TY - CHAP
T1 - Investigating the Effect of Driver-Vehicle-Environment Interaction with Risk Through Naturalistic Driving Data
AU - Michelaraki, Eva
AU - Garefalakis, Thodoris
AU - Roussou, Stella
AU - Katrakazas, Christos
AU - Afghari, Amir Pooyan
AU - Papazikou, Evita
AU - Talbot, Rachel
AU - Adnan, Muhammad
AU - Khattak, Muhammad Wisal
AU - Al Haddad, Christelle
AU - Alam, Md Rakibul
AU - Antoniou, Constantinos
AU - Papadimitriou, Eleonora
AU - Brijs, Tom
AU - Yannis, George
PY - 2025
Y1 - 2025
N2 - While mobility and safety of drivers are challenged by behavioral changes, the increasingly complex road environment has placed a higher demand on their adaptability. The ultimate goal of this paper was to identify the impact that the balance between task complexity and coping capacity had on crash risk. Towards that aim, an integrated model for understanding the effect of the inter-relationship of task complexity and coping capacity with risk was developed. A vast library of data from a naturalistic driving experiment was created in three countries (i.e., Belgium, UK and Germany) to investigate the most prominent driving behavior indicators available, including speeding, headway, overtaking, duration, distance and harsh events. In order to fulfil the aforementioned objectives, exploratory analysis, such as Generalized Linear Models (GLMs) were developed, and the most appropriate variables associated to the latent variable “task complexity” and “coping capacity” were estimated from the various indicators. Additionally, Structural Equation Models (SEMs) were used to explore how the model variables were inter-related, allowing for both direct and indirect relationships to be modelled. The analyses revealed that higher task complexity levels lead to higher coping capacity by drivers. Additionally, the effect of task complexity on risk was greater than the impact of coping capacity in Belgium and Germany, while mixed results were observed in the UK.
AB - While mobility and safety of drivers are challenged by behavioral changes, the increasingly complex road environment has placed a higher demand on their adaptability. The ultimate goal of this paper was to identify the impact that the balance between task complexity and coping capacity had on crash risk. Towards that aim, an integrated model for understanding the effect of the inter-relationship of task complexity and coping capacity with risk was developed. A vast library of data from a naturalistic driving experiment was created in three countries (i.e., Belgium, UK and Germany) to investigate the most prominent driving behavior indicators available, including speeding, headway, overtaking, duration, distance and harsh events. In order to fulfil the aforementioned objectives, exploratory analysis, such as Generalized Linear Models (GLMs) were developed, and the most appropriate variables associated to the latent variable “task complexity” and “coping capacity” were estimated from the various indicators. Additionally, Structural Equation Models (SEMs) were used to explore how the model variables were inter-related, allowing for both direct and indirect relationships to be modelled. The analyses revealed that higher task complexity levels lead to higher coping capacity by drivers. Additionally, the effect of task complexity on risk was greater than the impact of coping capacity in Belgium and Germany, while mixed results were observed in the UK.
KW - driving behavior
KW - naturalistic driving study; Structural Equation Models; Generalized Linear Models
KW - road safety
UR - http://www.scopus.com/inward/record.url?scp=105015314601&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-88974-5_22
DO - 10.1007/978-3-031-88974-5_22
M3 - Chapter
AN - SCOPUS:105015314601
SN - 978-3-031-88973-8
T3 - Lecture Notes in Mobility
SP - 147
EP - 161
BT - Lecture Notes in Mobility
PB - Springer Nature
ER -