2023
DOI: 10.1177/09544070231151812
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Analysis of ride comfort and road friendliness of heavy vehicle inertial suspension based on the ground-hook control strategy

Abstract: In order to comprehensively improve the ride comfort performance and the road friendliness performance of the heavy vehicles, an inertial suspension using ground-hook (GH) control is proposed in this paper, and the suspension performances are compared at different loading rates and driving speeds. Firstly, a half vehicle model of the inertial suspension of the heavy vehicle based on the GH control is established. Then, the key parameters of the GH inertial suspension are optimized by the genetic algorithm and … Show more

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Cited by 3 publications
(3 citation statements)
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References 28 publications
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“…Chen et al [85] conducted parameter sensitivity analysis and optimized the SWS i (k) to 1.47%. Yang et al [87] argued that the optimization of SWS i (k) is 16.19%. Bingül et al [93] achieved a 60% optimization of SWS i (k) using fuzzy logic control.…”
Section: Comparison With the Existing Literaturementioning
confidence: 99%
See 1 more Smart Citation
“…Chen et al [85] conducted parameter sensitivity analysis and optimized the SWS i (k) to 1.47%. Yang et al [87] argued that the optimization of SWS i (k) is 16.19%. Bingül et al [93] achieved a 60% optimization of SWS i (k) using fuzzy logic control.…”
Section: Comparison With the Existing Literaturementioning
confidence: 99%
“…Wu et al [86] achieved a 12.16% optimization of DTD i (k). Yang et al [87] achieved a 10.02% DTD i (k) optimization using a ground-hook control strategy. Li et al [92] obtained a high DTD i (k) optimization rate of 39.71% by using the genetic algorithm.…”
Section: Comparison With the Existing Literaturementioning
confidence: 99%
“…As a vehicle control system, the ESP mainly includes sensors, brakes, engine control modules and microcomputers [37]. The ESP can maintain the vehicle stability by monitoring the driving status in real-time through a microcomputer and enabling the vehicle to drive according to the driver intention [38]. The vehicle sensors transmit the collected steering wheel angle, yaw rate, lateral acceleration, and wheel speed to the ESP system, which processes and calculates these signals.…”
Section: Structure and Application Principles Of The Espmentioning
confidence: 99%