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This research study was designed to assess by simulation the efficacy of incident detection by cellular phone call-in programs.
The assessment was conducted by varying the proportion of drivers with cellular phones on the highway so as to mirror the
cellular industry statistics that show a continued growth of ownership of cellular phones in the United States. An analytical
model, which combined simulation and the limited field data available in the literature, was used to determine measures of
effectiveness of the cellular phone-based detection system.
The results showed that a cellular phone detection system offers fast incident detection times and higher detection rates
for both shoulder and lane blocking incidents. For example, in moderate traffic flow (i.e. 1,550 vehicles per hour per lane),
90 percent of incidents blocking two lanes were detected in 1.5 minutes when the proportion of drivers with cellular phones
was one out of 10 drivers, even with only 20 percent of them willing to report incidents. When the current proportion of cellular
ownership, i.e. 1 out of 3, was used in the simulation, the detection time improved to 0.8 minutes.
The simulation analysis of incident detection by cellular phones also showed that there is a direct relationship between the
probability of detection and the detection time; that is, the specification of a higher detection rate resulted in slower
detection times. This is in sharp contrast with the results of field study of automatic incident detection (AID) systems which
demonstrated an inverse relationship between probability of detection and detection time.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
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This paper explores the efficacy of the driver-based incident detection using the vehicle-to-roadside communication (VRC) system. The proliferation of vehicle tags in the US for automatic toll collection, traffic monitoring, and vehicle navigation and information systems has created an infrastructure capable of supporting a driver-based incident detection system. The research reported herein investigated the use of "activatable" vehicle tags by drivers to send an incident signal to the Traffic Management Center through VRC reader stations spaced uniformly on a highway. The simulation results showed that good detection performance was achieved even at lower levels of market penetration of vehicle tags. The results further showed that detection performance is significantly affected by the severity of the incident in terms of number of lanes closed, the spacing of the VRC reader stations, traffic volume at the time of the incident, and the reporting propensity of the traveling public.The performance of the VRC-based incident reporting system was compared to the performance of two incident detection algorithms that rely on traffic data collected through the automatic vehicle identification (AVI) system. The comparison showed that the VRC-based incident reporting system attained shorter detection times and higher detection rates under fairly similar simulated conditions. The paper also discusses issues that need further study through simulation and field experimentation of the VRC-based incident reporting system. 相似文献
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