Abstract:
Cooperative advanced driver assistance systems (ADAS) have the potential to increase traffic efficiency and safety beyond the level of sensor-based systems. Further devel...Show MoreMetadata
Abstract:
Cooperative advanced driver assistance systems (ADAS) have the potential to increase traffic efficiency and safety beyond the level of sensor-based systems. Further development toward centralized cooperative systems is motivated by the improving performance of cellular technologies. However, the suitability of cellular communication, up to now, remains an unresolved topic in current research due to high system requirements (on, e.g., latency). In a centralized system design, the control algorithm is located at a central unit and the system input, as well as the measured output, is transmitted over the cellular network. This paper addresses the technical feasibility and practicability of centralized longitudinal control of vehicles and vehicle platoons with communication over long-term evolution (LTE). The focus is laid on the investigation of the system in disturbed situations, as well as on the evaluation and optimization of the required LTE resources. Therefore, a novel design of a centralized adaptive cruise control is developed, which satisfies required stability properties and optimizes the resource usage. The evaluation is based on simulation studies since it requires a large number of devices, as well as deep data logging within LTE. In summary, system safety can be achieved with moderate requirements on the cellular technology in the case of high localization accuracy. Considering the objectives of LTE, the communication requirements should be satisfied in areas with gapless coverage and with dedicated resources in the case of saturated channel conditions.
Published in: IEEE Transactions on Vehicular Technology ( Volume: 65, Issue: 12, December 2016)