https://mikelayuso.com/tags/industry-4.0/Industry 4.0HugoBlox Kit (https://hugoblox.com)en-usTue, 21 Sep 2021 00:00:00 +0000https://mikelayuso.com/media/icon_hu_b0970716f810afd6.pnghttps://mikelayuso.com/tags/industry-4.0/https://mikelayuso.com/papers/hyperconnected-architecture/Tue, 21 Sep 2021 00:00:00 +0000https://mikelayuso.com/papers/hyperconnected-architecture/<h2 id="abstract">Abstract</h2> <p>The HyperCOG project addresses the full digital transformation of process industry through an innovative Industrial Cyber-Physical System and Data Analytics. It is based on advanced technologies that enable the development of a hyperconnected network of digital nodes. The nodes can catch outstanding streams of data in real-time, which together with the high computing capabilities, provide sensing, knowledge and cognitive reasoning, making companies robust in the face of variant scenarios. The breaking-edge system proposed in this work is validated on productivity, environmental and replicability aspects on three use cases of three different sectors: steel, cement and chemical.</p> <h2 id="key-contributions">Key Contributions</h2> <ul> <li>Architecture for seamless data integration across production systems</li> <li>Cognitive layer design for intelligent decision support</li> <li>Implementation guidelines for Industry 4.0 transition</li> </ul>https://mikelayuso.com/papers/cpps-industry-4-0/Mon, 23 Aug 2021 00:00:00 +0000https://mikelayuso.com/papers/cpps-industry-4-0/<h2 id="abstract">Abstract</h2> <p>The Hyperconnected Architecture for High Cognitive Production Plants (HyperCOG) project aims at the process industry’s complete digital transformation through an advanced Industrial Cyber-Physical Infrastructure. It is based on advanced technologies that allow a hyperconnected network of digital nodes to be created improving the classic automation hierarchy of communication layers. The nodes will collect data streams in real-time, offering cognitive sensing and information along with high performance computing capabilities making the process industry businesses solid in different scenarios. The system is validated in three fields of the process industry: steel, cement and chemical where optimization in the use of energy and raw materials is obtained, among other benefits.</p> <h2 id="key-contributions">Key Contributions</h2> <ul> <li>Framework for CPPS implementation in smart factories</li> <li>Integration patterns for legacy and modern manufacturing equipment</li> <li>Case studies demonstrating improved production efficiency</li> </ul>