Effectiveness of simulator-based training for heavy vehicle operators: What do we know and what do we still need to know?

The use of simulation to train heavy vehicle operators has much potential. However, realising the potential efficiencies associated with simulation-based training can be a challenge for training providers. While some guidance exists on simulator selection, information is lacking about how best to incorporate simulation into a broader training program, including which skills to target and how much simulation to provide relative to other forms of practical training (i.e., range-based, and on-road). This paper presents the key outcomes of a literature review, which sought broadly to explore the effectiveness of simulation in training heavy vehicle operators. The review focussed on the research evidence pointing to a role for simulation-based training in critical technical (i.e., vehicle control) and non-technical (e.g., hazard perception) skill areas at the entry level, and in the principles of eco-driving at the post-licensing level. Regarding technical and non-technical skills, it was found that evidence of effectiveness has typically come from evaluations drawing on global performance measures (e.g., licence test scores) rather than on specific measures. Also, despite evidence of learning, there appears to be scant evidence on transfer of training to the real-world and on long-term skill retention. In the case of eco-driving, the review showed that there exists evidence of learning in the simulated environment, positive transfer of training to the real-world, and skill retention. However, any flow-on benefits of reduced fuel consumption to safety have yet to be explored objectively. The implications of these outcomes are discussed in terms of opportunities for the future.

[1]  G. J. Veldhuis,et al.  Evaluation in practice: identifying factors for improving transfer of training in technical domains , 2001 .

[2]  John F. Brock,et al.  SIMULATORS AND BUS SAFETY: GUIDELINES FOR ACQUIRING AND USING TRANSIT BUS OPERATOR DRIVING SIMULATORS , 2001 .

[3]  John E. Deaton,et al.  Justification for Use of Simulation , 2008 .

[4]  John F Brock,et al.  Effectiveness of Commercial Motor Vehicle Driver Training Curricula and Delivery Methods , 2007 .

[5]  Myra Blanco,et al.  Commercial Motor Vehicle Driving Simulator Validation Study: Phase II , 2011 .

[6]  Myra Blanco,et al.  On the training and testing of entry-level commercial motor vehicle drivers. , 2011, Accident; analysis and prevention.

[7]  Nick Reed,et al.  From research to commercial fuel efficiency training for truck drivers using Trucksim , 2010 .

[8]  Heather A. Priest,et al.  Design, Delivery, and Evaluation of Training Systems , 2006 .

[9]  N Reed,et al.  SCOTSIM: An evaluation of the effectiveness of two truck simulators for professional driver training , 2007 .

[10]  Frank A. Drews,et al.  SIMULATOR TRAINING IMPROVES DRIVER EFFICIENCY: TRANSFER FROM THE SIMULATOR TO THE REAL WORLD , 2005 .

[11]  Dahai Liu,et al.  Transfer of Training , 2008 .

[12]  Andrew M. Parkes Improved realism and improved utility of driving simulators: are they mutually exclusive? , 2005 .

[13]  Neville A Stanton,et al.  Safe driving in a green world: a review of driver performance benchmarks and technologies to support 'smart' driving. , 2011, Applied ergonomics.

[14]  Natassia Goode,et al.  Simulation-based driver and vehicle crew training: applications, efficacy and future directions. , 2013, Applied ergonomics.

[15]  Karel Brookhuis,et al.  Developments in Human Factors in Transportation, Design, and Evaluation , 2006 .

[16]  Mascha C. van der Voort,et al.  A prototype fuel-efficiency support tool , 2001 .

[17]  Loren Staplin,et al.  TRAINING OF COMMERCIAL MOTOR VEHICLE DRIVERS , 2004 .

[18]  John D. Lee,et al.  Handbook of Driving Simulation for Engineering, Medicine and Psychology: An Overview , 2011 .

[19]  Richard J. Hanowski,et al.  The Commercial Driver , 2011 .