Showing results from 2011 - 2022
Published in
- Accident Analysis & Prevention
- Vol. 163
DETAILS
The near-miss events involving vulnerable road users can lead to serious accidents. Safe and careful expert drivers perform a hazard-anticipatory driving and they will naturally seek to reduce the uncertainty by attempting to fit their current driving context into a pre-existing category they have already developed, that is, predicting what can happen. In this study, our target situation consists of a cyclist attempting a road crossing at a blind spot. This study aims at developing a context-aware driver model for determining the recommended driving speed at blind intersections based on the analysis of near-miss-incidence database, which includes the data on driver behavior and road environmental factors just before the near-miss. First, we extracted the drive-recorder data using the management tool provided in the database. Second, risk, which is defined as the time margin for drivers to perform evasive actions to avoid a crash, was quantified for the extracted data using the safety-cushion time. The safety-cushion time can be observed as a result of the driver’s adjustment to the vehicle velocity depending on the given road environment. One of the key aspects in developing the context-aware driver model is to categorize the extracted near-miss data into two levels based on the risk quantifications: low- and high-risk events. The low- and high-risk events were regarded as a result of the driver’s appropriate adjustment of, and inability or failure to adjust the vehicle velocity depending on the given road environment, respectively.
Third, based on a multiple linear regression analysis with low-risk event dataset, we constructed a context-aware driver model to produce the recommended vehicle speed depending on the given road environment. The road environment variables, determined by stepwise regression, were identified as factors that reduced or increased the vehicle velocity at blind intersections, and were incorporated into the model as predictors. Furthermore, we quantitatively visualized drivers setting the baseline for speed adjustment and increasing or decreasing the speed according to the given road environment context. Fourth, the model validation demonstrated a coefficient of determination (R2) of 0.20, and a mean absolute error (MAE) of 6.54 km/h on average in the 5-fold cross- validation. Finally, to investigate the effectiveness of the constructed driver model on safety performance, we used the dataset of high-risk events as test data. Theoretically, the constructed driver model guided the drivers to drive the vehicle at the recommended speed, and thus convert more than half of the high-risk events into low-risk events. These results indicate that the context-aware driver model is feasible to be used to adjust the approaching speed at blind intersections in accordance with the road environment factors.
Yuichi Saito, Fumio Sugaya, Shintaro Inoue, Pongsathorn Raksincharoensak, Hideo Inoue
A context-aware driver model for determining recommended speed in blind intersection situations
Accident Analysis & Prevention, Vol. 163, 2021.
- 10.1016/j.aap.2021.106447
Published in
- FAST-zero’21
- Kanazawa, Japan
DETAILS
Near-miss events or accidents involved pedestrians and cyclists are the result of conflict between a driver behavior and the road user behavior. When expert drivers with more driving experience are facing uncertainty, they naturally seek to reduce the uncertainty by attempting to fit their current driving context into a pre-existing category based on knowledge-based decision making. Our study goal is to develop DAS to attain “a hazard-anticipatory driving” depending on driving contexts, through both the driver behavior analysis and the clarification of cause-and-effect chain in accident mechanism. The near-miss incident database has been constructed and managed by the Smart Mobility Research Center (SMRC [3]) of Tokyo University of Agriculture and Technology in JAPAN since 2004. The main contribution of this paper is to propose a context-sensitive driver model to determine the recommended speed in intersection scenarios. Based on investigations with the near-miss event database, this paper describes a method for determining the recommended safe speed based on the annotated information by applying the statistical processing and the machine learning techniques, and then this study explores the mechanism of adjusting the vehicle velocity according to the given road environment context.
Yuichi Saito, Fumio Sugaya, Shintaro Inoue, Pongsathorn Raksincharoensak, Hideo Inoue
Context-Sensitive Driver Model for Determining Recommended Speed in Intersection Driving Scenarios
Proceedings of 6th International Symposium on Future Active Safety Technology Towards Zero-Traffic-Accidents (FAST-zero’21), Kanazawa, Japan (Full Online Conference), Kanazawa, Japan, 2021.
Published in
- SAE Int.J.Trans.Safety
- Vol. 9, No. 2
DETAILS
The driving safety performance of autonomous driving vehicles must be ensured before on-road implementation. Because it is not realistic to evaluate every single test condition in real-world traffic, computer simulation methods can be used. The driving safety performance can be evaluated by simulating various driving scenarios and calculating surrogate indicators representing dangerous collision risk. This study used a near-miss database and introduced a surrogate indicator that represents a potential risk in the driving scenarios for rear-end and cut-in collisions. The near-miss video database includes several driving scenarios experienced by human drivers, such as dangerous situations that lead to accidents, potentially dangerous situations that have a risk probability to escalate into dangerous situations, and normal driving situations. A skilled and attentive human driver foresees dangerous situations while driving and avoids them. Therefore, autonomous driving vehicles, which should be safer than human driving, must avoid potentially dangerous situations, as well as overtly dangerous ones. Level 3 autonomous driving vehicles must be safely operated to prevent potentially dangerous situations for rear-end collisions and cut-in collisions, which are the most frequent danger cases on highways. A calculation method of surrogate indicators to predict the severity of driving scenarios for rear-end and cut-in collisions was developed. The near-miss video database was used to validate that these indicators can illustrate risk probabilities and help assess dangerous situations. Thus, dangerous situations and potentially dangerous situations in the driving scenarios for rear-end and cut-in collisions were quantified using the surrogate indicators, and the driving safety performance of autonomous driving vehicles could be evaluated.
