Braking performance oriented multi–objective optimal design of electro–mechanical brake parameters

Wu, Tong; Li, Jing; Qin, Xuan

doi:10.1371/journal.pone.0251714

Cited by 9 publications

(4 citation statements)

References 23 publications

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“…The space parameters of the problem cannot be explicitly addressed by GA during optimization. It primarily uses mathematical transformation and computer simulation calculation to transform the multi-objective issue that must be solved using coding technology (Mehmood et al 2021;Wu et al 2021). Figure 2 depicts the GA's running sequence.…”

Section: Application Of Soft Computing and Genetic Algorithm In Power...mentioning

confidence: 99%

Electric Vehicle Power System in Intelligent Manufacturing Based on Soft Computing Optimization

Zhao,

Guo

2023

Preprint

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Soft computing technology has attracted extensive attention in the fields of computer engineering and automatic control because it can deal with uncertainties, fuzziness and complex practical problems. In order to realize the cooperative optimization of electric vehicle's dynamic performance and economic performance, this paper adopts Genetic Algorithm (GA) in soft computing technology. The advantage of soft computing technology lies in its adaptability to uncertainty, fuzziness and complex practical problems, which makes GA an effective tool to solve complex optimization problems. Firstly, the power system structure and energy management strategy of electric vehicles are investigated and analyzed. Then, the improved non-dominated sorting genetic algorithm II (NSGA-II) is selected to optimize the parameters of electric vehicles because of its simple operation and high optimization accuracy. Then, NSGA-II is used to construct the power and energy configuration of electric vehicles, with power performance and economic performance as the main optimization objectives. Finally, in order to achieve the optimization goal, the relevant variables are selected, and the optimization objective function and constraint conditions are established, and the model is simulated and evaluated. The results show that the acceleration time of the optimized electric vehicle is significantly reduced, the dynamic performance is improved by more than 7%, and the power loss is reduced by 5%. In addition, compared with the current multi-objective optimization model, this model enables electric vehicles to travel longer distances under the same power. These findings provide valuable reference for the performance improvement of electric vehicles in intelligent manufacturing.

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Section: Application Of Soft Computing and Genetic Algorithm In Power...mentioning

confidence: 99%

Electric Vehicle Power System in Intelligent Manufacturing Based on Soft Computing Optimization

Zhao,

Guo

2023

Preprint

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“…The system design can also be an integral source for safety systems and human-machine interaction models (Madrigal & Frederic, 2020). Additionally, it is a much rather complex and increasingly sub-functional system due to the confluence of on an already involved electro-mechanical network (Wu, Li, and Qin, 2021). This vehicle systems include the following: engine, framework, electrical power, power plant, and hydraulic, and safety system that must be conveniently tied up together to purposely function within the vehicle system architecture (Haider, 2020;Madrigal & Frederic, 2020;Wu, Li, & Qin, 2021).…”

Section: Vehicle System Architecturementioning

confidence: 99%

Exploring Vehicle Security Improvement Framework in the Safety Messaging System to Protect Against Hackers

2023

IJFMR

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The transportation and automotive industry have seen the shifts and effects of innovation within the last decade, from the addition of critical messaging technologies, event response systems, to safety integration of each user initiated by safety messaging systems to almost all private utility vehicles to a public utility vehicle, all have seen either responsive or unresponsive layers of usability and functionality issues, together with the need for safety and protection of each users and riders. These assistive technologies are supposed to help drivers and operators in their daily driving routine, believed to be connected to a myriad of networked hardware and software, and arguably to be either be cost effective or safety limited. The study exploring vehicle security improvement framework in the safety messaging system to protect against hackers delivered responses from 6 subject matter experts within the public transit authority, cloud supply chain companies, and network providers that have invested greatly in vehicle ad hoc network technologies. Thematic analysis was chosen as a qualitative method design to extract themes from the critical answers through the semi-structured interview retrieved from general responses from the subject matter experts. The general findings were extracted from the major themes 1 through 5. The general findings are the following (1) Automotive Organizations and Transit Authority Leaders have to Manage Vehicle Cyber Risks Throughout the Vehicle Lifecycle, (2) Automotive Organization and Transit Authority Should Be Involved in Engineering a Secure Vehicle by Design, (3) Engineering Vendor Teams Should Detect and Respond to Major Incidents within the Vehicle Lifecycle.

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“…Studies on magnetic rheological braking systems are presented in [5], where the braking torque is improved and the configuration is simplified. Multi-objective optimization design of electromechanical brake parameters is also proposed in [6] to improve braking performance.…”

Section: Introductionmentioning

confidence: 99%

Application of the Taguchi method to determine optimized parameters for designing brake of hand winch

Duong

2023

Eureka: PE

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Brakes are used to stop movement or adjust speed to ensure safety for mechanisms or machines. In this paper, the brake applied to hand winch will be studied. This hand winch has been studied by us in previous stages. However, the disadvantage of the winch is that the drum wall attached to the friction surfaces is not reasonable in terms of layout, as well as the parameters to optimize braking moment have not been calculated. A new brake structure is proposed in this study to solve the above problem. This structure does not use the drum wall as the friction surface. It does not affect the drum wall and it is easy to replace the friction surface when necessary. Instead, the cone brake is suitable for the structure brake and the size, structure, and design load. To determine the optimal parameters of the brake structure, the article will analyze the theory, and experiment design. The objective function is the maximum braking torque. Constraints are hand winch parameters, installation, friction surface material, and loading conditions. The corresponding factors are coded according to the Taguchi method, the orthogonal planning matrix is L18. Using Minitab software to analyze the Signal/Noise ratio, the study determined the optimal values for five factors including screw thread pitch, coefficient of friction (screw thread), cone angle, friction coefficient (brake), and large cone brake radius. Research results have selected the optimal parameters of the brake, and the optimal values have satisfied the constraints. The torque at the cone brake is greater than that of the disc brake approximately 37.7 %. The pressure at the friction surface is reduced by about 55 % compared to the disc brake surface

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Braking performance oriented multi–objective optimal design of electro–mechanical brake parameters

Cited by 9 publications

References 23 publications

Electric Vehicle Power System in Intelligent Manufacturing Based on Soft Computing Optimization

Electric Vehicle Power System in Intelligent Manufacturing Based on Soft Computing Optimization

Exploring Vehicle Security Improvement Framework in the Safety Messaging System to Protect Against Hackers

Application of the Taguchi method to determine optimized parameters for designing brake of hand winch

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