Review of Driving Behavior Towards Fuel Consumption and Road Safety

Authors

  • Fatima Haque Faculty of Mechanical Engineering Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor
  • Mohd Azman Abas UTM Centre for Low Carbon Transportation (LoCARtic) Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor

Keywords:

Driving behavior, vehicle speed, acceleration, fuel consumption, road safety

Abstract

One of the main concerns for automobile researchers is establish a driving method that is efficient to the engine and ensures road safety. Most studies categorized driver’s behavior based on aggressiveness while driving. It was found that aggressive drivers tend to provoke fast start and quick acceleration, driving at high engine revolution, and causing sudden speed change that are prone to road accidents. On the other hand, eco-driving which consists of gentle acceleration, coast-down deceleration, maintaining a steady speed and avoidance of high speed is much safer than the aggressive driving. At the same time smooth, experienced pattern in the eco-driving consumes lesser fuel in a statistically significant way. Driver’s aid system in modern cars have been invented to assist the driver into eco-driving were claimed to be effective. However, in the absence or failure of such system, drivers are suggested to drive by maintaining steady speed, avoiding sudden stop and harsh acceleration. Nevertheless, the suggestions varied between one another because there are no certain standards that could be referred to. This paper gathers the findings from available studies and highlights the recommended driving behavior in a passenger car that could be adapted in the effort to simultaneously improve the fuel economy and road safety.

References

Ericsson E., 2001. Independent Driving Pattern Factors and Their Influence on Fuel-use and Exhaust Emission Factors, Transportation Research Part D: Transport and Environment, 6(5): 325-345.

Zheng F., Li J., Van Zuylen H. and Lu C., 2017. Influence of Driver Characteristics on Emissions and Fuel Consumption, Transp. Res. Procedia, 27: 624–631.

Bakhit P., Said D. and Radwan L., 2015. Impact of Acceleration Aggressiveness on Fuel Consumption Using Comprehensive Power Based Fuel Consumption Model, Civil and Environmental Research, 7(3): 148–157.

Meseguer J.E., Calafate C.T., Cano J.C. and Manzoni P., 2015. Assessing The Impact of Driving Behavior on Instantaneous Fuel Consumption, 12th Annual IEEE Consumer Communications and Networking Conference (CCNC), 443–448, Las Vegas, NV, USA.

Fuel-efficient Driving Techniques Natural Resources Canada, http://www.nrcan.gc.ca/energy/efficiency/transportation/cars-light-trucks/fuel-efficient-driving-techniques/7507. [Accessed: 30 April 2018].

Hu X., Chiu Y., Ma Y. and Zhu L.,2015. Studying Driving Risk Factors using Multi-Source Mobile Computing Data, Int. J. Transp. Sci. Technol., 4(3): 295–312.

Joubert J.W., De Beer D. and De Koker N., 2016. Combining Accelerometer Data and Contextual Variables to Evaluate The Risk of Driver Behaviour, Transp. Res. Part F Psychol. Behav., 41: 80–96.

LiÅ¡Äák Å ., MoravÄík Ľ. and JaÅ›kiewicz M., 2014. Safety Requirements for Road Vehicles, Zeszyty Naukowe, Maritime University of Szczecin Akademia Morska w Szczecinie 39(111): 94-99.

Guide to Driving in Malaysia - Drive Safe in Malaysia, https://www.rhinocarhire.com/Drive-Smart-Blog/Drive-Smart-Malaysia.aspx. [Accessed: 30 April 2018].

Public Roads - Setting Speed Limits for Safety, September/October 2013 - FHWA-HRT-13-006, https://www.fhwa.dot.gov/publications/publicroads/13sepoct/02.cfm. [Accessed: 30 April 2018].

Current speed limit policies - European Commission, https://ec.europa.eu/transport/road_safety/specialist/knowledge/speed/speed_limits/current_speed_limit_policies_en. [Accessed: 30 April 2018].

World Health Organization, Road traffic injuries, http://www.who.int/news-room/fact-sheets/detail/road-traffic-injuries, [Accessed: 30 April 2018].

Larsson H. and Ericsson E., 2009. The Effects of An Acceleration Advisory Tool in Vehicles for Reduced Fuel Consumption and Emissions, Transp. Res. Part D, 14(2): 141–146.

Fontaras G., Zacharof N-G. and Ciuffo B., 2017. Fuel Consumption and CO2 Emissions from Passenger Cars in Europe À Laboratory Versus Real-world Emissions, Prog. Energy Combust. Sci., 60: 97–131.

Eboli L., Mazzulla G. and Pungillo G., 2016. Combining Speed and Acceleration to Define Car Users’ Safe or Unsafe Driving Behaviour, Transp. Res. Part C, 68: 113–125.

