no code implementations • 11 Feb 2021 • Marcus Haferkamp, Benjamin Sliwa, Christian Wietfeld
The advancing deployment of ubiquitous Internet of Things (IoT)-powered vehicle detection and classification systems will successively turn the existing road infrastructure into a highly dynamical and interconnected Cyber-physical System (CPS).
no code implementations • 28 Jan 2020 • Benjamin Sliwa, Nico Piatkowski, Christian Wietfeld
Exploiting big data knowledge on small devices will pave the way for building truly cognitive Internet of Things (IoT) systems.
1 code implementation • 26 Jan 2020 • Benjamin Sliwa, Robert Falkenberg, Christian Wietfeld
Machine learning-based data rate prediction is one of the key drivers for anticipatory mobile networking with applications such as dynamic Radio Access Technology (RAT) selection, opportunistic data transfer, and predictive caching.
Networking and Internet Architecture Signal Processing
no code implementations • 23 Oct 2019 • Manuel Patchou, Benjamin Sliwa, Christian Wietfeld
In this paper, we analyze the improvements procured by drone usage in parcel delivery compared to traditional delivery and propose a simulation framework to further quantify the efficiency gains of the parcel delivery logistics and to analyze the performance of different wireless communications options.
Networking and Internet Architecture Signal Processing
1 code implementation • 21 Jun 2019 • Benjamin Sliwa, Manuel Patchou, Christian Wietfeld
Cooperating small-scale Unmanned Aerial Vehicles (UAVs) will open up new application fields within next-generation Intelligent Transportation Sytems (ITSs), e. g., airborne near field delivery.
Networking and Internet Architecture
no code implementations • 23 Apr 2019 • Benjamin Sliwa, Christian Wietfeld
Novel vehicular communication methods are mostly analyzed simulatively or analytically as real world performance tests are highly time-consuming and cost-intense.
Networking and Internet Architecture
no code implementations • 23 Apr 2019 • Benjamin Sliwa, Robert Falkenberg, Thomas Liebig, Nico Piatkowski, Christian Wietfeld
The exploitation of vehicles as mobile sensors acts as a catalyst for novel crowdsensing-based applications such as intelligent traffic control and distributed weather forecast.
Networking and Internet Architecture
no code implementations • 23 Apr 2019 • Benjamin Sliwa, Christian Wietfeld
Multi-Mobile Network Operator (MNO) networking is a promising method to exploit the joint force of multiple available cellular data connections within vehicular networks.
Networking and Internet Architecture
no code implementations • 10 Jan 2019 • Benjamin Sliwa, Thomas Liebig, Tim Vranken, Michael Schreckenberg, Christian Wietfeld
While the development of fully autonomous vehicles is one of the major research fields in the Intelligent Transportation Systems (ITSs) domain, the upcoming longterm transition period - the hybrid vehicular traffic - is often neglected.
Networking and Internet Architecture
no code implementations • 8 Jan 2019 • Benjamin Sliwa, Stefan Falten, Christian Wietfeld
The provision of reliable and efficient end-to-end communication within ground- and air-based mobile mesh networks is a major challenge for routing protocols due to the mobility-related dynamics of the channel properties and the resulting mesh network topology.
Networking and Internet Architecture
1 code implementation • 18 Jun 2018 • Robert Falkenberg, Benjamin Sliwa, Nico Piatkowski, Christian Wietfeld
Energy-aware system design is an important optimization task for static and mobile Internet of Things (IoT)-based sensor nodes, especially for highly resource-constrained vehicles such as mobile robotic systems.
Networking and Internet Architecture
no code implementations • 17 May 2018 • Benjamin Sliwa, Thomas Liebig, Robert Falkenberg, Johannes Pillmann, Christian Wietfeld
While cars were only considered as means of personal transportation for a long time, they are currently transcending to mobile sensor nodes that gather highly up-to-date information for crowdsensing-enabled big data services in a smart city context.
Networking and Internet Architecture
no code implementations • 2 May 2018 • Johannes Pillmann, Benjamin Sliwa, Christian Wietfeld
In the past years, connectivity has been introduced in automotive production series, enabling vehicles as highly mobile Internet of Things sensors and participants.
Computers and Society
1 code implementation • 10 Jan 2018 • Benjamin Sliwa, Thomas Liebig, Robert Falkenberg, Johannes Pillmann, Christian Wietfeld
Upcoming 5G-based communication networks will be confronted with huge increases in the amount of transmitted sensor data related to massive deployments of static and mobile Internet of Things (IoT) systems.
Networking and Internet Architecture
no code implementations • 9 Oct 2017 • Benjamin Sliwa, Johannes Pillmann, Fabian Eckermann, Lars Habel, Michael Schreckenberg, Christian Wietfeld
The provision of reliable and efficient communication is a key requirement for the deployment of autonomous cars as well as for future Intelligent Transportation Systems (ITSs) in smart cities.
Networking and Internet Architecture
no code implementations • 6 Sep 2017 • Benjamin Sliwa, Johannes Pillmann, Fabian Eckermann, Christian Wietfeld
Consequently, researchers and developers require efficient and precise tools for the parallel development of vehicular mobility and communication.
Networking and Internet Architecture I.6; I.6.7
1 code implementation • 5 Jul 2016 • Benjamin Sliwa, Daniel Behnke, Christoph Ide, Christian Wietfeld
Efficient routing is one of the key challenges of wireless networking for unmanned autonomous vehicles (UAVs) due to dynamically changing channel and network topology characteristics.
Networking and Internet Architecture Robotics