Aberrant Driving Behaviours on Risk Involvement among Drivers in China

+e purpose of this study is to validate the version of Driver Behaviour Questionnaire (DBQ) by considering distractions, fatigue, and drunk driving, the main reasons for accidents in China, as independent parts of violations and errors and further explore the effects of demographic/driving variables and all factors on risk involvement (accident involvement and penalized points). 241 drivers filled in a self-completion questionnaire with 28 items conducted in Xi’an in August 2018. Exploratory factor analysis confirmed a five-factor structure, including violations, distracted driving, errors, drunk driving, and fatigued driving. +e frequency of aberrant driving behaviours indicated that distractions were the most prevalent behaviours followed by fatigue. +e results showed that drivers with lower education and longer annual mileages were positive with accident involvement while there was no significance in penalized points. Violations and distractions were important factors causing both accidents and penalized points. +erefore, it is effective to reduce accident involvement by establishing educational training and related laws or installing intelligent monitor vehicle equipment to warn drivers to improve safety.


Introduction
With the rapid improvement of living standards, people's demand for private cars is gradually increasing, which also leads to many accidents involving property damage, injuries, and deaths.
e China Statistical Yearbook reported that 166,906 car accidents occurred in 2018, killing 46,161 people. e main reasons for accidents include speeding, fatigue, distraction, and drunk driving. And human errors lead to almost 90% of the accidents [1]. Driving skills and behaviours greatly influence the likelihood of a person exposed to accidents [2]. In general, driving skills are related to driving experience while driving behaviours are related to factors such as a driver's gender, age, habits, personality, and trafficdriving environment [3][4][5].
To explore the aberrant driving behaviours among drivers, Reason et al. [4] presented a set of driving behaviour questionnaire (DBQ) including 50 items for measuring aberrant driving behaviours, which was divided into 3 factors: violations, errors and lapses. Violations refer to deliberate failure to obey traffic rules or honk behaviours toward others, such as "speeding, crossing the red light, risk overtaking, and honking others to go faster". Errors refer to the failure to achieve planned behaviour due to cognitive judgment, while lapses happen mainly because of inattention or memory failure. is questionnaire is stable and effective in exploring aberrant driving behaviours [6] and has been translated, quoted and revised in many countries [7][8][9], in which the 27 items DBQ by Parker et al. [10] was widely used. In order to provide a better understanding of driver behaviours, Lawton et al. [11] defined violations as ordinary and aggressive violations while Aberg and Rimmö [12] divided errors into dangerous, inattention and inexperienced errors. Moreover, Guého et al. [3] validated the DBQ with a sample of French drivers and measuring positive driving behaviours [13] toward other users into a questionnaire [3]. In general, scholars have done their best to validate and detail the DBQ depending on different cultural characteristics and naturalistic driving behaviours.
However, few studies consider the distracted driving, fatigued driving, and drunk driving as independent parts of violations and errors to validate the structure of aberrant driving behaviours. With the rapid development of in-vehicle technology, drivers using cell phones, navigation systems, and the availability of wireless Internet results in shifting more attention to nondriving related tasks. And it is a major contributor to highway crashes, causing up to 25% of the crashes [14]. Ledesma et al. [15] developed the Attention-Related Driving Error Scale (ARDES) to record the frequency of inattention and evaluate the predisposition to inattention errors. But the items were about the consequences of distraction (e.g., not notice traffic lights) not the potential sources, such as calling someone or read messages, which directly referred to drivers' distraction. Fatigued driving is another main reason for accidents in many countries [16,17]. It results in at least 100,000 accidents in the US each year [18] and accounts for 20% of the total number of traffic accidents in China [19]. However, the questionnaires about fatigue mainly refer to professional drivers with longer work days or driving hours [20][21][22]. e items describing drivers' subjective fatigue status in the questionnaire are very less. Besides, a World Health Organization survey showed that 50% to 60% of traffic accidents caused by human factors are related to alcohol drinking [23]. e alcohol consumption affects the rate of occurrence of fatal accidents [24]. erefore, it is significant to add items including distractions, fatigue, and drunk driving to validate the traditional DBQ and explore the relationship between these factors with risk involvement.
ere are some researches that explore the demographic/ driving variables associated with aberrant driving behaviours. e results have indicated that males are prone to violations and errors, while females tend to lapses [4,25,26]. e age and annual mileages have also entered models and have a validated correlation with violations and errors. Drivers who are young or have more driving exposure are prone to violations and errors [4,6]. Furthermore, the driver's self-evaluation, attitude toward laws, and personality are also closely related to driving behaviours [5,27,28]. e relationship between the demographic/driving variables, aberrant driving behaviour, and risk involvement is also worthy exploring. Most studies have indicated that violations [4,20,29], as well as lapses and errors [30], are significant factors that resulted in accidents. To understand how the demographic/driving variables affected risk involvement, scholars further entered gender, age, annual mileages, educational background, and marital status into a model. Some researches indicated that these variables are not correlated with accidents [31,32], while some showed that drivers who are young and with long annual mileages had a higher risk of crashes happening [3,33]. Further, the study by Shinar et al. [34] and Vahedi et al. [20] has shown that single drivers declare more accidents. erefore, the purpose of this study is (1) to improve the structure of questionnaire considering distracted driving, fatigued driving, and drunk driving as independent parts from violations and errors; (2) to explore the relationship between demographic/driving variables and aberrant driving behaviours; (3) to have a good understanding of both aberrant driving behaviours and risk involvement (accident and penalized points involvement).

