Anforderungsdesign für eine Echtzeitkommunikation eines Simulationsmodells mit automatisierten Intralogistik-Systemen

The increasing complexity and volatility of requirements in intralogistics systems pose significant challenges for the commissioning of automated warehouse solutions. Changing business conditions can lead to frequent adjustments during the implementation and commissioning phases, complicating the path to final acceptance in large-scale intralogistics projects. This thesis aims to develop a structured set of requirements for establishing real-time communication between selected warehouse systems and a simulation model. The proposed communication framework is intended to enable remote support during commissioning, facilitating the verification of system optimizations and the early detection of errors. To achieve this, an interface analysis will be conducted to identify all relevant system information, define communication requirements, and determine necessary adaptations. The scope of this work is limited to a defined set of fully automated warehouse components. The outcome of this research will be a comprehensive requirement specification that supports the successful implementation of real-time communication, incorporating existing system data, required modifications, and additional information essential for reliable and efficient interaction between the involved systems.