2018
DOI: 10.3390/en11092322
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A Control Algorithm for the Novel Regenerative–Mechanical Coupled Brake System with by-Wire Based on Multidisciplinary Design Optimization for an Electric Vehicle

Abstract: Current regenerative braking systems in electric vehicles have several problems, such as complex structures, too many control parameters, and inconsistent braking responses. To solve these problems, a control algorithm with multidisciplinary design optimization (MDO) is proposed based on the novel regenerative-mechanical coupled brake-by-wire system. A dynamic model of the novel regenerative braking system was established to analyze the mechanism of coupled braking and propose a braking torque distribution str… Show more

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Cited by 13 publications
(12 citation statements)
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“…In fact, the value of the value a in the GM(1,1) also reflects to a certain extent whether the original sequence satisfies the approximate exponential growth trend and the extent to which it satisfies the exponential growth trend. That is to say, as a is smaller, the sequence with original data meets the trend of approximate exponential growth better [8].…”
Section: Road Network Traffic Forecastmentioning
confidence: 94%
“…In fact, the value of the value a in the GM(1,1) also reflects to a certain extent whether the original sequence satisfies the approximate exponential growth trend and the extent to which it satisfies the exponential growth trend. That is to say, as a is smaller, the sequence with original data meets the trend of approximate exponential growth better [8].…”
Section: Road Network Traffic Forecastmentioning
confidence: 94%
“…In response to these challenges, it is necessary to analyze the coupling model of regenerative braking system and BBW system and take the comprehensive braking performance of vehicle as the main system level object; while, the energy recovery efficiency and braking stability were treated as two disciplines. The optimal control parameters were obtained by coordinating the optimal recovery efficiency and the optimal braking stability [104]. The regenerative brake system changes the dynamic characteristics of EV, which results in unstable braking, especially when the ABS is triggered.…”
Section: Application In Electric Vehiclesmentioning
confidence: 99%
“…In the power range delimited by the lower and upper power limits, the use of batteries and supercapacitors are the best option. In that intermediate power range, the proper ratio between them is given by (16), and as shown in Figure 7, as the fuel cell delivered maximum power increases, the battery mass decreases, see Figure 11, and the supercapacitor mass increases, see Figure 12.…”
Section: Supercapacitorsmentioning
confidence: 99%