Participants.
e data collection was carried out with a cross-sectional survey using a self-completion questionnaire in Xi'an in August, 2018. And the questionnaire distribution was mainly made by the graduate students in the parking lot near larger shopping malls, tourist attractions, and stations. Before recording the data of drivers, a pilot survey was used to test whether the design of the questionnaire is easy to understand among 60 drivers, which resulted in some minor corrections in the items of aberrant driving behaviours. e aim of this survey was apparent to drivers and encouraged them to accurately report his or her demographic/driving variables, risk involvement experience, and the frequency of aberrant driving behaviours. At last, a sample of 300 drivers with validated driving licenses were collected by the face-toface interviews, and 59 questionnaires were excluded from the questionnaires because of incomplete and obvious errors. erefore, a total of 241 drivers (193 male, 48 female) were included in the analysis. Table 1 shows the distribution of drivers' demographic/driving characteristics and risk involvement. Most drivers' age was between 31 and 45 years, and the average age is 36.60 years (SD � 7.38). e reported statistics showed that drivers had a mean of 9.71 years' driving experience (SD � 5.9) with a mean of 33,200 annual mileages (SD � 50,700). ere was a significant difference from statistics between male and female drivers from the demographic distribution. e sample of male drivers declared more driving experience and annual mileages. Females scored their driving skills as more ordinary or poor while males considered it was excellent. Other characteristics including education, marital status, and risk involvement showed no significant difference.

Materials.
Based on the mature DBQ [4], a new improved version of DBQ considering the main cause of accidents was produced with 28 items, including violations, distracted driving, errors, drunk driving, and fatigued driving. Violation was defined as a deliberate deviation from the legal rules or conflict with other drivers, which contained 10 items referring to the ordinary and aggressive behaviours including speeding, running red lights, frequent changing lanes, and walking through the zebra before pedestrian (e.g., "Speeding when not monitored; Honk to the driver in front to go faster or give way"). Six items referred to errors, which were cognitive or inexperienced errors (e.g., "Failure to judge the speed and distance of an oncoming car when overtaking; Fail to check the rear/side mirror before lane changing"). Diversion of a driver's attention could either be from sources internal or external to the vehicle. is part included 5 items describing the distracted behaviours because of internal person or intelligent equipment, including talking with passengers, calling for someone, and operating in-vehicle systems. ree items were corresponding to the driver's frequency in falling fatigue (e.g., "Frequently fell sleepy because of insufficient sleep time or higher work pressure when driving; Suddenly wake up after driving for a long time on the highway"), and the items mainly described the fatigue fact because of sleep deprivation, extensive driving, and monotonous driving environment. e remaining items were defined as drunk driving, and the items were mainly referred to driver's attitude toward drunk driving after drinking (e.g., "Drive after having a little of alcohol when there are no policemen; Drive back even though you may be over the legal blood-alcohol limit"). For each item, drivers were asked to choose one scale of the frequency about aberrant behaviours described, and the fivepoint scale was ranging from "1 � never" to "5 � nearly all the time".
Additionally, the information of drivers' gender, age, marital status, educational background, driving experience, annual mileages, and score of driving skills is recorded. To have a great understanding of the relationship between aberrant behaviours and risk involvement, the receiving penalized points over the past year and accident history over the past 3 years were also gathered.

