TY - JOUR
T1 - Consideration Of RFID Systems In The Factory Planning Process
AU - Looschen, Christian
AU - Berger, Simon
AU - Lach, Miroslav
AU - Fottner, Johannes
N1 - Publisher Copyright:
© Institute for Production and Logistics Research GbR Herberger & Hübner.
PY - 2021
Y1 - 2021
N2 - RFID technology enables products and load units to be identified in the absence of a direct line of sight. In recent years, it has grown into one of the principal tools of identification used in industrial environments. For it to function properly, efficiently and reliably in such locations, factory planners require comprehensive integration of an RFID system. Although planning methods and tools for integrating RFID into existing production and logistical environments are available, it takes a great deal of time and expense to implement the procedures successfully. This is because logistics and production systems and processes need to be adapted to incorporate an RFID process, which discourages many companies from installing it in their production. Furthermore, to avoid identification problems in production and material flow processes, factory planners need substantial knowledge of the parameters that influence RFID. This paper presents a generic planning method which considers the conceptual design and implementation of RFID systems in an industrial environment from the beginning of the factory planning process. The aim of the method is to give factory planners and RFID experts a guideline on how to plan and implement RFID, by taking an interdisciplinary approach. After first reviewing current RFID planning methods, the paper presents a new six-phase planning method the aim of which is to enable experts in the industry to plan their production, logistics and RFID systems simultaneously, with due regard for the individual requirements of each system.
AB - RFID technology enables products and load units to be identified in the absence of a direct line of sight. In recent years, it has grown into one of the principal tools of identification used in industrial environments. For it to function properly, efficiently and reliably in such locations, factory planners require comprehensive integration of an RFID system. Although planning methods and tools for integrating RFID into existing production and logistical environments are available, it takes a great deal of time and expense to implement the procedures successfully. This is because logistics and production systems and processes need to be adapted to incorporate an RFID process, which discourages many companies from installing it in their production. Furthermore, to avoid identification problems in production and material flow processes, factory planners need substantial knowledge of the parameters that influence RFID. This paper presents a generic planning method which considers the conceptual design and implementation of RFID systems in an industrial environment from the beginning of the factory planning process. The aim of the method is to give factory planners and RFID experts a guideline on how to plan and implement RFID, by taking an interdisciplinary approach. After first reviewing current RFID planning methods, the paper presents a new six-phase planning method the aim of which is to enable experts in the industry to plan their production, logistics and RFID systems simultaneously, with due regard for the individual requirements of each system.
KW - Factory Planning
KW - Planning Processes
KW - RFID Planning
KW - RFID Systems
UR - http://www.scopus.com/inward/record.url?scp=85163977649&partnerID=8YFLogxK
U2 - 10.15488/11283
DO - 10.15488/11283
M3 - Conference article
AN - SCOPUS:85163977649
SN - 2701-6277
SP - 349
EP - 358
JO - Proceedings of the Conference on Production Systems and Logistics
JF - Proceedings of the Conference on Production Systems and Logistics
T2 - 2nd Conference on Production Systems and Logistics, CPSL 2021
Y2 - 10 August 2021 through 11 August 2021
ER -