Safety applications are among the key drivers in VANET research, and their true performance can be assessed only if the application and the communication network are jointly considered. This work presents a simulation study of an emergency braking application accomplished by embedding mobility, cars’ dynamic, and drivers’ behavior models into a detailed networking simulator (ns-3). The overall system allows capturing the interactions of the communications with the car’s automated braking mechanism and the driver’s behavior. At the same time yields very detailed information on the communication level. Besides the integrated tool, the paper presents a novel and simple message aggregation mechanism to empower message re-propagation while controlling the network congestion during the peak load due to the emergency braking. Next it discusses the effectiveness of such applications as a function of the market penetration rate, showing that even cars that are not equipped with communication devices benefit from the smoother and earlier reaction of the cars that can communicate. Fading phenomena and sensitivity to the radio transmitted power are analyzed, while fine grained dynamics of cars’ collisions as taking into account different masses and different elastic coefficients are introduced to evaluate the severity of impacts.
Automatic Emergency Braking: Realistic Analysis of Car Dynamics and Network Performance
Segata, Michele;Lo Cigno, Renato Antonio
2013-01-01
Abstract
Safety applications are among the key drivers in VANET research, and their true performance can be assessed only if the application and the communication network are jointly considered. This work presents a simulation study of an emergency braking application accomplished by embedding mobility, cars’ dynamic, and drivers’ behavior models into a detailed networking simulator (ns-3). The overall system allows capturing the interactions of the communications with the car’s automated braking mechanism and the driver’s behavior. At the same time yields very detailed information on the communication level. Besides the integrated tool, the paper presents a novel and simple message aggregation mechanism to empower message re-propagation while controlling the network congestion during the peak load due to the emergency braking. Next it discusses the effectiveness of such applications as a function of the market penetration rate, showing that even cars that are not equipped with communication devices benefit from the smoother and earlier reaction of the cars that can communicate. Fading phenomena and sensitivity to the radio transmitted power are analyzed, while fine grained dynamics of cars’ collisions as taking into account different masses and different elastic coefficients are introduced to evaluate the severity of impacts.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione