Mark Brackstone scite author profile

This paper reports on results of a study undertaken in the U.K. aimed at investigating factors affecting the car following process. An understanding of the factors affecting this complex decision making process is essential to a wide range of theoretical issues including driver workload, capacity and the modeling of freeway flow, as well as practical applications such as the design of in-vehicle driver aids and assistance systems, many of which have direct relevance to increasing driver safety. The study used an instrumented vehicle to collect time dependent following data for a group of test drivers. Data was collected on two differing types of high speed road, using six primary subjects who drove a test vehicle, supplemented by data on one hundred and twenty three drivers that were observed following the test vehicle. Examination was made of how the time headway chosen by a driver is influenced by a range of situational variables commonly believed to effect behavior, with four main findings. Firstly, headway was found to change according to the type of vehicle being followed (i.e. subjects followed closer to trucks than to cars), secondly, little variation was found with changes in overall traffic flow, thirdly, little correlation was found with road type, and lastly a distinct day-to-day variation in individual behavior was observed.

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Fuzzy sets and systems for a motorway microscopic simulation model

Brackstone

McDonald

2000

Fuzzy Sets and Systems

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A collision model for safety evaluation of autonomous intelligent cruise control

Touran

Brackstone

McDonald

1999

Accident Analysis & Prevention

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The validation of a microscopic simulation model: a methodological case study

Brackstone

McDonald

2003

Transportation Research Part C: Emerging Technologies

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A Linear Dynamic Model for Driving Behavior in Car Following

Pariota

Bifulco

Brackstone

2016

Transportation Science

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In this paper a car-following model is formulated as a time-continuous dynamic process, depending on two parameters and two inputs. One of these inputs is the follower’s desired equilibrium spacing, assumed to exist and to be known. Another input is the speed of the lead vehicle. Given the formulation of the model, the contribution of these two inputs is separable from an analytical point of view. The proposed model is simple enough (whereas not being simplistic) to support real-time applications in the field of advanced driving assistance systems. Starting from the equilibrium spacing, it is possible to estimate the parameters of the model, allowing for a full identification procedure. The modeling framework was prevalidated against observed data from two different data sets, collected by means of two instrumented vehicles in independent experiments, carried out in Italy and the United Kingdom. The validation proved that the proposed car-following model gives good results not only around the desired equilibrium spacing but also in general car-following conditions. The experimental data sets are discussed in terms of parameter values as well as performance of the dynamic process against observed data.

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Mark Brackstone

Car-following: a historical review

Towards an understanding of adaptive cruise control

Motorway driver behaviour: studies on car following

Determinants of following headway in congested traffic

Fuzzy sets and systems for a motorway microscopic simulation model

A collision model for safety evaluation of autonomous intelligent cruise control

The validation of a microscopic simulation model: a methodological case study

A Linear Dynamic Model for Driving Behavior in Car Following

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