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Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review

Year 2021, Volume: 5 Issue: 2, 131 - 140, 30.06.2021
https://doi.org/10.30939/ijastech..855733

Abstract

Semi-trailer articulated vehicles are mainly used for transportation of goods and in-dustrial products. The vehicles are made of two or more vehicular units that are cou-pled by a mechanical device called, hitch point. The static and dynamic behavior of these vehicles differs from those of other vehicles, while accidents on these vehicles are fatal and disastrous. Therefore, there is need to know more about the static and dynamic characteristic of these vehicle, in order to ensure safety of lives and proper-ties. This paper provides literature review on the aforementioned vehicle in order to have more insight on how to improve its stability. It was observed from the literatures review that, the higher the weight on this vehicle, the farther the distance of centre of gravity (CG) from the hitch point. This affects the safety margin against rollover sta-bility of these vehicles. The fifth wheel lead, and the distance between the tractor, and the trailer CG were also found to play a vital role in influencing the stability of these vehicles. However, it was observed that, it would of great important for a tractor unit with one rear axle, to have the fifth wheel lead, to be as large as possible in order to control the vehicle instability. Therefore, due to the unusual behavior of these vehi-cles, more research works are needed in order to have more insight on the static and dynamic characteristic of these vehicles as to improve the safety of lives and proper-ties.

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Thank you so much in anticipation. It is our prayer and believe that manuscript will be accepted and published in journal. We hoped to hear from you soon. Once more, thank you.

