应变是表征工程结构健康状态的重要指标。
Structural strain is one of the important parameters of representing structural health conditions.
基于灰色理论,提出了历史建筑结构健康状态的评判方法。
Based on Grey Theory, the method of assessing the historical-building's health state is studied.
在结构健康状态监测中,光纤传感器因其良好的性能而得以广泛运用。
In the health monitoring of structures, Fiber optical sensor has been used widely due to its good performance.
这种方法可以综合考虑多种因素对结构响应量的影响,有望实现对桥梁结构健康状态的实时评估。
This evaluation method may take comprehensive multi-factor influence on the structure response variables into consideration. There is hope of real-time health state evaluation of bridge structures.
结构健康监测中,对于大型、复杂的结构,要想获得反映整个结构健康状态的数据参数,就必须在结构的各个重要部位安装多个不同类型的传感器。
Many different types sensors were fixed in each important spots of a large-scale, complex structure, in order to acquire the data reflecting the health state of the structure.
基于青岛丹山水库混凝土斜拉桥,建立了斜拉桥有限元数值分析模型,确定桥梁受损后各子结构权重,选择典型斜拉索,对桥梁结构健康状态进行分析。
In this model, the impact weights of every sub-structure in damaged bridge are calculated, the typical cables are selected, and bridge structure health condition is analyzed.
然后,让细节浮现出来并对定期重构制订计划,以让体系结构保持健康状态。
Then, let the details emerge and plan on regular refactoring to keep the architecture healthy.
因此,为了保证结构的安全性、完整性和耐久性,需采用有效的手段对结构的健康状态进行诊断。
Therefore, in order to ensure the structural safety, integrity and durability of the structure, some effective measures should be taken to fulfill the health diagnosis.
利用结构动力学原理和现代检测技术相结合对桥梁的健康状态进行识别的方法研究已成为相关科技工作者关注的热点。
The research of approach to monitor bridge health state has become a hot spot which social and technologic people have explored through the theory of, dynamics of structures and the lest technology.
在现阶段,桥梁健康检测、桥梁损伤识别和状态评估来确保结构设计寿命内的安全运营已成为关注的课题。
At this stage, the bridge health monitoring, damage identification and condition assessment to ensure that the structure of the safe operation within the design life has become a concern.
土壤健康是指土壤处于一种良好的或正常的结构和功能状态及其动态过程。
Soil health was a kind of status or dynamic process with good and normal ecological structure and function.
因此,如何科学地利用健康监测系统等提供的数据对结构状态进行合理的评估具有重要意义。
Therefore, how to make use of datas provided by health monitoring systems or by other means scientifically to assess condition of structures reasonably is of great significance.
本文对智能结构的理论框架及其健康状态的检测与监测进行了一些探索和研究。
In this paper, the author has done some research works on the theory frame of the intelligent structure, the detection and health condition inspection of it.
该实现方案还可用于大坝、公路桥、巨型建筑体等大型结构的远程健康状态监测。
These schemes can also be used in the remote health monitoring for other large structures such as DAMS, highway Bridges and super architectural buildings, etc.
结构健康监测过程是通过传感器阵列周期采集动态响应数据来观察结构状态。
The SHM process involves the observation of a system over time using periodically sampled dynamic response measurements from an array of sensors.
结构健康监测过程是通过传感器阵列周期采集动态响应数据来观察结构状态。
The SHM process involves the observation of a system over time using periodically sampled dynamic response measurements from an array of sensors.
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