Publication:
IO-Link Wireless enhanced factory automation communication for Industry 4.0 applications

cris.customurl16493
cris.virtual.departmentElektrische Messtechnik
cris.virtual.departmentElektrische Messtechnik
cris.virtual.departmentElektrische Messtechnik
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cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
cris.virtual.departmentbrowseElektrische Messtechnik
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dc.contributor.authorHeynicke, Ralf
dc.contributor.authorKrush, Dmytro
dc.contributor.authorCammin, Christoph
dc.contributor.authorScholl, Gerd
dc.contributor.authorKaercher, Bernd
dc.contributor.authorRitter, Jochen
dc.contributor.authorGaggero, Pascal
dc.contributor.authorRentschler, Markus
dc.date.issued2018-03-06
dc.description.abstractIn the context of the Industry 4.0 initiative, Cyber-Physical Production Systems (CPPS) or Cyber Manufacturing Systems (CMS) can be characterized as advanced networked mechatronic production systems gaining their added value by interaction with the ambient Industrial Internet of Things (IIoT). In this context appropriate communication technologies and standards play a vital role to realize the manifold potential improvements in the production process. One of these standards is IO-Link. In 2016 more than 5 million IO-Link nodes have been produced and delivered, still gaining increasing acceptance for the communication between sensors, actuators and the control level. The steadily increasing demand for more flexibility in automation solutions can be fulfilled using wireless technologies. With the wireless extension for the IO-Link standard, which will be presented in this article, maximum cycle times of 5 ms can be achieved with a probability that this limit will be exceeded to be at maximum one part per billion. Also roaming capabilities, wireless coexistence mechanisms and the possibility to include battery-powered or energy-harvesting sensors with very limited energy resources in the realtime network were defined. For system planning, setup, operation and maintenance, the standard engineering tools of IO-Link can be employed so that the backward compatibility with wired IO-Link solutions can be guaranteed. Interoperability between manufacturers is a key requirement for any communication standard, thus a procedure for IO-Link Wireless testing is also suggested.
dc.description.versionVoR
dc.identifier.citationHeynicke, R., Krush, D., Cammin, C., Scholl, G., Kaercher, B., Ritter, J., Gaggero, P., and Rentschler, M.: IO-Link Wireless enhanced factory automation communication for Industry 4.0 applications, J. Sens. Sens. Syst., 7, 131–142, https://doi.org/10.5194/jsss-7-131-2018, 2018.
dc.identifier.doi10.5194/jsss-7-131-2018
dc.identifier.issn2194-878X
dc.identifier.urihttps://openhsu.ub.hsu-hh.de/handle/10.24405/16493
dc.language.isoen
dc.publisherCopernicus
dc.relation.journalJournal of Sensors and Sensor Systems (JSSS)
dc.relation.orgunitElektrische Messtechnik
dc.rights.accessRightsmetadata only access
dc.titleIO-Link Wireless enhanced factory automation communication for Industry 4.0 applications
dc.typeForschungsartikel
dcterms.bibliographicCitation.originalpublisherplaceGöttingen
dspace.entity.typePublication
hsu.peerReviewed
hsu.uniBibliography
oaire.citation.endPage142
oaire.citation.issue1
oaire.citation.startPage131
oaire.citation.volume7
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