References

  • Reference Przemys A, Simi S. Safety and analysis of modern transport articulated vehicles . Motoric properties. Journal of Kones Powertrain and Transport, 2011; 18(1). 547-554.
  • Shuwen Z, Siqi Z. Study on tractor semi-trailer roll stability control. The Open Mechanical Engineering Journal, 2014; 8, 238-242.
  • Valentin I. Advanced automotive active safety systems, Ilmenau, 2017; pp. 1-2.
  • Boboye O. Articulated vehicle crashes in nigeria: concrete and sustainable mitigation measures. Haulage Operators Stakeholders’ Summit. A Production of Federal Road Safety of Nigeria, 09 July, 2018
  • Yunbo H. Roll and yaw stability evaluation of class 8 trucks with single and dual trailers in low and high speed driving conditions. Virginia; 2017, 1-3.
  • Ahmed F, Abdel A, Ahmed F, Abdel G. Effect of different parameters on the drag coefficient for commercial vehicles. Proceedings of Ninth International Conference on Aerospace Sciences & Aviation Technology, Military Technical College, Cairo, Egypt, May 8-10, 2001, pp. 1-19.
  • Kang X, Deng, W Vehicle-trailer handling dynamics and stability control-an engineering review. SAE. 2007; 01-822.
  • Winkler C.B, Blower D, Ervin R.D, Chalasani R.M. Rollover of heavy commercial vehicles. Society of Automotive Engineers, Warrendale, Pennsylvania. 2000.
  • Winkler C.B, Bogard SE, Ervin R.D, Horsman A, Blower D, Mink C. Karamihas S. Evaluation of innovative converter dollies. Technical Report UMTRI-93-47, University of Michigan Transportation Research Institute, Ann Arbor, Michigan, 1993.
  • Winkler C.B, Ervin R.D. Rollover of heavy commercial vehicles. Technical Report UMTRI-99-19, University of Michigan Transportation Research Institute, Ann Arbor, Michigan, 1999.
  • Andrzej R. Investigation of the influence of the centre of gravity position on the course of vehicle rollover. Warsaw University of Technology. Conference · June 2015. 1-12
  • Östh J, Krajnovic S. "The flow around a simplified tractor-trailer model studied by large eddy simulation". Journal of Wind Engineering and Industrial Aerodynamics, 2012; pp. 102. 36-47
  • Erik D. Johan P.W. Influence of the fifth-wheel location on heavy articulated vehicle handling. Proceedings 8th International Symposium On Heavy Vehicle Weights and Dimensions 14th - 18th March, 2014, Johannesburg, South Africa .Loads, Roads and The Information Highway.
  • Luijten M.E.J. Lateral dynamic behaviour of articulated commercial vehicles. Eindhoven. University of Technology, Vehicle Control Group, 2010; pp.1-8.
  • Elsasser D, Barickman F, Albrecht H, Church J, Xu G, Heitz M. Tractor semitrailer stability objective performance test research – Yaw stability. (Report No. DOT HS 811 734). Washington, DC: National Highway Traffic Safety Administration, May, 2013.
  • Kang X , Deng W . Vehicle-trailer handling dynamics and stability control–an engi- neering review. SAE Technical Paper No. 2007-01-0822 . 2007.
  • Mattia Z , Davide T, Aldo S, Patrick G, Basilio L, Antonella F, Koen S, Jasper DS, Wouter DN. Trailer control through vehicle yaw moment control: Theoretical analysis and experimental assessment. Mechatronics 64 (2019) 102282. Retrieved from; www.elsevier.com/locate/mechatronics, 10th May, 2020.
  • Yubiao Z. Multi-axle vehicle modeling and stability control: a recon_gurable approach. University of Waterloo, 2019; pp. 2-4
  • Jere L. Nonlinear lateral dynamic behavior of a high capacity transport vehicle, , Aalto University, Aalto, 2015; pp. 27-29.
  • Ellis JR. Vehicle handling dynamics. Mechanical Engineering Publications, London, 1994.
  • Pauwelussen J.P, Anghelache G, Theodorescu D.R, Schmeitz A. Yaw stability of articulated trucks. Leonardo DaVinci, module 10.
