Fault Detection Expert System of Elevator Control Cabinet Based on LabView

Bao Gui Yang

doi:10.4028/www.scientific.net/AMM.539.596

Paper Titles

Temperature and Humidity Controller Based on P89LPC920FDH
p.577

The Design and Realization of Network Remote Control Based on ARM9 and VC6
p.581

Comparative Study of the Auto Electronic Control System
p.587

Design of Automatic Control System for Intelligent Micro Drip Irrigation Based on PLC Technology
p.592

Fault Detection Expert System of Elevator Control Cabinet Based on LabView
p.596

Fault-Tolerant Control against Actuator Failures for a Class of Uncertain Singular Systems
p.601

Research on Local Control System of Hydropower Station Spillway
p.606

Research on the Design of Laptop Temperature Control System
p.611

Study of Optical Polishing Machine Based on Intelligent Control Technology
p.615

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 539Fault Detection Expert System of Elevator Control...

Fault Detection Expert System of Elevator Control Cabinet Based on LabView

Abstract:

An expert testing system of elevator control cabinet was developed based on LabView, for resolving the difficulties on elevator testing and elevator fault troubleshooting. With fault tree analysis algorithm, manual knowledge obtaining method was used, and forward reasoning strategy was employed for locating the possible reason of the system fault quickly and exactly. The system was modularized to reduce the complexity of the program. The graphical interface was programmed by LabView to improve human-computer interaction ability. The results indicated the expert system can be applied to system fault detection well and improve the efficiency of elevator troubleshooting.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 539)

Pages:

596-600

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.539.596

Citation:

Cite this paper

Online since:

July 2014

Authors:

Bao Gui Yang

Keywords:

Elevator, Expert System, Fault Tree, LabVIEW

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Yongliang Li. The Thinking from Elevator Inspection [J]. Labor Protection, 2013 (01): p.100~101.

Google Scholar

[2] Jiayin Zheng. Discussion on the Danger Sources in Elevator Inspection and the Protection Strategies [J]. Henan Science and Technology, 2013 (09): p.76.

Google Scholar

[3] Junbei Wang. Discussion on the Elevator Electric Faults and Inspection Methods [J]. Keji Zhifu Xiangdao, 2013 (05): p.203+172.

Google Scholar

[4] Qun Zong, Guangyu Li, Meng Guo. An Elevator Fault Diagnosis Expert System Design based on Fault Tree [J]. Control Engineering, 2013 (02): p.305~308.

Google Scholar

[5] Liuzhou Jiang. The Realization of Intelligent Elevator Control System based on FPGA [J]. Huazhang, 2013 (02): p.346.

Google Scholar

[6] Hanyin Cao, Wei Nie. Study of Automatic Scoring System for Marine Engine Room Simulator Based on Expert System [J]. Marine Electric & Electronic Technology, 2013 (02): p.37~39.

Google Scholar

[7] Avci, E., A new method for expert target recognition system: Genetic wavelet extreme learning machine (GAWELM). Expert Systems with Applications, 2013. 40(10): p.3984~3993.

DOI: 10.1016/j.eswa.2013.01.011

Google Scholar

[8] Bao, J. and X. -L. Liu, Fault Diagnosis of Elevator Control System based on Information Fusion. Application Research of Computers, 2011. 28 (3): p.869~72, 876.

Google Scholar

[9] Gu, D. and D. Yan, Elevator Group Control System based on Fuzzy Single-chip Computer, in Recent Trends in Materials and Mechanical Engineering Materials, Mechatronics and Automation, Pts 1-3, Q. Luo, Editor. 2011. p.1218~1222.

DOI: 10.4028/www.scientific.net/amm.55-57.1218

Google Scholar

[10] Legara, E.F.T., C.P. Monterola, and C. David, Complex Network Tools in Building Expert Systems That Perform Framing Analysis. Expert Systems with Applications, 2013. 40 (11): p.4600~4608.

DOI: 10.1016/j.eswa.2013.01.064

Google Scholar

[11] Wang, Z. -t., et al., Multi-objective Scheduling Algorithm for Distributed Elevator Group Control System. Control Theory & Applications, 2011. 27(5): p.602~8.

Google Scholar