Methods.
To reveal the overall scores of the DBQ items, descriptive statistics were applied. Principal component analysis (PCA) with varimax rotation and iteration was used to test the dimensional structure of the DBQ. e scree plot and Kaiser criterion (an eigenvalue above 1.00 was considered to be a significant value) was used to determine the number of extracted dimensions. And a factor loading above 0.40 was used as a criterion for items to be retained in the DBQ components [20,35]. To test the internal consistency and reliability of the scales, Cronbach's (alpha) was calculated.
Multiple regression models were proposed to study the demographic/driving variables associated with aberrant driving behaviours and two binary logistic models were used to evaluate the relationship between demographic/driving variables, aberrant behaviours, and risk involvement (accidents and penalized points). Moreover, the dichotomous variable (yes/no) about accident involvement (with 0 � no crash in recent 3 years and 1 � at least one crash) and penalized points (with 0 � penalized points less than or equal to 2 points at last year and 1 � penalized points more than 2 points) was defined as the dependent variable in the binary logistic models. e variables were found statistically significant in a 95% confidence interval. ese statistical analyses were carried out in SPSS 26.0. Table 2 shows the means and standard deviations for each item in the improved DBQ. e most frequent behaviour was talking with passengers and other items of distraction, which indicated that distractions were more serious aberrant behaviours. is was followed by fatigue behaviours. On the violation item, "see the headlights coming at night, turn the headlights too" was highly scored, which showed the aggressive behaviours were heavier. Speeding as a frequent behaviour had a mean of 1.77 (SD � 0.88), which also had a higher score. e item, "fail to notice give-way signs for pedestrians and cyclists," was the highest reported error. As expected, the frequency of drunk driving was the lowest because of serious legal punishment.

Principal Component Analysis (PCA) of Driver
Behaviour Questionnaire. In order to explore the dimensional structure of the improved DBQ, the PCA with a varimax rotation and iteration was applied. To determine suitability for component analysis, the Kaiser-Meyer-Olkin Test and Bartlett's test were conducted and the results were satisfying (KMO � 0.862, P value < 0.001). e eigenvalues of seven factors were above 1 and a cut-off point of 0.4 was used for item loading values. e results showed that factor 3 and factor 4 were all about distraction while factor 6 and factor 7 were corresponding to errors, so factors 3 and 4 were combined into one factor, distracted driving, and factors 6 and 7 were combined into errors. At last, a five-factor structure solution accounted for 56.45% of the total variance. Cronbach'α alphas had been calculated for each scale and the results ranged from 0.622 to 0.860. All the results are presented in Table 2. e first factor, "violations," explained 26.07% of the variance. It included 10 items: 4 items were aggressive violations and other items were ordinary violations. e   Journal of Advanced Transportation second factor, "distracted driving," explained 9.40% of the variance. All items tended to record the frequency of distraction because of calling someone or other in-vehicle equipment. e third factor, "errors," explained 8.02% of the variance. It included 6 items, which were mainly about cognitive and inexperienced errors. e fourth factor, "drunk driving," explained 7.38% of the variance with items committing to driver's attitude after drinking alcohol. And the last factor, "fatigued driving," explained 5.58% of the variance. All items corresponded to fatigue because of sleep problems, work pressure, and boring driving situations.

Variables Associated with Five-Factor Scores.
To explore the relationship between demographic/driving variables and aberrant driving behaviours, five multiple regression models were established. Standardized regression coefficients and significance levels are shown in Table 3. e explanatory variables included the dichotomous variables (gender, marital status, educational background, and scores of driving skills) and the continuous variables (age, driving experience, and annual mileages). And the values of the explanatory variables are shown in Table 4.
Violations were associated with gender, age, and scores of driving skills. Male drivers who were young and confident in their driving skills declared more violations. ese variables accounted for 6.0% of the variance in the violation scores. All the variables were not significant for drunk driving. e reported distracted driving was predicted by drivers' age and scores of driving skills. Drivers who were young and confident in their driving skills were more probable to take part in nondriving related tasks, and these variables accounted for 5.0% of the variance in the distraction scores. e reported errors were associated with gender and age. e young males were significantly prone to make mistakes. Both variables accounted for 4.0% of the variance in the errors scores. Fatigued driving was also associated with males, which accounted for 4.0% of the variance in the fatigue scores. e marital status, driving experience, and annual mileages were not significant to the aberrant driving behaviours.