  • Pacejka H.B. Tyre and vehicle dynamics. Butterworth Heimann, 2006, 2nd edition.
  • Andrzejewski R. Awrejcewicz J. Nonlinear dynamics of a wheeled vehicle. Springer, 2005.
  • Hac A, Fulk D, Chen H. Stability and control considerations of vehicle-trailer combination. SAE Technical Paper Series, (2008-01-1228), 2008.
  • Troger H, Zeman K. A nonlinear analysis of generic types of loss of stability of theJ steady state motion of a tractor-semitrailer. In Vehicle System Dynamics, 1984; pp. 13, 161–172.
  • John L, Thomas K, Harry E. Law C. Co-simulation of heavy truck tire dynamics and electronic stability control systems (Phase A). National Transportation Research Center, Inc. University Transportation Center 2360 Cherahala Blvd. Knoxville, TN 37932, 2009.
  • Maas J.W.L.H. Jackknife stability of a tractor semi-trailer combination. (DCT rapporten. Eindhoven: Technische Universiteit Eindhoven,. 2007; 079.
  • Azad N.L, Khajepour A, McPhee J. Stability control of articulated steer vehicles by passive and active steering systems; 2005. SAE Technical Paper, 2005; 01.3573.
  • Chieh C, Masayoshi T. Dynamic modeling of tractor-semitrailer vehicles for automated highway systems. California Path Program Institute Of Transportation Studies University of California, Berkeley. Ucb-Its-Pwp-95-8, 1995; pp. 1-23.
  • Fancher p, Winkler C, Ervin R, Zhang H. Using braking to control the lateral motions of full trailers. In The dynamics of vehicles on roads and on tracks: Supplement to Vehicle System Dynamics, 1998; pp. 462–478.
  • Winkler C.B. simplified analysis of the steady-state turning of complex vehicles. Vehicle system dynamics, 1998; pp. 141, 180.
  • Pacejka H. Tire and vehicle dynamics. SAE, Warrendale, PA, USA, 2002.
  • Aleksander H, Daniel F, Hsien C. Stability and control considerations of vehicle-trailer combination. SAE Technical Paper Series. World Congress Detroit, Michigan, 2008.
  • Bouteldja M, Cerezo V. Jackknifing warning for articulated vehicles based on a de- tection and prediction system. 3rd International Conference on Road Safety and Simulation, 2011 .
  • Mokhiamar O , Abe M . Examination of different models following types of yaw mo- ment control strategy for improving handling safety of a car–caravan combination. Proc Inst Mech Eng, Part D, 2003; 217(7), 561–571.
  • Mokhiamar O . Stabilization of car-caravan combination using independent steer and drive/or brake forces distribution. Alex Eng J, 2015; 54(3). 315–324 .
  • Wesemeier D Isermann R, “Identification of vehicle parameters using stationary driving maneuvers,” Control Engineering Practice, 2009; 17, pp. 1426-1431.
  • Baffet G, Charara A, Lechner D. “Estimation of vehicle sideslip, tire force and wheel cornering stiffness,” Control Engineering Practice, 2009; 17, pp. 1255- 1264.
  • You S, Hahn J, Lee H, New adaptive approaches to real-time estimation of vehicle sideslip angle, Control Engineering Practice, 2009; 17(12), 1367-1379.
  • Elhemly MA, Zeyada Y. Fayed MA. Improvement of tractor semitrailer stability during severe maneuver at high speed. 12th International Conference on Applied Mechanics and Mechanical Engineering (Amme). Proceeding of The 12th Amme Conference, 16 -18 May 2006.
  • Mohamed A.A.A, Mina MSK, Lin X. Analysis of the energy harvesting potential–based suspension for truck semi-trailer. Institution of Mechanical Engineers Journal of Automobile Engineering. J Automobile Engineering, 2018; pp. 1–15
  • Wafer D. Lateral dynamics of multiple trailer trucks in windy environments. Retrieved from https://tigerprints.clemson.edu/all_theses/1987. 8th May, 2020.
  • Tankut A, Umit O. Rollover prevention for heavy trucks using frequency shaped sliding mode control. Vehicle system dynamics, 2006; 44(10),737-762.
