In the context of Industry 4.0, smart factories use advanced sensing and data analytic technologies to understand and monitor the manufacturing processes. To enhance production efficiency and reliability, statistical Artificial Intelligence (AI) technologies such as machine learning and data mining are used to detect and predict potential anomalies within manufacturing processes. However, due to the heterogeneous nature of industrial data, sometimes the knowledge extracted from industrial data is presented in a complex structure. This brings the semantic gap issue which stands for the lack of interoperability among different manufacturing systems. Furthermore, as the Cyber-Physical Systems (CPS) are becoming more knowledge-intensive, unifor...
The research presented in this thesis is focused on improving industrial maintenance by using better...
Abstract The operation of industrial manufacturing processes can suffer greatly when critical compo...
The Internet of Things (IoT), Big Data and Machine Learning (ML) may represent the foundations for i...
International audienceWithin manufacturing processes, faults and failures may cause severe economic ...
Industry 4.0 must respond to some challenges such as the flexibility and robustness of unexpected co...
International audienceWithin manufacturing processes, anomalies such as machinery faults and failure...
The purpose of this paper is to mapping and review what has been done on the topic of research on pr...
eISSN 2071-2987Today we live in fourth industrial revolution, called Industry 4.0 where cyber physic...
Recent development in the predictive maintenance field has focused on incorporating artificial intel...
The Industrial Internet of Things (IIoT) is the use of Internet of Things (IoT) technologies in manu...
The advent of Industry 4.0 provides new opportunities to improve the maintenance of production equip...
In the production, the efficient employment of machines is realized as a source of industry competit...
The increasing availability of data, gathered by sensors and intelligent machines, is chang-ing the ...
The research presented in this thesis is focused on improving industrial maintenance by using better...
Abstract The operation of industrial manufacturing processes can suffer greatly when critical compo...
The Internet of Things (IoT), Big Data and Machine Learning (ML) may represent the foundations for i...
International audienceWithin manufacturing processes, faults and failures may cause severe economic ...
Industry 4.0 must respond to some challenges such as the flexibility and robustness of unexpected co...
International audienceWithin manufacturing processes, anomalies such as machinery faults and failure...
The purpose of this paper is to mapping and review what has been done on the topic of research on pr...
eISSN 2071-2987Today we live in fourth industrial revolution, called Industry 4.0 where cyber physic...
Recent development in the predictive maintenance field has focused on incorporating artificial intel...
The Industrial Internet of Things (IIoT) is the use of Internet of Things (IoT) technologies in manu...
The advent of Industry 4.0 provides new opportunities to improve the maintenance of production equip...
In the production, the efficient employment of machines is realized as a source of industry competit...
The increasing availability of data, gathered by sensors and intelligent machines, is chang-ing the ...
The research presented in this thesis is focused on improving industrial maintenance by using better...
Abstract The operation of industrial manufacturing processes can suffer greatly when critical compo...
The Internet of Things (IoT), Big Data and Machine Learning (ML) may represent the foundations for i...