Braitman K.A., Kirley B.B., Mccartt A.T. and Chaudhary N.K., 2008. Crashes of Novice Teenage Drivers: Characteristics and Contributing Factors, J Safety Res., 39(1): 47-54.

Mohamed M. and Bromfield N.F., 2017. Attitudes, Driving Behavior, and Accident Involvement Among Young Male Drivers in Saudi Arabia, Transp. Res. Part F Psychol. Behav., 47: 59–71.

Rolison J.J., Regev S., Moutari S. and Feeney A., 2018. What Are The Factors that Contribute to Road Accidents? An Assessment of Law Enforcement Views, Ordinary Drivers’ Opinions, and Road Accident Records, Accid. Anal. Prev., 115(August 2017): 11–24.

Bifulco G., Galante F., Pariota L. and Spena M., 2015. A Linear Model for The Estimation of Fuel Consumption and The Impact Evaluation of Advanced Driving Assistance Systems, Sustainability, 7(10): 14326–14343.

Mensing F., Bideaux E., Trigui R., Ribet J. and Jeanneret B., 2014. Eco-driving: An Economic or Ecologic Driving Style?, Transp. Res. PART C, 38: 110–121.

Bokare P.S. and Maurya A.K., 2017. Acceleration-Deceleration, Transp. Res. Procedia, 5: 4733–4749.

af Wåhlberg A.E., 2007. Long-term Effects of Training in Economical Driving: Fuel Consumption, Accidents, Driver Acceleration Behavior and Technical Feedback, International Journal of Industrial Ergonomics, 37(4): 333–343.

Wright C.L. and Silberman K., 2018. Media Influence on Perception of Driving Risk and Behaviors of Adolescents and Emerging Adults, Transp. Res. Part F Psychol. Behav., 54: 290–298.

Bifulco G.N., Galante F., Pariota L. and Spena M.R., 2015. A Linear Model for The Estimation of Fuel Consumption and The Impact Evaluation of Advanced Driving Assistance Systems, Sustainability, 7(10): 14326–14343.

Milanés V., Shladover S.E., Spring J. and Nowakowski C., 2014. Cooperative Adaptive Cruise Control in Real Traffic Situations, IEEE Transactions on Intelligent Transportation Systems, 15(1): 296–305.

Ge J.I. and Orosz G., 2014. Dynamics of Connected Vehicle Systems with Delayed Acceleration Feedback, Transp. Res. PART C, 46: 46–64.

Jeong E. and Oh C., 2017. Evaluating The Effectiveness of Active Vehicle Safety Systems, Accid. Anal. Prev., 100: 85–96.

Khondaker B. and Kattan L., 2015. Variable Speed Limit: A Microscopic Analysis in A Connected Vehicle Environment, Transp. Res. Part C, 58: 146–159.

Hamdar S.H. and Mahmassani H.S., 2008. From Existing Accident-Free Car-Following Models to Colliding Vehicles Exploration and Assessment, Transportation Research Record: Journal of the Transportation Research Board, 2088: 45–56.

Duarte G., Gonçalves G.A. and Farias T.L., 2016. Analysis of Fuel Consumption and Pollutant Emissions of Regulated and Alternative Driving Cycles Based on Real-world Measurements, Transp. Res. Part D, 44: 43–54.

Wang X., Xing Y., Luo L. and Yu R., 2018. Evaluating The Effectiveness of Behavior-Based Safety Education Methods for Commercial Vehicle Drivers, Accid. Anal. Prev., 117(July 2016): 114–120.

Ehsani M., Ahmadi A. and Fadai D., 2016. Letter to the Editor, Renew. Sustain. Energy Rev., 53(C): 1638–1648.

Tang T., Huang H. and Shang H., 2015. Influences of The Driver’s Bounded Rationality on Micro Driving Behavior, Fuel Consumption and Emissions, Transp. Res. Part D, 41: 423–432.

Zhou M., Jin H. and Ding F., 2017. Minimizing Vehicle Fuel Consumption on Hilly Roads Based on Dynamic Programming, Advances in Mechanical Engineering, 9(5): 1–8.

Kancharla S.R. and Ramadurai G., 2018. Incorporating Driving Cycle-based Fuel Consumption Estimation in Green Vehicle Routing Problems, Sustain. Cities Soc., 40(September 2017): 214–221.

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Published

2019-05-09

How to Cite

Haque, F., & Abas, M. A. (2019). Review of Driving Behavior Towards Fuel Consumption and Road Safety. Jurnal Mekanikal, 41(1). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/324

Issue

Section

Mechanical

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