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A quasi-distributed optical measurement method for structural displacement

A quasi-distributed, optical measurement technology, used in measurement devices, optical devices, instruments, etc., can solve the problems of unstable dynamic displacement measurement, high cost, and ineffective and reliable structural quasi-distributed displacement measurement.

Active Publication Date: 2016-09-21
ZHEJIANG UNIV
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  • Abstract
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Problems solved by technology

On the other hand, most of the current research focuses on short-distance displacement measurement, and there are relatively few studies on long-distance (beyond 1km) displacement measurement.
[0011] The above methods cannot be effectively and reliably used for quasi-distributed displacement measurement of structures due to their respective defects, and are also unstable for dynamic displacement measurement. For methods such as laser displacement measurement, GPS displacement measurement, and displacement measurement using camera photography, etc. In quasi-distributed displacement measurement, multiple displacement measurement devices need to be arranged, and the cost is relatively high
Moreover, what is commonly referred to as non-contact measurement at present, such as the above-mentioned three types, requires the installation of markers or specific signal emission sources at the target to be measured in advance, which will be difficult to achieve in some specific occasions, increasing the difficulty of measurement

Method used

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  • A quasi-distributed optical measurement method for structural displacement
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Embodiment Construction

[0060] The following combination figure 1 The case shown in and figure 2 The workflow shown in further illustrates the invention.

[0061] see figure 1 and figure 2 , the case cited in the present invention is to utilize a quasi-distributed structural displacement optical measurement system to measure the displacement of a plurality of measuring points on a large cable-stayed bridge, and realize quasi-distributed measurement to it, and the specific implementation steps are as follows:

[0062] A. Build the measuring device and prepare for preliminary commissioning.

[0063] A1. Choose an appropriate location, set up the tripod 4, install and connect the industrial camera 2, the lens 3 and the computer 1 and other equipment, check the wiring, and start the system;

[0064] A2. Repeatedly adjust the orientation and elevation angle of camera 2 and lens 3, adjust the focal length, shutter speed, aperture size, etc., so that all the quasi-distributed measuring points of the m...

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Abstract

A quasi distributed structure displacement optical measurement method includes A, erecting a measuring device and preparing initial adjustment; B, marking image pixels and actual distances; C, manufacturing quasi distributed measuring point image templates and performing matching optimization; and D, measuring and storing quasi distributed structure displacement automatically.

Description

technical field [0001] The invention relates to optics, image processing technology and structural parameter identification technology, in particular to quasi-distributed dynamic displacement measurement of structures using a camera. Background technique [0002] Bridge deformation measurement is to track and identify the displacement of the bridge structure under test, so as to determine the change characteristics of its spatial position over time. Bridge deformation measurement uses engineering measurement principles, methods and precision measurement technology to measure the coordinates of bridge displacement control points, and draws the corresponding displacement and deformation effects by comparing the coordinates of bridge displacement control points obtained from each measurement and structural calculation and analysis Lines (surfaces), combined with basic structural indicators such as load and resistance, can macroscopically judge the safety performance of bridge s...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01B11/02
Inventor 叶肖伟董传智刘坦
Owner ZHEJIANG UNIV
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