A reference architecture for condition monitoring. Wollschlaeger, M., Theurich, S., Winter, A., Lubnau, F., & Paulitsch, C. In 2015 IEEE World Conference on Factory Communication Systems (WFCS), pages 1–8, May, 2015. doi abstract bibtex Condition monitoring and diagnostic systems support the operators of machines and plants. By these means, machine operators can run their plants efficiently, perform effective preventive maintenance and supply superordinate information systems with valid machine data. This paper describes the VDMA reference architecture for condition monitoring systems. The components of the architecture are described and their application across all levels of an automation system is shown, combining the single functions to a complete condition monitoring system.
@inproceedings{wollschlaeger_reference_2015,
title = {A reference architecture for condition monitoring},
doi = {10.1109/WFCS.2015.7160555},
abstract = {Condition monitoring and diagnostic systems support the operators of machines and plants. By these means, machine operators can run their plants efficiently, perform effective preventive maintenance and supply superordinate information systems with valid machine data. This paper describes the VDMA reference architecture for condition monitoring systems. The components of the architecture are described and their application across all levels of an automation system is shown, combining the single functions to a complete condition monitoring system.},
booktitle = {2015 {IEEE} {World} {Conference} on {Factory} {Communication} {Systems} ({WFCS})},
author = {Wollschlaeger, Martin and Theurich, Stefan and Winter, Albrecht and Lubnau, Frank and Paulitsch, Christoph},
month = may,
year = {2015},
keywords = {Automation, Condition monitoring, Guidelines, Industrial communication, Industries, Monitoring, VDMA reference architecture, automation system, condition diagnostic system, condition monitoring, condition monitoring system, function block, information systems, maintenance, mechanical engineering computing, preventive maintenance, software architecture, superordinate information systems, valid machine data, vertical integration},
pages = {1--8},
}
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