Variables Associated with Risk Involvement.
To explore the relationship between demographic/driving variables, aberrant driving behaviours and risk involvement, two binary logistic regression models were performed. Crashes and penalized points are dependent variables, respectively, with demographic/driving variables and five DBQ scores as explanatory variables. e results are shown in Table 5. e first model of accident involvement was reliable (chisquare � 62.26, df � 12, P < 0.001, P � 0.683 to the Hosmer-Lemeshow test) and the second too (chi-square � 25.26, df � 12, P < 0.05, P � 0.935 to the Hosmer-Lemeshow test). Overall, 69.3% of the predictions were accurate for both models.
e first model successfully predicted 76.8% of drivers without an accident and 61.2% with at least one crash. And the second model successfully predicted 91.0% of drivers without an accident and only 29.4% with at least one crash. e first model indicated that drivers who had a lower educational background and longer annual mileages declared more crashes while the second model did not find significantly demographic/driving variables associated with penalized points. Violations and distractions were positively related to both accident involvement and penalized points. e errors, fatigue, and drunk driving were not significant to both dependent variables.

Discussion.
e aim of this study is to validate the structure of DBQ with a sample of Chinese drivers and precisely explore the relationship between demographic/ driving variables, aberrant driving behaviours, and risk involvement.

Validating the Structure of DBQ.
e previous researches mainly divided the aberrant driving behaviours into 3 parts: violations, errors, slips, and lapses [4]. Lawton et al. [11] divided violations into ordinary and aggressive violations. e errors were also differentiated into inexperience, inattention, and dangerous errors [3]. e items of fatigue and drunk driving are included in violation, while distractions are included in errors or inattention errors. To precisely understand the aberrant driving behaviours, the fatigued driving and drunk driving were separated from violations as two independent parts as well as distracted driving from errors.
e new DBQ consisting of 28 items, and a PCA produced a five-factor structure. e reliability and validity of the questionnaire indicated that the factor structure was credible.
e items of violations and errors are mainly produced depending on reason's DBQ [4]. ere were also some items added because of complex motor and nonmotor mixed traffic or vehicles not giving way to pedestrians in China [21]. e designed items of distraction mainly tended to drivers' attention shifting from driving tasks to in-vehicle equipment, which had a difference with inattention errors referring to the driving consequence. e results of the questionnaire indicated that distraction was the most serious and frequent behaviour in naturalistic driving, especially in operating in-vehicle equipment or calling someone. is discovery is in line with researches in the United States by Schroeder [36] who found that drivers engage in while driving include talking with other passengers, adjusting the car radio, making and receiving cell phone calls, and using a smartphone for driving directions. e items designed for fatigue mainly pointed to drivers who did not have good sleep habits or had higher work pressure and a monotonous driving environment. e answers to these items indicated drivers' attitude and daily status toward fatigue. And the results showed that fatigued driving was another frequent behaviour. e items of drunk driving were prone to drivers' moral norm and driving attitude. e score of this factor was lower among other factors, which indicated that the penalty of drunk driving had a great impact on traffic safety. In general, the new DBQ enriches the conventional structure by adding the significant reasons of accidents in China.
Journal of Advanced Transportation 5

