Vehicle and structure information simultaneous identification method based on axle coupling vibration

A vehicle-bridge coupling and structural information technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve the problems that cannot directly support the safety performance evaluation of bridge structures, the role of bridge structure safety performance evaluation is limited, and the structure cannot be obtained Mode shape scaling factor and other issues, to achieve effective safety assessment and maintenance management, short time-consuming, effective performance status

Active Publication Date: 2019-06-07
SOUTHEAST UNIV
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AI Technical Summary

Problems solved by technology

[0004] Environmental vibration test is one of the main means of health monitoring and detection of existing bridge structures. It uses natural conditions to excite the bridge. Compared with artificial vibration test, it has the advantage of convenient operation, but it can only output the basic Cannot directly support the safety performance assessment of bridge structures
Compared with the environmental vibration test, the shock vibration test needs to artificially apply external excitation, and collect input and output data at the same time. Since the input force is known, the shock vibration test can not only obtain the basic modal parameters such as frequency, damping and mode shape, but also Identify deep-level parameters of the structure such as flexibility, but the impact vibration test needs to close the traffic, which affects the normal operation of the road, and it is difficult to effectively stimulate the entire bridge of the long-span bridge
[0005] A variety of rapid bridge test methods based on vehicle-bridge coupling vibration have been proposed by scholars in the early stage. The widely used method is to identify the bridge mode by installing an accelerometer on the vehicle and collecting acceleration data when the vehicle is driving on the bridge deck. information, but it mainly relies on the indirect measurement of the bridge response, which can only realize the basic modal parameters such as bridge frequency and mode shape and preliminary damage identification, and cannot obtain vehicle parameter information, let alone the structural mode shape scaling factor, which is very important for the safety of bridge structures. Performance evaluation is also limited

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  • Vehicle and structure information simultaneous identification method based on axle coupling vibration
  • Vehicle and structure information simultaneous identification method based on axle coupling vibration
  • Vehicle and structure information simultaneous identification method based on axle coupling vibration

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Embodiment 1

[0037] Simultaneous recognition method of vehicle and structure information based on vehicle-bridge coupling vibration, such as figure 1 shown, including the following steps:

[0038] S1, deploy sensors on the bridge to collect the vibration response data of the structural environment and the vibration response data of the structural sports car respectively.

[0039] Determine the sensor layout plan and collect structural vibration data, determine the sensor layout plan according to the specific structure type and test requirements, use the deployed sensors to collect and store the environmental vibration response data of the bridge structure in ground fluctuations and wind loads, and the sports car when the vehicle passes Vibration response data, for the vibration response when no vehicle passes by, the collection time shall not be less than 10 minutes.

[0040] S2, through the modal recognition algorithm, based on the structural environmental vibration response data and the...

Embodiment 2

[0063] The simultaneous recognition method of vehicle and structure information based on vehicle-bridge coupled vibration takes a typical simply supported girder bridge as an example. In this embodiment, the total length of the simply supported girder bridge is 30m, and 19 acceleration sensors are arranged at equal intervals on the structure.

[0064] (1) Identification of structural basic modal parameters during environmental vibration: the environmental vibration response of the structure is affected by environmental random excitations such as ground fluctuations and wind loads. In a short period of time, the modal parameters of the bridge structure will not change with time , using the traditional modal parameter identification algorithm, the modal dynamic parameters of the structure can be obtained, including natural frequency, damping ratio and unscaled displacement mode shape. Commonly used algorithms include peak picking method, singular value decomposition method, PolyM...

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Abstract

The invention discloses a vehicle and structure information simultaneous identification method based on axle coupling vibration. The method includes acquiring structural environment vibration responsedata and structural sports car vibration response data through sensors arranged on a bridge; respectively identifying a basic modal parameter and a time-varying modal parameter of the structure through a modal algorithm; substituting into a mapping parameter equation of a structural vibration mode scaling coefficient, a modal parameter and a vehicle parameter; calculating vehicle parameters by utilizing the time-varying modal parameters at different moments; further obtaining a structural vibration mode scaling coefficient; reconstructing deep-level parameters of a structure displacement flexibility matrix through the vibration mode scaling coefficient and furthermore, predicting the displacement of structure under any static load, and evaluating current safety state of structure. According to the method, the vehicle parameters and the structure parameters can be recognized only from the structure vibration response, and the method has the advantages of being convenient to test, shortin consumed time and high in precision and is suitable for safety evaluation of many bridges in a road network.

Description

[0001] Field [0002] The invention relates to the field of bridge structure vibration testing in civil engineering structure health monitoring technology, in particular to a method for simultaneously identifying vehicle and structure information based on vehicle-bridge coupling vibration. Background technique [0003] Structural health monitoring technology is one of the most effective ways to improve the health and safety of civil and traffic engineering structures and realize their sustainable performance management. The deflection of bridges is crucial to the evaluation of bridge performance. Therefore, it is particularly important to predict the deformation of the structure under any static load. [0004] Environmental vibration test is one of the main means of health monitoring and detection of existing bridge structures. It uses natural conditions to excite the bridge. Compared with artificial vibration test, it has the advantage of convenient operation, but it can only...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCY02T90/00
Inventor 张建王琳田永丁
Owner SOUTHEAST UNIV
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