  • Deleer B. Model based estimation of height of center of gravity in heavy vehicles. The Royal Institute Of Technology, 2013; pp. 7-9, 33-41.
  • Xue-lian Z, Hao Z, Yuan-yuan R, Ze-hong W, Xi-gang S. Rollover stability analysis of tank vehicles based on the solution of liquid sloshing in partially filled tanks. Advances in Mechanical Engineering, 2017; 9(6), 1–26.
  • Solmaz S, Akar M, Shorten R. Adaptive Rollover Prevention for Automotive Vehicles with Differential Braking. IFAC Proceedings, 2008; 41(2), 4695-4700
  • Guixian Q, Yulong H, Xiaoduan S, Jingjing T. Modeling of lateral stability of tractor-semitrailer on combined alignments of freeway. Hindawi Publishing Corporatio Discrete Dynamics In Nature and Society. Published 18th May, 2018, pp. 1-17.
  • Ren Y, Zheng X, Li X. Handling stability of tractor semitrailer based on handling diagram. Hindawi Publishing Corporation Discrete Dynamics in Nature and Society Volume 2012, Article ID 350360, 16 pages doi:10.1155/2012/35036, Pp. 1-16.
  • Ekuase A, Aduloju SC, Ogenekaro P, Ebhota WS, Dania DE. Determination of center of gravity and dynamic stability evaluation of a cargo-type tricycle. American Journal of Mechanical Engineering, 2015; 3(1), 26-31.
  • Santhosh C.B.E. Development of a tractor - semitrailer roll stability control mode. Ohio State University. 2007; pp. 12-20, 73-76.
  • Dan A.F, Roland L.R, Mark GS. Dynamics and roll stability of a loaded class 8 tractor- livestock semi-trailer, Engineering Dynamics Corporation, University of Illinois at Urbana-Champaign and Ruhl and Associates – Forensic, Inc. HVE-WP#2000-4. 2000.
  • Bendix ABS 6 Advanced with ESP stability system. Frequently Asked Questions to help you make an Intelligent Investment in Stability. Knorr-Bremse Group, 2007; pp. 1-18.
  • Marimuthu R, Jang B, Hong S, A Study on SUV Parameters Sensitivity on Rollover Propensity”, SAE Technical Paper, 2006- 01-0795
  • U.S. Department of Transportation (USDOT). Comprehensive Truck Size and Weight Limits Study. Volumes I and II of the, 2014.
  • Sampson DJM, Cebon D. Achievable roll stability of heavy road vehicles. Proc. InstnMech. Engrs, 2002; 217, pp. 269-287.
  • Kenneth L.E, Ralph L.B. 1996. Three wheeled vs four wheeled turf work trunk. Triodyne inc. Consultants in safety philosophy and technology. West Touhy Avenue. Retrieved from; Available at: www.triodyne.com/safety%20briefs.htm. 29th April, 2020
  • Sunday B, Thomas U, Ityokumbul IS, Nasir A. Effect of number of passengers [loading] on centre of gravity of a three wheeled vehicle [keke-napep]. AZOJETE, 15(3):638-647. ISSN 1596-2490; e-ISSN 2545-5818, www.azojete.com.ng
  • Lajos R, JanosI I. Self-steering behaviour of high-speed tractor-semitrailer and its control. Periodica polytechnica Ser. Transp. Eng, 1992; 21(3), 209-228.
  • Taheri S, Rakheja S, Hong H. Characterization of driver steering control of articulated freight vehicles based on a two-stage preview strategy. SAE International Journal of Commercial Vehicles, 2013; 6(2), 381-393.
  • Oreh SHT, Kazemi R, Azadi S, Zahedi A. A new method for directional control of a tractor semi-trailer. Australian Journal of Basic and Applied Sciences, 2012; 6(12): 396-409.
  • Saeedi M.A,, Kazemi R, Azadi S, analysis of roll control system to eliminate liquid sloshing effect on lateral stability of an articulated vehicle carrying liquid, International Journal of Engineering (IJE), TRANSACTIONS C: Aspects, 2016; 29(03), 386-393
  • Mohamed A.A.A, Mostafa M.M, Ali M.A Asa E. An analytical study of the performance indices of articulated truck semi-trailer during three different cases to improve the driver
Year 2021, Volume: 5 Issue: 2, 131 - 140, 30.06.2021
https://doi.org/10.30939/ijastech..855733

