Embedded Real-Time Operating Systems
Vehicular networks that wirelessly connect vehicles, infrastructure, and pedestrians will be the communication backbone for future transportation. Networked smart, semi-automatic and fully autonomous vehicles will rely on shared information, distributed intelligence, and joint actions to optimize traffic/logistics, reduce pollution, and increase road safety. However, great dynamics, continuously changing network topolgies, and heterogeneous devices make dependable communication hard and demand for self-organizing radio protocols at all layers of the communication stack. This project aims on researching the foundations and practical application of self-organizing radio protocols for massively dynamic networks of mobile devices. Thus, nature-inspired techniques for medium acces control are equally important as managing multi-hop communication.
Staff member
Project Manager at the Organizational Unit
Univ.-Prof. Dipl.-Inf. Univ. Dr.rer.nat. Marcel Carsten Baunach
Participant / Staff Member
Eng. Leandro Batista Ribeiro
MSc Maja Malenko
Eng. Renata Martins Gomes
Dipl.-Ing. BSc Fabian Mauroner
Funding sources
  • AVL List GmbH
  • Bundesministerium für Wissenschaft, Forschung und Wirtschaft, BMWFW
Research areas
  • Embedded Automotive Systems

Selected Publications

2017
Other Article
Renata Martins Gomes, Leandro Batista Ribeiro and Marcel Carsten Baunach MCSmartOS: A Dependable OS for Compositional Embedded Systems Show publication in PURE
Renata Martins Gomes, Marcel Carsten Baunach and Leandro Batista Ribeiro MCSmartOS: A Dependable OS for Compositional Embedded Systems Show publication in PURE
2016
Book Chapter
Marcel Carsten Baunach and Maja Malenko Real-Time and Security Requirements for the Internet of Things Operating SystemsECHTZEIT 2016 Show publication in PURE
Journal Article
Carlo Alberto Boano, Kay Uwe Römer, Roderick Bloem, Klaus Witrisal, Marcel Carsten Baunach and Martin Horn Dependability for the Internet of Things Show publication in PURE
Other Article
Marcel Carsten Baunach Operating Systems and Processor Architectures for a Dependable Internet of Things Show publication in PURE
2014
Conference/Workshop Article
Marcel Carsten Baunach Advanced Timestamping for pairwise Clock Drift Detection in Wireless Sensor/Actuator Networks 13. GI/ITG KuVS Fachgespräch "Drahtlose Sensornetze" 1-4 Show publication in PURE
Marcel Carsten Baunach Handling Time and Reactivity for Synchronization and Clock Drift Calculation in Wireless Sensor/Actuator Networks International Conference on Sensor Networks 63-72 Show publication in PURE
Other Article
Felix Jonathan Oppermann and Marcel Carsten Baunach Advanced Timestamping for pairwise Clock Drift Detection in Wireless Sensor/Actuator Networks Show publication in PURE