Goal Estimation of Mandatory Lane Changes Based on Interaction between Drivers

Hanwool Woo,Atsushi Yamashita,Mizuki Sugimoto,Hirokazu Madokoro,Hajime Asama,Kazuhito Sato,Yusuke Tamura

doi:10.3390/app10093289

Hanwool Woo, Atsushi Yamashita + Show 5 more

Open Access

https://doi.org/10.3390/app10093289

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Abstract

In this paper, we propose a novel method to estimate a goal of surround vehicles to perform a lane change at a merging section. Recently, autonomous driving and advance driver-assistance systems are attracting great attention as a solution to substitute human drivers and to decrease accident rates. For example, a warning system to alert a lane change performed by surrounding vehicles to the front space of the host vehicle can be considered. If it is possible to forecast the intention of the interrupting vehicle in advance, the host driver can easily respond to the lane change with sufficient reaction time. This paper assumes a mandatory situation where two lanes are merged. The proposed method assesses the interaction between the lane-changing vehicle and the host vehicle on the mainstream lane. Then, the lane-change goal is estimated based on the interaction under the assumption that the lane-changing driver decides to minimize the collision risk. The proposed method applies the dynamic potential field method, which changes the distribution according to the relative speed and distance between two subject vehicles, to assess the interaction. The performance of goal estimation is evaluated using real traffic data, and it is demonstrated that the estimation can be successfully performed by the proposed method.

Highlights

The traffic accident rates are declining, they remain a main factor of mortality
Considering the above situations, we propose a novel method to estimate the goal of mandatory lane changing (MLC)
If the goal estimation is correctly conducted in sufficient time, drivers of the mainstream lane have sufficient reaction time with respect to the lane-changing of the target vehicle

Summary

Introduction

The traffic accident rates are declining, they remain a main factor of mortality. According to the conducted survey [1], nearly 90% of traffic accidents have been caused by human errors. To solve this problem, many researchers have developed autonomous driving and advanced driver-assistance systems (ADAS), and achievements to substitute or aid human drivers were obtained. A predictive system for future actions of surrounding vehicles is strongly required to improve driving safety. This system would support the cognition of the host driver and guarantees a sufficient reaction time with respect to the behaviors of surrounding traffic participants. If it is possible to forecast lane changes performed by surrounding vehicles, the accident rate can be significantly reduced

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