Análisis de arquitecturas tecnológicas para el nuevo paradigma de la Industria 4.0

  1. Félix Larrinaga-Barrenechea 1
  2. Íñigo Aldalur-Ceberio 1
  3. Miren Illarramendi-Rezabal 1
  4. Mikel Iturbe-Urretxa 1
  5. Txema Pérez-Lazare 1
  6. Gorka Unamuno-Eguren 2
  7. Jon Salvidea-Campuzano 3
  8. Inaxio Lazkanoiturburu 4
  1. 1 Mondragón Unibertsitatea. España
  2. 2 IK-4 Ideko S. Coop. España
  3. 3 Sawy. España
  4. 4 ULMA Embedded Solutions. España
Aldizkaria:
Revista DYNA

ISSN: 0012-7361 0012-7361

Argitalpen urtea: 2019

Alea: 94

Zenbakia: 3

Orrialdeak: 267-271

Mota: Artikulua

DOI: 10.6036/8837 DIALNET GOOGLE SCHOLAR lock_openeBiltegia editor

Beste argitalpen batzuk: Revista DYNA

Garapen Iraunkorreko Helburuak

Laburpena

The present work defines an interoperable and scalable architecture that will allow the servitization of the machine tool sector. ICT and the Internet of Things make possible to interconnect different devices and controllers, offering value-added services. One of the problems to be solved is the interoperability between the different IoT devices. Several platforms enable interoperability between devices. Our work uses Arrowhead with that purpose. In addition, with the aim of offering solutions in an agile and flexible way, we have chosen to use containers (Docker technology). Thus, the interoperability platform is managed within these containers making configuration and operation more agile and flexible. A use case is presented where a Danobat machine tool can offer value-added maintenance and efficiency services. For this purpose, data is acquired from the machine itself but data is also acquired from third-party devices such as ULMA's device. The interconnection of all this data is done in a transparent way for the user and through the interoperable Arrowhead platform. All this work has been carried out within the framework of the Productive 4.0 project.

Finantzaketari buruzko informazioa

The project has been developed by the Software and Systems Engineering and Data Analytics and Cybersecurity Research Groups of MGEP. IK4-IDEKO, SAVVY and Ulma Embedded Systems and supported by the Department of Education, Universities and Research of the Basque Government under the projects Ikerketa Taldeak (Grupo de Sistemas Embebidos) and TEKINTZE (Elkartek 2018) and the European H2020 research and innovation programme, ECSEL Joint Undertaking, and National Funding Authorities from 19 involved countries under the project Productive 4.0 with grant agreement no. GAP-737459 - 999978918.