Abstract

References

  • Reference Przemys A, Simi S. Safety and analysis of modern transport articulated vehicles . Motoric properties. Journal of Kones Powertrain and Transport, 2011; 18(1). 547-554.
  • Shuwen Z, Siqi Z. Study on tractor semi-trailer roll stability control. The Open Mechanical Engineering Journal, 2014; 8, 238-242.
  • Valentin I. Advanced automotive active safety systems, Ilmenau, 2017; pp. 1-2.
  • Boboye O. Articulated vehicle crashes in nigeria: concrete and sustainable mitigation measures. Haulage Operators Stakeholders’ Summit. A Production of Federal Road Safety of Nigeria, 09 July, 2018
  • Yunbo H. Roll and yaw stability evaluation of class 8 trucks with single and dual trailers in low and high speed driving conditions. Virginia; 2017, 1-3.
  • Ahmed F, Abdel A, Ahmed F, Abdel G. Effect of different parameters on the drag coefficient for commercial vehicles. Proceedings of Ninth International Conference on Aerospace Sciences & Aviation Technology, Military Technical College, Cairo, Egypt, May 8-10, 2001, pp. 1-19.
  • Kang X, Deng, W Vehicle-trailer handling dynamics and stability control-an engineering review. SAE. 2007; 01-822.
  • Winkler C.B, Blower D, Ervin R.D, Chalasani R.M. Rollover of heavy commercial vehicles. Society of Automotive Engineers, Warrendale, Pennsylvania. 2000.
  • Winkler C.B, Bogard SE, Ervin R.D, Horsman A, Blower D, Mink C. Karamihas S. Evaluation of innovative converter dollies. Technical Report UMTRI-93-47, University of Michigan Transportation Research Institute, Ann Arbor, Michigan, 1993.
  • Winkler C.B, Ervin R.D. Rollover of heavy commercial vehicles. Technical Report UMTRI-99-19, University of Michigan Transportation Research Institute, Ann Arbor, Michigan, 1999.
  • Andrzej R. Investigation of the influence of the centre of gravity position on the course of vehicle rollover. Warsaw University of Technology. Conference · June 2015. 1-12
  • Östh J, Krajnovic S. "The flow around a simplified tractor-trailer model studied by large eddy simulation". Journal of Wind Engineering and Industrial Aerodynamics, 2012; pp. 102. 36-47
  • Erik D. Johan P.W. Influence of the fifth-wheel location on heavy articulated vehicle handling. Proceedings 8th International Symposium On Heavy Vehicle Weights and Dimensions 14th - 18th March, 2014, Johannesburg, South Africa .Loads, Roads and The Information Highway.
  • Luijten M.E.J. Lateral dynamic behaviour of articulated commercial vehicles. Eindhoven. University of Technology, Vehicle Control Group, 2010; pp.1-8.
  • Elsasser D, Barickman F, Albrecht H, Church J, Xu G, Heitz M. Tractor semitrailer stability objective performance test research – Yaw stability. (Report No. DOT HS 811 734). Washington, DC: National Highway Traffic Safety Administration, May, 2013.
  • Kang X , Deng W . Vehicle-trailer handling dynamics and stability control–an engi- neering review. SAE Technical Paper No. 2007-01-0822 . 2007.
  • Mattia Z , Davide T, Aldo S, Patrick G, Basilio L, Antonella F, Koen S, Jasper DS, Wouter DN. Trailer control through vehicle yaw moment control: Theoretical analysis and experimental assessment. Mechatronics 64 (2019) 102282. Retrieved from; www.elsevier.com/locate/mechatronics, 10th May, 2020.
  • Yubiao Z. Multi-axle vehicle modeling and stability control: a recon_gurable approach. University of Waterloo, 2019; pp. 2-4
  • Jere L. Nonlinear lateral dynamic behavior of a high capacity transport vehicle, , Aalto University, Aalto, 2015; pp. 27-29.
  • Ellis JR. Vehicle handling dynamics. Mechanical Engineering Publications, London, 1994.
  • Pauwelussen J.P, Anghelache G, Theodorescu D.R, Schmeitz A. Yaw stability of articulated trucks. Leonardo DaVinci, module 10.
  • Pacejka H.B. Tyre and vehicle dynamics. Butterworth Heimann, 2006, 2nd edition.
  • Andrzejewski R. Awrejcewicz J. Nonlinear dynamics of a wheeled vehicle. Springer, 2005.
  • Hac A, Fulk D, Chen H. Stability and control considerations of vehicle-trailer combination. SAE Technical Paper Series, (2008-01-1228), 2008.
  • Troger H, Zeman K. A nonlinear analysis of generic types of loss of stability of theJ steady state motion of a tractor-semitrailer. In Vehicle System Dynamics, 1984; pp. 13, 161–172.
  • John L, Thomas K, Harry E. Law C. Co-simulation of heavy truck tire dynamics and electronic stability control systems (Phase A). National Transportation Research Center, Inc. University Transportation Center 2360 Cherahala Blvd. Knoxville, TN 37932, 2009.
  • Maas J.W.L.H. Jackknife stability of a tractor semi-trailer combination. (DCT rapporten. Eindhoven: Technische Universiteit Eindhoven,. 2007; 079.
  • Azad N.L, Khajepour A, McPhee J. Stability control of articulated steer vehicles by passive and active steering systems; 2005. SAE Technical Paper, 2005; 01.3573.
  • Chieh C, Masayoshi T. Dynamic modeling of tractor-semitrailer vehicles for automated highway systems. California Path Program Institute Of Transportation Studies University of California, Berkeley. Ucb-Its-Pwp-95-8, 1995; pp. 1-23.
  • Fancher p, Winkler C, Ervin R, Zhang H. Using braking to control the lateral motions of full trailers. In The dynamics of vehicles on roads and on tracks: Supplement to Vehicle System Dynamics, 1998; pp. 462–478.
  • Winkler C.B. simplified analysis of the steady-state turning of complex vehicles. Vehicle system dynamics, 1998; pp. 141, 180.
  • Pacejka H. Tire and vehicle dynamics. SAE, Warrendale, PA, USA, 2002.
  • Aleksander H, Daniel F, Hsien C. Stability and control considerations of vehicle-trailer combination. SAE Technical Paper Series. World Congress Detroit, Michigan, 2008.
