Determining the trajectory of the vehicle motion on the basis of the recorded physical quantities describing its dynamics during double lane change maneuvers
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Vehicle Tests Laboratory, Łukasiewicz Research Network - Automotive Industry Institute, Poland
Tomasz Pusty   

Vehicle Tests Laboratory, Łukasiewicz Research Network - Automotive Industry Institute, Jagiellońska, 03-301, Warsaw, Poland
Submission date: 2022-06-20
Final revision date: 2022-06-29
Acceptance date: 2022-06-29
Publication date: 2022-06-30
The Archives of Automotive Engineering – Archiwum Motoryzacji 2022;96(2):96–102
The paper indicated the results of the vehicle motion trajectory calculations determined on the basis of the recorded waveforms of the acceleration vector and angular velocity components during the double lane change maneuver, taking into account the errors of acceleration sensors reset (zeroing). For the sake of simplicity, it was assumed that the zeroing errors apply only to the linear acceleration sensors, while the angular velocity sensors show exact values at the time t = 0 s (when starting the double lane change maneuver). During the analysis of the results of the experimental research, the vehicle kinematics model was used, in which right-handed coordinate systems were used: global and two local coordinate systems. The differences in the results of the calculations were determined and possible causes of these differences were indicated. The test results indicate that special attention should be paid to zeroing the acceleration sensors, in particular the ay component.
Dziewiecki M., Gidlewski M.: Limitations of use of an inertial positioning system in a truck during a maneuver of avoiding a suddenly appearing obstacle. 24th ESV International Technical Conference on the Enhanced Safety of Vehicles. Goteborg, Sweden, 2015.
Guzek M., Lozia Z.: Analysis of the accuracy of the reconstruction of a road accident using the car "black box" records. Materials of the 2nd scientific and technical conference "Development of car technology and motor insurance" (Analiza dokładności rekonstrukcji wypadku drogowego wykorzystujących zapisy samochodowej „czarnej skrzynki”, Materiały II konferencji naukowo-technicznej ”Rozwój techniki samochodowej a ubezpieczenia komunikacyjne”). Radom, 2004.
Guzek M., Lozia Z.: Possible Errors occurring during Accident Reconstruction based on Car "Black Box" Records. SAE Technical Paper. 2002, 90920, DOI: 10.4271/2002-01-0549.
Jurecki R., Jaśkiewicz M.: Analysis of Road Accidents in Poland Over the Last Ten Years. Scientific Journals Maritime University of Szczecin. 2012, 32(104), 65–70.
Lozia Z.: Vehicle dynamics and motion simulation versus experiment. SAE Technical Paper. 1998, 90116, DOI: 10.4271/980220.
Pieniążek W., Wolak S.: The problematic aspects of linear velocity and acceleration measurements in curvilinear motion of automobiles. Proceedings of the Institute of Vehicles. 2017, 5(114), 5–16.
Poliak M., Tomicova J., Jaskiewicz M., Rudawska A., Lakhmetkina N.: Impact of neutralization of transport documents on the safety of the road carrier. 12th International Science-Technical Conference Automotive Safety. 2020, DOI: 10.1109/AUTOMOTIVESAFETY47494.2020.9293497.
Prochowski L., Pusty T., Gidlewski M., Jemioł L.: Experimental studies of the car-trailer system when passing by a suddenly appearing obstacle in the aspect of active safety of autonomous vehicles. IOP Conference Series: Materials Science and Engineering. 2018, 421, 032024, DOI: 10.1088/1757-899X/421/3/032024.
Prochowski L., Ziubiński M., Szwajkowski P., Gidlewski M. Pusty T. Stańczyk T.L.: Impact of Control System Model Parameters on the Obstacle Avoidance by an Autonomous Car-Trailer Unit: Research Results. Energies. 2021, 14(10), 2958, DOI: 10.3390/en14102958.
Wach W.: Structural credibility of road accidents reconstruction. Publishing House of the Institute of Forensic Expertise (Wiarygodność strukturalna rekonstrukcji wypadków drogowych. Wydawnictwo Instytutu Ekspertyz Sądowych), Kraków, 2014.
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