Frank Jablonski (Moderator), Ralf Neubert (Schneider Electric), Ralf Neubert (Schneider Electric), Dr. Andreas Müller (General Chair 5G-ACIA | Bosch), Dr. Josef Blanz (Member of the Board 5G-ACIA | Qualcomm), Ansgar Bergmann (KION Group)
April 15, 2021 - April 15, 2021, online
Dr. Andreas Müller (General Chair 5G-ACIA | Bosch), Ralf Neubert (General Chair VDMA-WCM | Schneider Electric), Alexander Bentkus (Secretary 5G-ACIA), Dr. Miriam Solera (Consultant, VDMA)
Frank Jablonski (Moderator), Ralf Neubert (Schneider Electric), Ralf Neubert (Schneider Electric), Dr. Andreas Müller (General Chair 5G-ACIA | Bosch), Dr. Josef Blanz (Member of the Board 5G-ACIA | Qualcomm), Ansgar Bergmann (KION Group)
Sander Rotmensen (Siemens AG)
Sylvia Lu (Member of the Board 5G-ACIA | u-blox), Stefan Hoppe (President OPC Foundation)
Dr. Andreas Müller (General Chair 5G-ACIA | Bosch)
Dr. Kun Wang (Ericsson)
This white paper describes why and how 5G will be applied in industrial networks together with TSN and what interactions between 5G and TSN are needed in order to seamlessly integrate 5G with TSN.
Read the white paper here.
Josef Eichinger (Huawei)
The white paper gives an overview of 5G and the I4.0 AAS concept and suggests AAS submodels for the 5G Network and 5G UEs for the efficient integration of industrial 5G as part of the factory infrastructure.
Read the white paper here.
Kurt Essigmann (Ericsson)
The white paper highlights the required capabilities that must be exposed by private 5G networks towards enterprise users and provides a deployment model for the exposure architecture.
Read the white paper here.
Ali Rezaki (Nokia)
The white paper “Security Aspects of 5G for Industrial Networks” focused on capturing novel security requirements of 5G use cases in industrial verticals.
Read the white paper here.
Dr. Lisa Underberg (ifak)
The previously presented white papers each addressed a specific aspect within the 5G ecosystem. Independent from how these aspects are implemented in a real-world installation, the aim of a 5G system is clear - because after all it is a tool supposed to be used to enable a specific industrial application. But how do I as a user ensure that the 5G system I selected is really capable of supporting my specific application? Performance testing is the answer to that, and this is why 5G-ACIA addressed it in a white paper.
Read the white paper here.
Arne Neumann (InIT – Institute Industrial IT TH Ostwestfalen-Lippe)
Dr. Joachim Sachs (Ericsson), Dr. Krister Landernas (ABB)
In the Kista testbed, Ericsson together with ABB are implementing a 5G-based industrial robotics trial.
Peter Buseck (Bosch), Dr. Leefke Grosjean (Ericsson)
The 5G-SMART testbed in the Bosch semiconductor factory is installed in a 24/7 operating semiconductor plant in Reutlingen. The testbed will look into how factory automation can be enhanced with 5G.
Josef Eichinger (Huawei)
Huawei 5G testbed provides an open platform for industrial partners to test different features of the 5G system and it can be integrated with applications e.g. AI based analytics.
Niels König (Fraunhofer IPT), Bart Mellaerts (Ericsson)
The testbed consists of a 5G indoor and outdoor solution covering the industrial shopfloor of Fraunhofer IPT in Aachen.
Dr. Afif Osseiran (General Vice-Chair 5G-ACIA | Ericsson)