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
Marcel Carsten Baunach
Univ.-Prof. Dipl.-Inf. Univ. Dr.rer.nat.
Participant / Staff Member
Leandro Batista Ribeiro
Eng.
Renata Martins Gomes
Eng.
Fabian Mauroner
Dipl.-Ing. BSc
Tobias Peter Scheipel
Dipl.-Ing. BSc
Funding sources
  • Bundesministerium für Wissenschaft, Forschung und Wirtschaft, BMWFW
  • AVL List GmbH
Research areas
  • Embedded Automotive Systems

Selected Publications

2017
Conference/Workshop Article
Marcel Carsten Baunach and Georg Macher Real-Time Multiplexing of Mixed-Criticality Data Streams for Automotive Multi-Core Test Systems Real-Time Multiplexing of Mixed-Criticality Data Streams for Automotive Multi-Core Test Systems 220-227 Show publication in PURE
0
Book Chapter
Marcel Carsten Baunach Real-Time and Security Requirements for the Internet of Things Operating SystemsReal-Time and Security Requirements for the Internet of Things Operating Systems Show publication in PURE
Journal Article
Marcel Carsten Baunach and Georg Macher Real-Time Multiplexing of Mixed-Criticality Data Streams for Automotive Multi-Core Test Systems Show publication in PURE
Marcel Carsten Baunach, Carlo Alberto Boano and Kay Uwe Römer Dependability for the Internet of Things Show publication in PURE
Conference/Workshop Article
Marcel Carsten Baunach Handling Time and Reactivity for Synchronization and Clock Drift Calculation in Wireless Sensor/Actuator Networks Handling Time and Reactivity for Synchronization and Clock Drift Calculation in Wireless Sensor/Actuator Networks 63-72 Show publication in PURE
Marcel Carsten Baunach Advanced Timestamping for pairwise Clock Drift Detection in Wireless Sensor/Actuator Networks Advanced Timestamping for pairwise Clock Drift Detection in Wireless Sensor/Actuator Networks 1-4 Show publication in PURE
Other Article
Marcel Carsten Baunach, Renata Martins Gomes and Leandro Batista Ribeiro MCSmartOS: A Dependable OS for Compositional Embedded Systems Show publication in PURE
Marcel Carsten Baunach, Renata Martins Gomes and Leandro Batista Ribeiro MCSmartOS: A Dependable OS for Compositional Embedded Systems Show publication in PURE
Marcel Carsten Baunach Advanced Timestamping for pairwise Clock Drift Detection in Wireless Sensor/Actuator Networks Show publication in PURE
Marcel Carsten Baunach, Renata Martins Gomes and Leandro Batista Ribeiro A co-designed RTOS/MCU Architecture for dependable Embedded Systems Show publication in PURE
Marcel Carsten Baunach Operating Systems and Processor Architectures for a Dependable Internet of Things Show publication in PURE