calibration method based on a multi-degree-of-freedom manipulator.

[0040] The calibration system adopted in this embodiment mainly includes a visual acquisition calibration device, a visual acquisition device, and a robotic arm system; the visual acquisition calibration device can be used to process the image captured by the visual acquisition device, and obtain the coordinates of each point in it, and calculate the coordinates Inter-system transformation relationship; the visual acquisition device can be used to capture the image of the calibration plate according to the instructions of the visual acquisition calibration device, and send the corresponding image to the visual acquisition calibration device; the robotic arm system is used to move according to the instructions of the visual acquisition calibration device, And return the coordinates of the calibration board in the coordinate system...

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Abstract

The invention belongs to the technical field of intelligent robots, and discloses a vision acquisition and calibration method based on a multi-degree-of-freedom mechanical arm. The method comprises the following steps that a designated point on the mechanical arm is kept fixed, and the mechanical arm is respectively rotated for one circle around at least two coordinate axes of a coordinate systemtaking the designated point as an original point; coordinates of each corner point on a calibration plate in the rotating process are obtained; a circle center coordinate of the motion track of the calibration plate and a space offset vector from each corner point to the designated point under a vision acquisition coordinate system on a designated frame are calculated; the posture of the mechanical arm is kept unchanged from the designated point to the tail end of the mechanical arm, and the mechanical arm is respectively translated towards different planes; a plurality of frames of images aresampled for the calibration plate in the translation process, and meanwhile the coordinates of the tail end of the mechanical arm are obtained through the mechanical arm system; and the transformation relation between the vision acquisition coordinate system and the mechanical arm coordinate system is calculated. By adopting the method, the coordinate system transformation relation between visionacquisition equipment and the mechanical arm system can be calculated without accurately fixing the calibration plate without measurement equipment.

Description

technical field [0001] The invention belongs to the technical field of intelligent robots, and in particular relates to a method, device and system for visual acquisition and calibration based on a multi-degree-of-freedom mechanical arm. Background technique [0002] For the operation of the robotic arm based on the vision algorithm, there is usually a need to obtain the coordinate system transformation relationship between the visual sensing device and the robotic arm. Through the transformation relationship of the coordinate system, the target position acquired by the visual sensing device can be converted to the robotic arm. in the coordinate system. [0003] The calibration method adopted by the current visual sensing device is to accurately fix the template label for calibration on the specified position A on the mechanical arm (the coordinates of the specified position in the mechanical arm coordinate system are known); The label in the image; the computer calculates ...

Claims

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Application Information

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IPC IPC(8): B25J9/16
Inventor 王松冯海东项导王锋毛成林
Owner YIJIAHE TECH CO LTD
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