Relationship between Demographic/Driving Variables, Aberrant Driving Behaviours, and Risk Involvement.
e results showed that male drivers declared more violations than the female drivers, which was in line with many other studies [3,4,25,26]. ere was also a gender difference in errors that male drivers declared more errors, such as failure to notice signs or pedestrians, which was in line with the literature in which males report more violations, errors, and lapses [33]. e results also indicated that males declared more fatigue, which was consistent with the previous study [37]. e results may be because most sample is male drivers who have longer mileages. It was expected that the results did not find a gender difference in drunk driving, which can explain that the traffic laws forbidding drunk driving had significant meaning in curbing driving after drinking. e findings that young drivers declared more violations were keeping consistent with previous literatures [3,4]. e errors were also associated with age, which was in line with the previous studies that errors dropped with age [6,31] not the different opinion that errors increased with age [20,25]. e elder drivers had access to more driving experience, so the errors happening were lower than the young. e items of distracted driving mainly included distraction due to invehicle intelligent equipment, so the young had a higher inclination to distraction. However, the results did not find an association between age and fatigue or drunk driving. e reason may be that the age range of participates was mainly in 31-45 years old and driving hours were less every day. erefore, it is not easier to feel fatigue compared to professional drivers. With the more serious traffic laws in forbidding drunk driving, all of drivers had tried their best to obey the laws, so there was no relationship found between age and drunk driving. Furthermore, the drivers who were confident with their driving skills were prone to violation and distraction, which is in line with the results of Reason et al. [4] that drivers who considered themselves with a high level of driving skills tend to more violations. With selfconfident driving skills, drivers may relax and shift more attention from roads to in-vehicle equipment, which makes drivers inattentive and add the chance to violation. However, drivers' marital status, driving experience, and annual mileage did not have a significant correlation with the five factors.
e results showed that drivers with lower educational background and longer annual mileages declared more accidents, which was in line with the literatures that drivers with longer mileage had high propensity to crashes [3,6,20]. With longer annual mileages, the chance of drivers exposed to the road is larger, so it is easier for accidents to happen. However, the study by Vahedi et al. [20] found no significance between educational background and accidents. Other demographic/driving variables did not find a significant correlation with the accident, which was not in line with the studies that single [20,34] and young drivers [3,4,10] were more likely involved in the accident. Besides, no correlation between demographic/driving variables and penalized points was found.   e findings showed that violations were the key factor attributed to the accident, which is in line with the previous studies [3,4,6,10,29,31]. And the study also found that both violations and distracted driving were positively correlated with accident involvement and penalized points. However, the results did not find a positive correlation between fatigue and risk involvement, which was not in line with the study by Wang et al. [22] that found fatigue was positively related to crash involvement. e reason may be that the samples were unprofessional drivers with less driving hours and workload than the professional. No significance between drunk driving and risk involvement was found. is may be explained by more serious legal punishment in drunk driving. erefore, it is important to propose more traffic laws and fines to improve traffic safety [21].

Conclusions
Most previous researches have divided the DBQ into 3-5factor structure, including ordinary/aggressive violation and inattention/inexperienced/dangerous errors. Little researches corresponded to the cause of accidents to subdivide the structure, so the purpose of this study is to validate the DBQ by divided distractions, fatigue, and drunk driving from violations and errors. Furthermore, the relationship between demographic/driving variables and aberrant driving behaviours was explored. e results showed that male drivers declared more violations, errors, and fatigued driving. And young drivers tended to more violations, distractions, and errors. Drivers who were confident in their driving skills easily led to violations and distractions. e relationship between demographic/driving variables, aberrant driving behaviours, and risk involvement indicated that drivers with lower education and higher annual mileage declared more accidents. And both violations and distracted driving were positively correlated with accident involvement and penalized points. erefore, the findings of this article could be used to intervene in the driver's aberrant behaviours. it is effective to establish educational training or related laws or installing intelligent vehicle monitor equipment to avoid driver's violations and distractions to reduce risk involvement.

Limitation
e limitation of this study mainly includes the following.
(1) e frequency of aberrant driving behaviours is recorded by self-completion questionnaires, so drivers may be affected by sociopsychological expectations and response dishonestly, which will affect subsequent analysis. (2) e sample is not large and balanced in demographic/driving variables and does not cover other cities. (3) Furthermore, the stability of the DBQ questionnaire structure can be affected by different DBQ items, driving environments, and cultures. erefore, the applicability of this structure should be tested in different countries. In general, the results of the questionnaire have a significant correlation with drivers' naturalistic driving behaviours, so its structure can objectively measure aberrant driving behaviours. To further study the relationship between aberrant driving behaviours and risk involvement, the data from the real driving experiments as in a previous study [38] is also necessary to be recorded.

Data Availability
e data of participates responding to the DBQ are available from the corresponding author (yinj@chd.edu.cn).

Conflicts of Interest
e authors declare that there are no conflicts of interest regarding the publication of this paper.