Brake Timing Measurements for a Tractor-Semitrailer Under Emergency Braking

Bayan, Fawzi; Cornetto, Anthony; Dunn, Ashley L.; Sauer, Eric

doi:10.4271/2009-01-2918

Cited by 20 publications

(13 citation statements)

References 7 publications

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“…The synchronous lock-up pressure of the brake line should be determined ahead of confirming the brake parameters of the improved midlift axle [11]. Then, standard tests are adopted for similar types of vehicle to determine the parameters of this tractorsemitrailer.…”

Section: The Brake Line Pressure Of the Tractorsemitrailermentioning

confidence: 99%

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A study on the asynchronous brake lock-up of a statically indeterminate tractor with an air suspension

Wang

Liang

Shi

et al. 2011

Proceedings of the Institution of Mechanical Engineers, Part D:

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The paper aims to resolve the practical problems of asynchronous brake lock-up which acts on the wheels of statically indeterminate tractors with an air suspension. First, two kinds of deflection model are calculated, both of which are under the combined effect of the brake force and the vertical force. One model considers the leaf spring suspension that is mounted on the front axle, and the other considers the air suspensions that are mounted on both the midlift axle and the drive axle. Second, a 12-degree-of-freedom braking force distribution model of the statically indeterminate multi-axle tractor-semitrailer is constructed on the basis of the foregoing preparation. Third, the ideal braking forces of each axle in the model are simultaneously calculated and the actual braking forces of each axle are measured by road tests. The curves of the ideal and the actual braking force distribution ratios at different brake rates are described. The contradistinctive outcome indicates that the excessive braking force of the midlift axle results in a premature brake lock-up, which is the main reason why wheels lock asynchronously. Finally, because of the analysis of the distribution ratios of the ideal and the actual braking forces, the paper outlines how to redesign the braking force distribution of the tractor-semitrailer according to ECE R13, SAE J992b, and JASO C514. The paper also proposes a definition of and calculational method for the fitting degree (FD), and the FD of the midlift axle is improved from 61.2 per cent to 91.8 per cent. Compared with the original tractor-semitrailer, not only is the actual braking force distribution more reasonable but also the brake stability is improved.

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Section: The Brake Line Pressure Of the Tractorsemitrailermentioning

confidence: 99%

“…The synchronous lock-up pressure of the brake line should be determined ahead of confirming the brake parameters of the improved midlift axle [11].…”

Section: The Brake Line Pressure Of the Tractorsemitrailermentioning

confidence: 99%

A study on the asynchronous brake lock-up of a statically indeterminate tractor with an air suspension

Wang

Liang

Shi

et al. 2011

Proceedings of the Institution of Mechanical Engineers, Part D:

View full text Add to dashboard Cite

show abstract

“…The response time of hydraulic brakes is less than that of air brakes. Bayan et al presented detailed brake timing information obtained from the fullscale instrumented testing of a tractor semitrailer under various loads and speeds [50]. The study showed that average lag time, rise time, and steady-state delay time are 0.15, 0.33, and 0.49 seconds, respectively.…”

Section: Safety Margin (Level Of Risk) Of Car Followingmentioning

confidence: 99%

A Car-Following Model Based on Quantified Homeostatic Risk Perception

Cheng

Wang

et al. 2013

Mathematical Problems in Engineering

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This study attempts to elucidate individual car-following behavior using risk homeostasis theory (RHT). On the basis of this theory and the stimulus-response concept, we develop a desired safety margin (DSM) model. Safety margin, defined as the level of perceived risk in car-following processes, is proposed and considered to be a stimulus parameter. Acceleration is assessed in accordance with the difference between the perceived safety margin (perceived level of risk) and desired safety margin (acceptable level of risk) of a driver in a car-following situation. Sixty-three cases selected from Next Generation Simulation (NGSIM) are used to calibrate the parameters of the proposed model for general car-following behavior. Other eight cases with two following cars taken from NGSIM are used to validate the model. A car-following case with stop-and-go processes is also used to demonstrate the performance of the proposed model. The simulation results are then compared with the calculations derived using the Gazis-Herman-Rothery (GHR) model. As a result, the DSM and GHR models yield similar results and the proposed model is effective for simulation of car following. By adjusting model parameters, the proposed model can simulate different driving behaviors. The proposed model gives a new way to explain car-following process by RHT.

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“…Furthermore, the phenomenon of braking hysteresis of semi-trailer will obviously affect the vehicle BTS. 9 Miller et al 10 and Zhu et al 11 designed and tested a braking hysteresis compensation system for heavy vehicles and commercial tractor-semitrailers, which can effectively shorten the braking hysteresis. Wang et al 12 studied the hysteresis characteristics of a pneumatic brake system for a multi-axle heavy vehicle in emergency braking situations.…”

Section: Introductionmentioning

confidence: 99%

Stereo vision–based non-contact dynamic measurement method for vehicle braking time sequence

Zhang

Shan

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part D:

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The braking stability of semi-trailer train is directly related to the safety of driving. The braking time sequence of vehicle in braking process directly determines the braking stability of the vehicle. To overcome the limitations of the existing technology, this paper proposes a novel non-contact vehicle braking time sequence measurement method. The proposed method is based on binocular stereo vision that has high precision, high efficiency and low cost. First, the binocular stereo vision measurement principle is introduced, the camera is calibrated by three-dimensional target and the Levenberg–Marquardt algorithm is used to optimize the calibration parameters. Then, a series of image processing techniques are used to extract the wheel marker and perform three-dimensional coordinate reconstruction. Finally, the universality and the applicability of the proposed method are verified by conducting repetitive experiments and accuracy experiments for the same vehicle and different types of vehicles according to the designed experimental process and the established evaluation index. The experimental results show that the method proposed in this paper can achieve fast detection, with high accuracy and good repeatability. Moreover, the method can be extended to various types of vehicles.

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Brake Timing Measurements for a Tractor-Semitrailer Under Emergency Braking

Cited by 20 publications

References 7 publications

A study on the asynchronous brake lock-up of a statically indeterminate tractor with an air suspension

A study on the asynchronous brake lock-up of a statically indeterminate tractor with an air suspension

A Car-Following Model Based on Quantified Homeostatic Risk Perception

Stereo vision–based non-contact dynamic measurement method for vehicle braking time sequence

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