Multicasting in generalized multistage interconnection networks
Journal of Parallel and Distributed Computing
Distributed stochastic discrete-event simulation in parallel time streams
WSC '94 Proceedings of the 26th conference on Winter simulation
Computer networks (3rd ed.)
The many faces of publish/subscribe
ACM Computing Surveys (CSUR)
The ethernet: a local area network: data link layer and physical layer specifications
ACM SIGCOMM Computer Communication Review
Integration of the FreeBSD TCP/IP-stack into the discrete event simulator OMNet++
WSC '04 Proceedings of the 36th conference on Winter simulation
Performance Analysis of Network Architectures
Performance Analysis of Network Architectures
Hi-index | 0.00 |
This paper presents the integration of an existing real-world, real-time, ad-hoc communication system code into a discrete event simulation (DES). This embedded simulation environment can be used to analyze the communication system's behavior in regard to throughput, delay, dynamic network reconfiguration and more. The system in question is the blackboard communication system (BBCS). It is a development of the group for real-time systems and robotics of the Technische Universität Berlin (TUB). It was used in the European Project COMETS which integrated several unmanned aerial vehicles (UAVs) in cooperative fleet and is still used in several mobile systems within European robotics groups. The DES framework of choice is OMNeT++. This paper shows how the integration of the existing BBCS code into OMNeT++ is done and how it can be used to validate the BBCS. The underlying simulation model and the specific integration solutions are pointed out. The paper presents furthermore a multi UAV scenario that was analyzed in regard to the delay distribution and reliability in a dynamic reconfigured wireless network.