In order to improve the high concurrency connectivity, degree of automation and efficiency of downloading upgrading, this article uses cloud-based microservice, automatic upgrade path strategy based on vehicle baseline, independent download channel and lightweight remote parameter correction to make lean design for Over-The-Air (OTA) system scheme. Function and performance test results of mass-produced vehicles show that this scheme satisfies the demand of concurrent use for vehicles with production capacity of one million unit, with upgrade stability nearly reaching 100%.

In order to develop the target object mobile platform for vehicle Automatic Emergency Braking (AEB) system test, this article studied the configuration design, strength analysis, fatigue life estimation and path tracking of test scene. Through the analysis of the test scenarios stipulated in C-NCAP Management Regulation (2024 Edition), the moving path of the target was extracted, and the expected trajectory was obtained according to the boundary conditions, then the trajectory tracking results were obtained through dynamic simulation. The comparison shows that the simulation results are basically consistent with the specified requirements, indicating that the designed mobile platform can meet the needs of AEB testing.

A correction estimation method considering sensor measurement bias was proposed to accurately estimate the lateral velocity of the tractor in autonomous semi-trailer vehicles. Based on the three-degree-of-freedom vehicle dynamics model, the measurement bias estimation model was established by expanding the front wheel angle, yaw rate bias, and lateral acceleration bias into the state variables. Taking into account the impact of dynamic model mismatch, a feedback correction mechanism based on the kinematic model was designed to adjust the estimation results of lateral velocity and yaw rate through feedback. The proposed method was implemented using the square-root cubature Kalman filter algorithm, and the observability of the estimator was analyzed. This method was verified on the joint simulation platform of TruckSim and MATLAB/Simulink. The results show that the proposed method not only eliminates the influence of measurement bias but also exhibits good convergence speed. Its performance is significantly better than estimation methods that do not consider measurement bias or only consider measurement bias.

A new electromagnetic friction braking system was designed in an attempt to improve vehicle braking safety. Structure of the traditional braking system was optimized, and the auxiliary control algorithm of the brake was added to the Electronic Control Unit (ECU), and the working principle of the new braking system under different working conditions was analyzed, the relationship between braking torque at different speeds, the eddy current of the brake disc and the vehicle speed and the applied magnetic field was derived, and the vehicle dynamics model, electromagnetic brake model and vehicle power supply model were established. The joint simulation was carried out based on the Simulink and Maxwell platforms. The results show that on the basis of the traditional braking system, the braking distance can be significantly shortened and the braking performance can be improved by optimizing the electromagnetic brake. And the energy recovery device has successfully realized the recovery and reuse of the vehicle’s kinetic energy.

To improve the ergonomic comfort of electric vehicle charging ports, this paper analyzed the height, angle, position and other layout factors of the charging ports from the perspectives of ergonomics considering human body size, comfortable range of human activities, charging pile and charging gun parameters, and proposed a charging port layout scheme, which was verified and evaluated. In addition, the paper offered design proposals for charging operational visibility and operation space, which served as reference for charging ports of electric vehicle.

In order to realize the design of pressure-casting parts for passenger car body, this paper, starting from the type and characteristics of pressure-casting process, analyzed the application of high pressure vacuum casting in large pressure-casting parts of passenger car body, then it analyzed the design principles and requirements of pressure-casting in terms of wall thickness, stiffener and pin layout for the application location of the common use parts of pressure-casting parts of body, including key joints, important beam systems, main reinforcement parts, shock absorber tower, A-pillar module, rear floor assembly, front cabin assembly, etc..

To analyze the influence of transient conditions on NO_x emission of heavy duty commercial vehicles, by classifying the transient operating conditions of heavy-duty commercial vehicles, the NO_x emission characteristics were tested under four typical operating conditions, including cold car start, stop and start while driving, driving through highway toll gates, and overtaking acceleration. The test results show that the transient condition will cause the NO_x emission to rise, and increase the consumption of urea solution, which is about 0.86~4 times of the steady condition.