Software System Development of Crane Structural Health Monitoring

Guojian Huang; Dong Hui Wang; Xin Hua Wang; Zhen Yu He

doi:10.4028/www.scientific.net/AMR.774-776.1599

Paper Titles

The Study on Diaphragm's Mechanical Properties of Hot-Film Air Flow Sensor
p.1577

Multi-Frequency Heterodyne Phase Shift Technology in 3-D Measurement
p.1582

Study on Crane Structural Health Monitoring and Early Warning Expert System
p.1586

Research of Imaging and Inversion of Seismic Attribute
p.1591

Software System Development of Crane Structural Health Monitoring
p.1599

A Construction of Fault Test Constraint Based on the Optimal Fusion Set of Multiple Slices
p.1604

Measurement of Cobalt Gradient in Functionally Graded WC-Co Composites
p.1609

Multiple Reflection Cancellation Using High Order Statistics Adaptive Filter for Scattered Triangulation Laser Displacement Sensor
p.1613

An Automatic Barn-Entering System for Grains
p.1617

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 774-776Software System Development of Crane Structural...

Software System Development of Crane Structural Health Monitoring

Abstract:

In order to improve the level of safety technology and safeguard work efficiency, software is developed. The software is divided into several functional modules: User information Management Module, System Settings Module, Information Collection and Transmission Module, Database Management Module, Data Analysis Module, Site Display Module and User Help Module. This paper focuses on the development and application of the system software. Sensors data is collecting by a FBG System, and directly send into Crane Structure Health Monitoring and Security Alarm Expert System via data filtering and data correction procedures. Users can access the expert systems data network and expert system can send warning or alarm information to user via Wi-Fi. Its the main part of the software platform. After software functional use cases,the next thing to do is the dynamic behavior of software modeling. The dynamic behavior is related to information exchange between users and software, software and peripherals.

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Periodical:

Advanced Materials Research (Volumes 774-776)

Pages:

1599-1603

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.774-776.1599

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Online since:

September 2013

Authors:

Guojian Huang, Dong Hui Wang, Xin Hua Wang, Zhen Yu He

Keywords:

Crane, Expert System, Structural Health Monitoring (SHM)

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References

[1] Chen Feng. Research on Distributional Integrated Software System for Structure Health Monitoring[D]. Nanjing University of Aeronautics and Astronautics, (2006).

Google Scholar

[2] Hasan Z, Hasweh F, Al-Nadi O A, et al. An automated structural health monitoring system[Z]. Denver, CO, United states: 2011991-1001.

Google Scholar

[3] Srivastava A N, Schumann J. The Case for Software Health Management[C]. (2011).

Google Scholar

[4] Flynn E B, Kpotufe S, Harvey D, et al. SHMTools: A new embeddable software package for SHM applications[Z]. San Diego, CA, United states: (2010).

DOI: 10.1117/12.848234

Google Scholar

[5] Taylor S G, Carroll J, Farinholt K M, et al. Embedded processing for SHM with integrated software control of a wireless impedance device[Z]. San Diego, CA, United states: (2011).

DOI: 10.1117/12.881976

Google Scholar

[6] Dubey A, Karsai G, Mahadevan N. Model-based software health management for real-time systems[C]. (2011).

DOI: 10.1109/aero.2011.5747559

Google Scholar

[7] Ahlendorf H, Ag Z. Hardware / software design challenges of low-power sensor nodes for condition monitoring[J]. Design, Automation & Test in Europe Conference & Exhibition (DATE). 2010: 659.

DOI: 10.1109/date.2010.5457122

Google Scholar

[8] GZSEI. Crane structural health monitoring system server software[P]. 2012. 2012SR113667.

Google Scholar

[9] GZSEI. Crane Structural health monitoring system software V1. 0[P]. 2012. 2012SR113625.

Google Scholar

[10] GZSEI. Crane structural health monitoring system touch screen HMI software V1. 0[P]. 2012. 2012SR113670.

Google Scholar