Yanbin Shen scite author profile

Summary Identification of earthquake ground motion from structural health monitoring (SHM) data provides a good means to reconstruct seismic loads that are essential for postearthquake safety assessments and disaster simulations of structures. Because the data measured by an SHM system are structural absolute response, they cannot be directly applied to the structural motion equation, which is established in relative coordinate system. As such, this paper originally derives the motion equation in absolute coordinate system and then expands the equation into modal space. In addition, the proposed method allows for identifying earthquake ground motion using incomplete modal information and limited measurements through the standard Kalman filter. Subsequently, a numerical two‐dimensional frame is used to validate the feasibility of the proposed method, and the influences of modal parameters and measurement noise on the identification accuracy are also fully investigated. The results show that the proposed method is sensitive to frequency and measurement noise but insensitive to modal shape and damping ratio. It is also found that the identified ground motion subjected to certain measure noise can still be reliably employed for postseismic response calculations of medium‐ and long‐period structures. Finally, a shaking table test performing on a five‐floor frame further demonstrates the effectiveness and accuracy of the proposed identification algorithm for practical application.

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Static and Dynamic Characteristics of a Long-Span Cable-Stayed Bridge with CFRP Cables

Xie

Shen

2014

Materials

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In this study, the scope of CFRP cables in cable-stayed bridges is studied by establishing a numerical model of a 1400-m span of the same. The mechanical properties and characteristics of CFRP stay cables and of a cable-stayed bridge with CFRP cables are here subjected to comprehensive analysis. The anomalies in the damping properties of free vibration, nonlinear parametric vibration and wind fluctuating vibration between steel cables and CFRP cables are determined. The structural stiffness, wind resistance and traffic vibration of the cable-stayed bridge with CFRP cables are also analyzed. It was found that the static performances of a cable-stayed bridge with CFRP cables and steel cables are basically the same. The natural frequencies of CFRP cables do not coincide with the major natural frequencies of the cable-stayed bridge, so the likelihood of CFRP cable-bridge coupling vibration is minuscule. For CFRP cables, the response amplitudes of both parametric vibration and wind fluctuating vibration are smaller than those of steel cables. It can be concluded from the research that the use of CFRP cables does not change the dynamic characteristics of the vehicle-bridge coupling vibration. Therefore, they can be used in long-span cable-stayed bridges with an excellent mechanical performance.

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Understanding the Effect of Central Government Funding on the Service and Advocacy Roles of Nonprofit Organizations in China: A Cross-Regional Comparison

Shen

2019

Nonprofit and Voluntary Sector Quarterly

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This research examines the effects of government funding on the service and advocacy roles of nonprofit organizations in China through a cross-regional comparison. Based on a nationwide survey of 2,058 nonprofits and in-depth interviews with 65 nonprofit executives from the same sample in 2013–2017, we find that a higher level of central government funding leads to stronger organizational capacity for service provision through leveraging matching funds and to more intensive administrative advocacy and media advocacy. Furthermore, a cross-regional comparison shows that, in contrast to those in nonwestern regions, nonprofit organizations with higher levels of central government funding in the western region engage in more administrative advocacy but less in media advocacy. Taken together, these findings highlight the importance of the government’s leverage strategy and selective empowerment in shaping nonprofits’ service and advocacy roles through government funding in China.

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An efficient numerical shape analysis for light weight membrane structures

Yang

Shen

Luo

2014

J. Zheijang Univ.-Sci.

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Abstract:The determination of initial equilibrium shapes is a common problem in research work and engineering applications related to membrane structures. Using a general structural analysis framework of the finite particle method (FPM), this paper presents the first application of the FPM and a recently-developed membrane model to the shape analysis of light weight membranes. The FPM is rooted in vector mechanics and physical viewpoints. It discretizes the analyzed domain into a group of particles linked by elements, and the motion of the free particles is directly described by Newton's second law while the constrained ones follow the prescribed paths. An efficient physical modeling procedure of handling geometric nonlinearity has been developed to evaluate the particle interaction forces. To achieve the equilibrium shape as fast as possible, an integral-form, explicit time integration scheme has been proposed for solving the equation of motion. The equilibrium shape can be obtained naturally without nonlinear iterative correction and global stiffness matrix integration. Two classical curved surfaces of tension membranes produced under the uniform-stress condition are presented to verify the accuracy and efficiency of the proposed method.

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Development of a Multitype Wireless Sensor Network for the Large-Scale Structure of the National Stadium in China

Shen

Yang

Zhang

et al. 2013

International Journal of Distributed Sensor Networks

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A multitype wireless sensor network (WSN) for structural health monitoring is developed for the National Stadium in China (generally known as "Bird's Nest"). The stadium is a super large-scale building built for the 2008 Beijing Olympic Games and can house more than 90,000 occupants. The structure is very rigid and weighs more than 40,000 tons in total. Considering the structural features and on-site environment, the system takes multitype sensors as measurement components including stress, displacement, acceleration, wind, and temperature. The monitoring module design consists of four functions: sensing, processing, wireless communication, and energy management. The communication between each sensor node is realized by using an adjustable and artificial-control chain-type network. A total of 290 sensors were installed on the structure, and the data collection work has been carried out for more than one year. This paper mainly focuses on the system development and project application, while the data analysis work is briefly discussed as well. It can be concluded that the customized WSN is robust and durable, which well satisfies the requirement of plenty multitype sensors working in a large-area distribution. The data analysis results reveal that the super large-scale structure is very sensitive to the temperature effect.

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Yanbin Shen

Identification of earthquake ground motion based on limited acceleration measurements of structure using Kalman filtering technique

Static and Dynamic Characteristics of a Long-Span Cable-Stayed Bridge with CFRP Cables

Understanding the Effect of Central Government Funding on the Service and Advocacy Roles of Nonprofit Organizations in China: A Cross-Regional Comparison

An efficient numerical shape analysis for light weight membrane structures

Development of a Multitype Wireless Sensor Network for the Large-Scale Structure of the National Stadium in China

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