  • Bouteldja M, Cerezo V. Jackknifing warning for articulated vehicles based on a de- tection and prediction system. 3rd International Conference on Road Safety and Simulation, 2011 .
  • Mokhiamar O , Abe M . Examination of different models following types of yaw mo- ment control strategy for improving handling safety of a car–caravan combination. Proc Inst Mech Eng, Part D, 2003; 217(7), 561–571.
  • Mokhiamar O . Stabilization of car-caravan combination using independent steer and drive/or brake forces distribution. Alex Eng J, 2015; 54(3). 315–324 .
  • Wesemeier D Isermann R, “Identification of vehicle parameters using stationary driving maneuvers,” Control Engineering Practice, 2009; 17, pp. 1426-1431.
  • Baffet G, Charara A, Lechner D. “Estimation of vehicle sideslip, tire force and wheel cornering stiffness,” Control Engineering Practice, 2009; 17, pp. 1255- 1264.
  • You S, Hahn J, Lee H, New adaptive approaches to real-time estimation of vehicle sideslip angle, Control Engineering Practice, 2009; 17(12), 1367-1379.
  • Elhemly MA, Zeyada Y. Fayed MA. Improvement of tractor semitrailer stability during severe maneuver at high speed. 12th International Conference on Applied Mechanics and Mechanical Engineering (Amme). Proceeding of The 12th Amme Conference, 16 -18 May 2006.
  • Mohamed A.A.A, Mina MSK, Lin X. Analysis of the energy harvesting potential–based suspension for truck semi-trailer. Institution of Mechanical Engineers Journal of Automobile Engineering. J Automobile Engineering, 2018; pp. 1–15
  • Wafer D. Lateral dynamics of multiple trailer trucks in windy environments. Retrieved from https://tigerprints.clemson.edu/all_theses/1987. 8th May, 2020.
  • Tankut A, Umit O. Rollover prevention for heavy trucks using frequency shaped sliding mode control. Vehicle system dynamics, 2006; 44(10),737-762.
  • Deleer B. Model based estimation of height of center of gravity in heavy vehicles. The Royal Institute Of Technology, 2013; pp. 7-9, 33-41.
  • Xue-lian Z, Hao Z, Yuan-yuan R, Ze-hong W, Xi-gang S. Rollover stability analysis of tank vehicles based on the solution of liquid sloshing in partially filled tanks. Advances in Mechanical Engineering, 2017; 9(6), 1–26.
  • Solmaz S, Akar M, Shorten R. Adaptive Rollover Prevention for Automotive Vehicles with Differential Braking. IFAC Proceedings, 2008; 41(2), 4695-4700
  • Guixian Q, Yulong H, Xiaoduan S, Jingjing T. Modeling of lateral stability of tractor-semitrailer on combined alignments of freeway. Hindawi Publishing Corporatio Discrete Dynamics In Nature and Society. Published 18th May, 2018, pp. 1-17.
  • Ren Y, Zheng X, Li X. Handling stability of tractor semitrailer based on handling diagram. Hindawi Publishing Corporation Discrete Dynamics in Nature and Society Volume 2012, Article ID 350360, 16 pages doi:10.1155/2012/35036, Pp. 1-16.
  • Ekuase A, Aduloju SC, Ogenekaro P, Ebhota WS, Dania DE. Determination of center of gravity and dynamic stability evaluation of a cargo-type tricycle. American Journal of Mechanical Engineering, 2015; 3(1), 26-31.
  • Santhosh C.B.E. Development of a tractor - semitrailer roll stability control mode. Ohio State University. 2007; pp. 12-20, 73-76.
  • Dan A.F, Roland L.R, Mark GS. Dynamics and roll stability of a loaded class 8 tractor- livestock semi-trailer, Engineering Dynamics Corporation, University of Illinois at Urbana-Champaign and Ruhl and Associates – Forensic, Inc. HVE-WP#2000-4. 2000.
  • Bendix ABS 6 Advanced with ESP stability system. Frequently Asked Questions to help you make an Intelligent Investment in Stability. Knorr-Bremse Group, 2007; pp. 1-18.
  • Marimuthu R, Jang B, Hong S, A Study on SUV Parameters Sensitivity on Rollover Propensity”, SAE Technical Paper, 2006- 01-0795
  • U.S. Department of Transportation (USDOT). Comprehensive Truck Size and Weight Limits Study. Volumes I and II of the, 2014.
  • Sampson DJM, Cebon D. Achievable roll stability of heavy road vehicles. Proc. InstnMech. Engrs, 2002; 217, pp. 269-287.
  • Kenneth L.E, Ralph L.B. 1996. Three wheeled vs four wheeled turf work trunk. Triodyne inc. Consultants in safety philosophy and technology. West Touhy Avenue. Retrieved from; Available at: www.triodyne.com/safety%20briefs.htm. 29th April, 2020
  • Sunday B, Thomas U, Ityokumbul IS, Nasir A. Effect of number of passengers [loading] on centre of gravity of a three wheeled vehicle [keke-napep]. AZOJETE, 15(3):638-647. ISSN 1596-2490; e-ISSN 2545-5818, www.azojete.com.ng
  • Lajos R, JanosI I. Self-steering behaviour of high-speed tractor-semitrailer and its control. Periodica polytechnica Ser. Transp. Eng, 1992; 21(3), 209-228.
  • Taheri S, Rakheja S, Hong H. Characterization of driver steering control of articulated freight vehicles based on a two-stage preview strategy. SAE International Journal of Commercial Vehicles, 2013; 6(2), 381-393.
  • Oreh SHT, Kazemi R, Azadi S, Zahedi A. A new method for directional control of a tractor semi-trailer. Australian Journal of Basic and Applied Sciences, 2012; 6(12): 396-409.
  • Saeedi M.A,, Kazemi R, Azadi S, analysis of roll control system to eliminate liquid sloshing effect on lateral stability of an articulated vehicle carrying liquid, International Journal of Engineering (IJE), TRANSACTIONS C: Aspects, 2016; 29(03), 386-393
  • Mohamed A.A.A, Mostafa M.M, Ali M.A Asa E. An analytical study of the performance indices of articulated truck semi-trailer during three different cases to improve the driver
There are 62 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Review Articles
Authors

