Industrial Communication Technology
KoMe: Kognitive Mediumszugangsalgorithmen für industrielle Funkanwendungen
Prof. Dr.-Ing. Uwe Meier
01.07.2015 bis 30.04.2018
The goal of this project is an efficient and collision free usage of a limited frequency band for industrial wireless systems. Availability and real-time performance shall be met, even with varying communication demand and varying wireless environment. To meet this goal, a central coexistence management with cognitive medium access strategies shall be investigated.
This project is promoted by:
Forschungskuratorium Maschinenbau - FKM
Funding Code: IGF18350BG/3
Funding Lines:
BMWi - IGF
Stakeholders / Contacts:
Prof. Dr.-Ing. Uwe Meier
Employees:
Nico Wiebusch,
Daniel Töws, M. Sc.
Dimitri Block, M. Sc., Prof. Dr.-Ing. Uwe Meier
Coexistence Performance of WSAN: Simulative Evaluation
Dimitri Block, M. Sc., Malte Schmidt, M. Sc., Dr.-Ing. Lars Dürkop, Nico Wiebusch, Prof. Dr.-Ing. Uwe Meier
Coexistence of Wireless Control Systems: An Integral Event-based Simulation Approach
In: 21st IEEE Conference on Emerging Technologies and Factory Automation - ETFA 2016, Sep 2016
Nico Wiebusch, Dimitri Block, M. Sc., Prof. Dr.-Ing. Uwe Meier
A Centralized Cooperative SNMP-based Coexistence Management Approach for Industrial Wireless Systems
In: 13th IEEE International Workshop on Factory Communication Systems Communication in Automation, WFCS 2017, May 2017
Nico Wiebusch, Philip Söffker, M. Sc., Dimitri Block, M. Sc., Prof. Dr.-Ing. Uwe Meier
A Multidimensional Resource Allocation Concept for Wireless Coexistence Management
In: 22nd IEEE Conference on Emerging Technologies and Factory Automation - ETFA 2017, Sep 2017
Nico Wiebusch, Prof. Dr.-Ing. Uwe Meier
Evolutionary Resource Allocation Optimization for Wireless Coexistence Management
In: 23rd IEEE Conference on Emerging Technologies and Factory Automation - ETFA 2018, Sep 2018
Sarah Willmann, Marco Meier, Lutz Rauchhaupt, Prof. Dr.-Ing. Uwe Meier
Towards Validation of Wireless Coexistence Management
In: 45th Annual Conference of the IEEE Industrial Electronics Society, IEEE IECON 2019, Oct 2019
Bachelor
Nico Wiebusch
Entwurf und Bewertung von Steuerkanälen für ein zentrales Koexistenzmanagement industrieller Funksysteme
Nico Wiebusch
Project work
Praveen Suresh
Development of a Teaching Tool for the Performance Investigation of Linear Block Codes
Praveen Suresh
Bachelor
Pierre Aubriet
Implementierung einer Neuro-Fuzzy-Funksignalklassifizierung in ein GNU-Radio-System
Pierre Aubriet
Bachelor
Ibrahim Dali
Entwurf und Integration eines Gateway-Konzepts zur Anbindung industrieller Funksysteme an ein Real-Time-Ethernet-Backbone
Ibrahim Dali
Master
Aditya Wuyyuru
Coexistence Management for Industrial Heterogeneous Wireless Networks Based on Software-Defined Networks
Aditya Wuyyuru
Master
Philip Söffker, M. Sc.
Informationsfusion für ein mehrdimensionales Koexistenz-Management industrieller Funksysteme
Philip Söffker, M. Sc.
Festo SE & Co. KG
Indu-Sol GmbH
IMST
Pilz GmbH & Co. KG
Promoted by
Forschungskuratorium Maschinenbau - FKM