System-in-the-loop Design Space Exploration for Efficient Communication in Large-scale IoT-based Warehouse Systems
- Benjamin Sliwa
- Univ.-Prof. Dr.-Ing. Christian Wietfeld
- Publications
- SFB 876
In 2018 Annual IEEE International Systems Conference (SysCon), IEEE, Vancouver, Canada, April 2018.
Abstract:
Instead of treating inventory items as static resources, future intelligent warehouses will transcend containers to Cyber Physical Systems (CPS) that actively and autonomously participate in the optimization of the logistical processes. Consequently, new challenges that are system-immanent for the massive Internet of Things (IoT) context, such as channel access in a shared communication medium, have to be addressed. In this paper, we present a multi-methodological system model that brings together testbed experiments for measuring real hardware properties and simulative evaluations for large-scale considerations. As an example case study, we will particularly focus on parametrization of the 802.15.4-based radio communication system, which has to be energy-efficient due to scarce amount of harvested energy, but avoid latencies for the maintenance of scalability of the overlaying warehouse system. The results show, that a modification of the initial backoff time can lead to both, energy and time savings in the order of 50% compared to the standard.