Takashi Imaseki, Fukashi Sugasawa, Takuto Kawamura, Hiroshi Mouri
Predicting the severity of Driving Scenario for Rear-End and Cut-In Collisions Using Potential Risk Indicator Extracted from Near-Miss Video Database
SAE Int.J.Trans.Safety, Vol. 9, No. 2, pp.187-204, 2021.
- 10.4271/09-09-02-0006
Published in
- Society of Automotive Engineerings of Japan Annual Congress (Autumn)
- No. 063
DETAILS
Near-miss events involving road users can lead to serious accidents. In this study, our target situation consists of a cyclist attempting a road crossing at a blind spot. To model a foresighted and defensive driving behavior in a context-adaptive manner, this study proposed a context-aware driver model for determining the recommended speed at blind intersections.
Yuichi Saito, Fumio Sugaya, Shintaro Inoue, Pongsathorn Raksincharoensak, Hideo Inoue
A Proposal of a Context-Aware Driver Model for Determining Recommended Speed in Responding to Driving Situations
Society of Automotive Engineerings of Japan Annual Congress (Autumn), No. 063, pp.1-6, 2021.
Published in
- Society of Automotive Engineerings of Japan Annual Congress (Spring)
- Yokohama
DETAILS
Shinichi Kume, Yuichi Saito, Hideo Inoue, Pongsathorn Raksincharoensak
Safety Cushion: Estimation of Potential Risk Based on Driving Context and Driver Behavior Sensing (2nd Report)
Society of Automotive Engineerings of Japan Annual Congress (Spring) 2019, Yokohama, 2019.
DETAILS
This study proposes a context-sensitive hazard anticipation for predicting the criticality of situations depending on driving context and driving behavior state. The data of 901 near-miss events were extracted to analyze human error as well as cause-and-effect chain studies of accidents, and the annotations that describe the driving context were investigated to find their influence on the criticality of the recorded incidents. The results can be used to develop next generation ADAS or to improve algorithms for autonomous driving technology, increasing their safety performance as well as the driver acceptance.
Yuichi Saito, Pongsathorn Raksincharoensak, Hideo Inoue, Thomas Freudenmann, Mohanad El-Haji
Context-Sensitive Hazard Anticipation Based on Driver Behavior Analysis and Cause-and-Effect Chain Study
Proceedings of AVEC ’18, Beijing, 2018.
Published in
- Transactions of Soecity of Automotive Engineers of Japan
- Vol.50, No.2
DETAILS
The authors are operating a database system for collecting traffic near-miss incident cases. We propose a new annotation method suitable for computer data analysis while inheriting existing data sets. We also design software interfaces for realizing secure and efficient data access. In this study, the evaluation experiments of the efficiency of the proposed database system are reported.
Yasuhiro Akagi, Yukiko Oota, Masaki Nazumi, Fukashi Sugasawa, Hiroshi Mouri
A Study on the Enhancement of Traffic Near-miss Incident Database for Various Usage
Transactions of Society of Automotive Engineers of Japan, Vol.50, No.2, pp.629-635, 2019.
- 10.11351/jsaeronbun.50.629
Published in
- Society of Automotive Engineerings of Japan Spring Conference
- No.429
DETAILS
This study proposes a potential risk estimation method for predicting the criticality of driving situations with respect to driving context and driving behavior state. The data of 901 cases were extracted to conduct human error analysis as well as cause-and-effect chain studies of accidents, and the annotation parameters that describe the driving context were investigated to find their influence on the criticality of the recorded incidents. The obtained results can be used to develop next generation ADAS or to improve algorithms for autonomous driving, increasing their safety as well as the driver acceptance.
Yuichi Saito, Pongsathorn Raksincharoensak, Hideo Inoue
Safety Cushion: Potential Risk Estimation Based on Driving Context and Driving Behavior State (First Report)
2018 Society of Automotive Engineers of Japan Annual Congress (Spring) Proceedings, No.429, 2018.
DETAILS
This paper introduces a method for predicting the criticality of situations in traffic depending on the driving context and the driving behavior. The corresponding models are based on crash-relevant data recorded in Japan since more than ten years. The handling of the big amount of data, especially finding the relevant data considering the objective of analysis was one of the major challenges of this work. It has been achieved by an intelligent filter that is based on objectified driving behavior of experienced drivers with a sense of responsibility in traffic. The results of this work can be used to develop next generation ADAS or to improve algorithms for autonomous driving, increasing their safety as well as the driver acceptance.