Sunday Bako 0000-0003-2348-1217

Publication Date June 30, 2021
Submission Date January 7, 2021
Acceptance Date April 29, 2021
Published in Issue Year 2021 Volume: 5 Issue: 2

Cite

APA Bako, S. (2021). Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review. International Journal of Automotive Science And Technology, 5(2), 131-140. https://doi.org/10.30939/ijastech..855733
AMA Bako S. Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review. IJASTECH. June 2021;5(2):131-140. doi:10.30939/ijastech.855733
Chicago Bako, Sunday. “Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review”. International Journal of Automotive Science And Technology 5, no. 2 (June 2021): 131-40. https://doi.org/10.30939/ijastech. 855733.
EndNote Bako S (June 1, 2021) Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review. International Journal of Automotive Science And Technology 5 2 131–140.
IEEE S. Bako, “Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review”, IJASTECH, vol. 5, no. 2, pp. 131–140, 2021, doi: 10.30939/ijastech..855733.
ISNAD Bako, Sunday. “Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review”. International Journal of Automotive Science And Technology 5/2 (June 2021), 131-140. https://doi.org/10.30939/ijastech. 855733.
JAMA Bako S. Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review. IJASTECH. 2021;5:131–140.
MLA Bako, Sunday. “Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review”. International Journal of Automotive Science And Technology, vol. 5, no. 2, 2021, pp. 131-40, doi:10.30939/ijastech. 855733.
Vancouver Bako S. Stability Analysis of a Semi-Trailer Articulated Vehicle: A Review. IJASTECH. 2021;5(2):131-40.

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