The quest for safer and more efficient transportation through cooperative, connected and automated mobility (CCAM) calls for realistic performance analysis tools, especially with respect to wireless communications. While the simulation of existing and emerging communication technologies is an option, the most realistic results can be obtained by employing real hardware, as done for example in field operational tests (FOTs). For CCAM, however, performing FOTs requires vehicles, which are generally expensive, may require significant manpower, and lead to unacceptable safety issues. Mobility simulation with hardware-in-The-loop (HIL) serves as a middle ground, but current solutions lack flexibility and reconfigurability. This work thus proposes ColosSUMO as a way to couple Colosseum, the world's largest wireless network emulator, with the SUMO mobility simulator, showing its design concept, how it can be exploited to simulate realistic CCAM scenarios, and its flexibility in terms of commu...
The quest for safer and more efficient transportation through cooperative, connected and automated mobility (CCAM) calls for realistic performance analysis tools, especially with respect to wireless communications. While the simulation of existing and emerging communication technologies is an option, the most realistic results can be obtained by employing real hardware, as done for example in field operational tests (FOTs). For CCAM, however, performing FOTs requires vehicles, which are generally expensive. and performing such tests can be very demanding in terms of manpower, let alone considering safety issues. Mobility simulation with hardware-in-the-loop (HIL) serves as a middle ground, but current solutions lack flexibility and reconfigurability. This work thus proposes ColosSUMO as a way to couple Colosseum, the world's largest wireless network emulator, with the SUMO mobility simulator, showing its design concept, how it can be exploited to simulate realistic vehicular environments, and its flexibility in terms of communication technologies.
ColosSUMO: Evaluating Cooperative Driving Applications with Colosseum / Gemmi, Gabriele; Johari, Pedram; Casari, Paolo; Polese, Michele; Melodia, Tommaso; Segata, Michele. - (2024), pp. 97-100. ( 15th IEEE Vehicular Networking Conference, VNC 2024 Kobe, Japan 29th-31st May 2024) [10.1109/VNC61989.2024.10576000].
ColosSUMO: Evaluating Cooperative Driving Applications with Colosseum
Casari, Paolo;Segata, Michele
2024-01-01
Abstract
The quest for safer and more efficient transportation through cooperative, connected and automated mobility (CCAM) calls for realistic performance analysis tools, especially with respect to wireless communications. While the simulation of existing and emerging communication technologies is an option, the most realistic results can be obtained by employing real hardware, as done for example in field operational tests (FOTs). For CCAM, however, performing FOTs requires vehicles, which are generally expensive, may require significant manpower, and lead to unacceptable safety issues. Mobility simulation with hardware-in-The-loop (HIL) serves as a middle ground, but current solutions lack flexibility and reconfigurability. This work thus proposes ColosSUMO as a way to couple Colosseum, the world's largest wireless network emulator, with the SUMO mobility simulator, showing its design concept, how it can be exploited to simulate realistic CCAM scenarios, and its flexibility in terms of commu...| File | Dimensione | Formato | |
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