Pongsathorn Raksincharoensak, Hideo Inoue
Safety Cushion: Context-Sensitive Hazard Anticipation
Proceedings of 4th International Symposium on Future Active Safety Technology toward zero-traffic Accidents(FAST-zero’17), No.20174609, pp.1-7, 2017.
Published in
- Transactions of Society of Automotive Engineers of Japan
- Vol. 46, No. 6
DETAILS
Image and vehicle data recorded by drive recorders are analyzed to clarify the difference of rear-end near-miss incidents between the low-speed (20km/h or lower) and the high speed (40 km/h or higher) regions. The major understandings to be drawn from the analysis are as follows. There are significantly fewer relevant factors involved in the low-speed incidents than high-speed incidents. In the cases of low speed, small overlap cases account for a comparatively high percentage in the number of incidents whereas the actual accidents have different tendency. In the case of high speed, rear-end incidents after another car cuts in front of a subject car accounts for a considerably higher percentage compared with the low-speed cases.
Mitsunobu Fujita,Pongsathorn Raksincharoensak,Masao Nagai
Rear-end Incident Analysis Based on a Near-miss Incident Database
Transactions of Society of Automotive Engineers of Japan, Vol. 46, No. 6, pp.1163-1170, 2015.
- 10.11351/jsaeronbun.46.1163
DETAILS
Data recorded using drive recorders (DRs) and stored in a “Near-miss incident database” are analyzed to assess the difference between low- and high-speed rear-end near-miss incidents. The following conclusions are obtained: (1) the higher is the car’s speed, the greater is the potential for rear-end near-miss incidents in a single lane. (2) Rear ending after another car cuts in front of a car with a DR (RACC) accounts for a higher percentage of high-speed cases compared with low-speed cases. (3) For high-speed RACC, most cars approach at relatively high speeds in left-side cases, whereas right-side cases present various situations.
Mitsunobu Fujita, Pongsathorn Raksincharoensak, and Masao Nagai
Comparison between Low-Speed and High-Speed Rear-End Incidents Using a Near-Miss Incident Database
Proceedings of 12th International symposium on advanced vehicle control (AVEC’14), No.20149287, pp.515-520, 2014.
Published in
- Journal of Society of Automotive Engineers of Japan
- Vol.67 No.2
DETAILS
This paper describes the assessment of a collision avoidance system with active braking assistance by using a driving simulator with reconstructed near-miss incident scenario relevant to vulnerable road users. In the first half of the paper, near-miss incident data collected by image-captured drive recorders, which are relevant to pedestrian near-miss, are analyzed to get the basic parameters of pedestrian relevant crash scenario model. A representative situation in unsignalized intersection is focused in this paper. In the latter half, a hazard-anticipatory driving assistance system to prevent crashes in unsignalized intersections is proposed and implemented in the driving simulator. The collision avoidance performance evaluation by human-in-the-loop experiments are conducted.
Pongsathorn Raksincharoensak, Katsumi Moro, Masao Nagai
Reconstruction of Pedestrian/Cyclist Crash-Relevant Scenario and Assessment of Collision Avoidance System Using Driving Simulator
Proceedings of 11th International Symposium on Advanced Vehicle Control (AVEC), Seoul, Korea, 2012.
DETAILS
This paper describes the pedestrian and bicycle behavior model while crossing the road at unsignalized traffic intersections from the stored near-miss incident database. In the first half of the paper, the near-miss incident database analysis is shown by classifying the near-miss incidents into various categories depending on location, time, dash-out position and moving direction. In addition, the reaction behavior of the pedestrians or bicycles when facing the vehicles are also analyzed. In the latter half, the numerical parameters which are the basis of driver assistance system design such as the velocity of the pedestrian or bicycle crossing the road and Time-To-Conflict-Point in near-miss incidents are discussed.
Piyapong Wongwaiwit, Pongsathorn Raksincharoensak, Yohei Michitsuji
Analysis on Pedestrian and Bicycle Behavior in Unsignalized Intersection Based on Near-Miss Incident Database
20th Transportation and Logistics Conference (TRANSLOG2011),The Japan Society of Mechanical Engineers, No.11-59, pp.19-22, 2011.
Published in
- 54th Japan Joint Automatic Control Conference
- pp. 222-226
DETAILS
To reduce traffic accident against pedestrian/bicycle, it is necessary to develop not only the passive safety system or the pre-crash safety system, but also the active safety system. The system is evaluated by using accident data. But it is sometimes hard to estimate the scenario of the accident with the data. The effectiveness of Collision Avoidance Brake System is analyzed by using Hiyari-Hatto (near-miss incident) data recorded by drive recorders equipped on taxis in Tokyo. This paper proposes the evaluation method of pedestrian/bicycle accident avoidance system based on analysis of near-miss incident database.
Masao Nagai, Pongsathorn Raksincharoensak, Ryuzo Hayashi, Yuya Ishizaki
Study on Evaluation Method for Pedestrian/Bicycle Accident Avoidance System Based on Analysis of Near-miss Incident Database
54th Japan Joint Automatic Control Conference, pp. 222-226, 2011.