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18 March 2019 Cyber-enabled distributed machine learning for smart manufacturing systems
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Abstract
In this paper, we propose a distributed machine learning (DML) algorithm to fulfill the requirements of the smart factory (or Industry 4.0) including self-organization, a distributed control function, communication between the smart components, and real-time decision-making capability. We show the proposed DML algorithm not only enables the smart factory to adjust the components for new demands and circumstances, but also each component of the system acts smart and communicate with each other, either request or offer functions. The DML is an interactive learning mechanism among smart components and a natural way of scaling up learning algorithms. The different machines can have the best learning algorithms of their own data while the communication between different learning processes is an integration of different learning biases that compensate one another for their inefficient characteristics. As such, the size of the smart factory is scalable and the growing amount of data from additional machines has a minor effect on the communication overheat. We will elaborate on the DML model that overcomes the problems of centralized systems and increases the possibility of achieving higher accuracy, especially on a large-size domain.
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Yaser Banadaki and Safura Sharifi "Cyber-enabled distributed machine learning for smart manufacturing systems", Proc. SPIE 10973, Smart Structures and NDE for Energy Systems and Industry 4.0, 109730Z (18 March 2019); https://doi.org/10.1117/12.2514911
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