Due to global competition and increasing product complexity, the complexity of production systems has grown significantly in recent years. This places an increasing burden on automation developers, systems engineers and plant constructors. Intelligent assistance systems and smart automation systems are a possible solution to face this complexity: The machines, i.e. the software and assistance systems, take over tasks that were previously carried out manually by experts. At the heart of this concept are intelligent anomaly detection approaches based on models of the system behaviors. Intelligent assistance systems learn these models automatically: Based on data, these systems extract most necessary knowledge about the diagnosis task. This paper outlines this data-driven approach to plant analysis using several use cases from industry.
%0 Journal Article
%1 NiggemannFrey15at
%A Niggemann, Oliver
%A Frey, Christian
%D 2015
%J at -- Automatisierungstechnik
%K 01624 paper embedded ai factory data pattern recognition assist admin learn zzz.i40
%N 10
%P 821--832
%R 10.1515/auto-2015-0060
%T Data-driven Anomaly Detection in Cyber-physical Production Systems
%V 63
%X Due to global competition and increasing product complexity, the complexity of production systems has grown significantly in recent years. This places an increasing burden on automation developers, systems engineers and plant constructors. Intelligent assistance systems and smart automation systems are a possible solution to face this complexity: The machines, i.e. the software and assistance systems, take over tasks that were previously carried out manually by experts. At the heart of this concept are intelligent anomaly detection approaches based on models of the system behaviors. Intelligent assistance systems learn these models automatically: Based on data, these systems extract most necessary knowledge about the diagnosis task. This paper outlines this data-driven approach to plant analysis using several use cases from industry.
@article{NiggemannFrey15at,
abstract = {Due to global competition and increasing product complexity, the complexity of production systems has grown significantly in recent years. This places an increasing burden on automation developers, systems engineers and plant constructors. Intelligent assistance systems and smart automation systems are a possible solution to face this complexity: The machines, i.e. the software and assistance systems, take over tasks that were previously carried out manually by experts. At the heart of this concept are intelligent anomaly detection approaches based on models of the system behaviors. Intelligent assistance systems learn these models automatically: Based on data, these systems extract most necessary knowledge about the diagnosis task. This paper outlines this data-driven approach to plant analysis using several use cases from industry.},
added-at = {2016-12-25T19:57:12.000+0100},
author = {Niggemann, Oliver and Frey, Christian},
biburl = {https://www.bibsonomy.org/bibtex/2634157b3a9fd8c49be54ba3022fd659e/flint63},
doi = {10.1515/auto-2015-0060},
file = {de Gruyter:2015/NiggemannFrey15at.pdf:PDF},
groups = {public},
interhash = {9aab1aece7a5f42614bd3b6ac1497657},
intrahash = {634157b3a9fd8c49be54ba3022fd659e},
issn = {0178-2312},
journal = {at -- Automatisierungstechnik},
keywords = {01624 paper embedded ai factory data pattern recognition assist admin learn zzz.i40},
number = 10,
pages = {821--832},
timestamp = {2017-07-13T18:16:22.000+0200},
title = {Data-driven Anomaly Detection in Cyber-physical Production Systems},
username = {flint63},
volume = 63,
year = 2015
}