Driver’s Behaviour Changes With Different LODs of Road Scenarios

This paper presents the outcomes of a research aims at studying and assessing driver behaviours in relation to the simulated driving environments, with a different Level of Detail (LOD), through an experimental survey based on functional variables of the simulated vehicle. The needed level of realism of a simulation changes according to the specific goal of the study and the peculiar context taken into consideration. In general, six main classes of variables are considered for comparative studies, namely: 1) Road infrastructure; 2) Vehicle characteristics and its performance; 3) Buildings and all other artefacts visible from the vehicle; 4) Events (pedestrians, signalization, animals, lighting, etc); 5) Environmental conditions (rain, fog, night-time, visibility); 6) Traffic (with different levels of service). The focus of this study relies on buildings and other artefacts visible from the vehicle. The hypothesis is that a different LOD of these elements could affect driver’s behaviour and, consequently, the validity of the driving experience assessment. The LOD can be considered in terms of quality and completeness, and in designing virtual driving tests, the creation of driving scenarios, which should be ideally as close as possible to the real context, is becoming increasingly crucial. However, the construction of such scenarios could be complex and time consuming, especially when the research aims at evaluating the behaviour of a driver in different conditions. Consequently, using in an effective way a lower LOD could lead to a reduction of time required for the implementation of the scenario. In this study, four scenarios with different LODs of its components have been developed following a protocol to optimize the 3D modelling activity. The scenario relates to the same urban road path, which is 1.12km long. The experiment involved 29 participants with age ranging in (19, 25) years. Each of them was asked to make twice the path with all LOD scenarios but in different sequence in order to avoid possible bias in driver’s behaviour. The simulation was developed by using CarMaker software (IGP). During the simulation different variables of vehicle, such as position and distance from an ideal trajectory, speed, braking, acceleration, and steering angle, have been collected. The results of the analysis led to the identification of relationships between LODs, vehicle variables, trajectories and driver’s characteristic.

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  • Supplemental Notes:
    • Abstract used by permission of Association for European Transport.
  • Corporate Authors:

    Association for European Transport (AET)

    1 Vernon Mews, Vernon Street, West Kensington
    London W14 0RL,    
  • Authors:
    • Caruso, Giandomenico
    • Shi, Yuan
    • Ahmed, Islam Sayed
    • Ferraioli, Alfonso
    • Piga, Barbara
    • Mussone, Lorenzo
  • Conference:
  • Publication Date: 2020


  • English

Media Info

  • Media Type: Digital/other
  • Features: Bibliography; Figures; Photos; Tables;
  • Pagination: 19p
  • Monograph Title: European Transport Conference 2020

Subject/Index Terms

Filing Info

  • Accession Number: 01766113
  • Record Type: Publication
  • Files: TRIS
  • Created Date: Feb 9 2021 11:56AM