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Hierarchical CNNPID Based Active Steering Control Method for Intelligent Vehicle Facing Emergency Lane-Changing
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作者 Wensa Wang Jun Liang +1 位作者 Chaofeng Pan Long Chen 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2023年第4期355-371,共17页
To resolve the response delay and overshoot problems of intelligent vehicles facing emergency lane-changing due to proportional-integral-differential(PID)parameter variation,an active steering control method based on ... To resolve the response delay and overshoot problems of intelligent vehicles facing emergency lane-changing due to proportional-integral-differential(PID)parameter variation,an active steering control method based on Convolutional Neural Network and PID(CNNPID)algorithm is constructed.First,a steering control model based on normal distribution probability function,steady constant radius steering,and instantaneous lane-change-based active for straight and curved roads is established.Second,based on the active steering control model,a three-dimensional constraint-based fifth-order polynomial equation lane-change path is designed to address the stability problem with supersaturation and sideslip due to emergency lane changing.In addition,a hierarchical CNNPID Controller is constructed which includes two layers to avoid collisions facing emergency lane changing,namely,the lane change path tracking PID control layer and the CNN control performance optimization layer.The scaled conjugate gradient backpropagation-based forward propagation control law is designed to optimize the PID control performance based on input parameters,and the elastic backpropagation-based module is adopted for weight correction.Finally,comparison studies and simulation/real vehicle test results are presented to demonstrate the effectiveness,significance,and advantages of the proposed controller. 展开更多
关键词 Intelligent vehicle Rear-end collision avoidance steering control Dynamics model Neural Network PID control
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Experimental Model and Analytic Solution for Real-time Observation of Vehicle's Additional Steer Angle 被引量:3
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作者 ZHANG Xiaolong LI Liang +2 位作者 PAN Deng CAO Chengmao SONG Jian 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2014年第2期340-347,共8页
The current research of real-time observation for vehicle roll steer angle and compliance steer angle(both of them comprehensively referred as the additional steer angle in this paper) mainly employs the linear vehi... The current research of real-time observation for vehicle roll steer angle and compliance steer angle(both of them comprehensively referred as the additional steer angle in this paper) mainly employs the linear vehicle dynamic model, in which only the lateral acceleration of vehicle body is considered. The observation accuracy resorting to this method cannot meet the requirements of vehicle real-time stability control, especially under extreme driving conditions. The paper explores the solution resorting to experimental method. Firstly, a multi-body dynamic model of a passenger car is built based on the ADAMS/Car software, whose dynamic accuracy is verified by the same vehicle's roadway test data of steady static circular test. Based on this simulation platform, several influencing factors of additional steer angle under different driving conditions are quantitatively analyzed. Then ε-SVR algorithm is employed to build the additional steer angle prediction model, whose input vectors mainly include the sensor information of standard electronic stability control system(ESC). The method of typical slalom tests and FMVSS 126 tests are adopted to make simulation, train model and test model's generalization performance. The test result shows that the influence of lateral acceleration on additional steer angle is maximal (the magnitude up to 1°), followed by the longitudinal acceleration-deceleration and the road wave amplitude (the magnitude up to 0.3°). Moreover, both the prediction accuracy and the calculation real-time of the model can meet the control requirements of ESC This research expands the accurate observation methods of the additional steer angle under extreme driving conditions. 展开更多
关键词 vehicle ADAMS model additional steer SVM real-time observation
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Study on Steering Control Strategy for High-Speed Tracked Vehicle with Hydrostatic Drive 被引量:3
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作者 杨磊 马彪 李和言 《Journal of Beijing Institute of Technology》 EI CAS 2010年第2期158-164,共7页
Steering control strategy for high-speed tracked vehicle with hydrostatic drive is designed based on analyzing the fundamental steering theories of the hydrostatic drive tracked vehicle. The strategy is completed by t... Steering control strategy for high-speed tracked vehicle with hydrostatic drive is designed based on analyzing the fundamental steering theories of the hydrostatic drive tracked vehicle. The strategy is completed by the cooperation between integrated steering control unit and pump & motor displacement controller. The steering simulation is conducted by using Simulink of Matlab. It is indicated that this steering control strategy can reduce the average vehicle speed automatically to achieve the driver's expected steering radius exactly in the case of en- suring not exceeding the system pressure threshold and no sideslip. 展开更多
关键词 hydrostatic drive tracked vehicle stepless steering control strategy speed regulation
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Dynamic characteristics of hydraulic power steering system with accumulator in load-haul-dump vehicle 被引量:3
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作者 杨忠炯 何清华 柳波 《Journal of Central South University of Technology》 2004年第4期451-456,共6页
Using hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle as a simulation example, the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle were simulated and disc... Using hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle as a simulation example, the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle were simulated and discussed with SIMULINK software and hydraulic control theory. The results show that the dynamic characteristics of hydraulic power steering system are improved obviously by using bladder accumulator, the hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle generates vibration at the initial stage under the normal steering condition of pulse input, and its static response time is 0.25 s shorter than that without bladder accumulator. Under the normal steering working condition, the capacity of steering accumulator for absorbing pulse is directly proportional to the cross section area of connecting pipeline, and inversely proportional to the length of connecting pipeline. At the same time, the precharge pressure of nitrogen in steering accumulator should be 60%80% of the rated minimum working pressure of hydraulic power steering system. Under the abnormal steering working condition, the steering cylinder piston may obtain higher motion velocity, and the dynamic response velocity of hydraulic power steering system can be increased by reducing the pressure drop of hydraulic pipelines between the accumulator and steering cylinder and by increasing the rated pressure of hydraulic power steering system, but the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle have nothing to do with the precharge pressure of nitrogen in steering accumulator. 展开更多
关键词 load-haul-dump vehicle hydraulic power steering system ACCUMULATOR dynamic characteristics (simulation)
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Neural-Fuzzy-Based Adaptive Sliding Mode Automatic Steering Control of Vision-based Unmanned Electric Vehicles 被引量:2
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作者 Jinghua Guo Keqiang Li +2 位作者 Jingjing Fan Yugong Luo Jingyao Wang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2021年第5期56-68,共13页
This paper presents a novel neural-fuzzy-based adaptive sliding mode automatic steering control strategy to improve the driving performance of vision-based unmanned electric vehicles with time-varying and uncertain pa... This paper presents a novel neural-fuzzy-based adaptive sliding mode automatic steering control strategy to improve the driving performance of vision-based unmanned electric vehicles with time-varying and uncertain parameters.Primarily,the kinematic and dynamic models which accurately express the steering behaviors of vehicles are constructed,and in which the relationship between the look-ahead time and vehicle velocity is revealed.Then,in order to overcome the external disturbances,parametric uncertainties and time-varying features of vehicles,a neural-fuzzy-based adaptive sliding mode automatic steering controller is proposed to supervise the lateral dynamic behavior of unmanned electric vehicles,which includes an equivalent control law and an adaptive variable structure control law.In this novel automatic steering control system of vehicles,a neural network system is utilized for approximating the switching control gain of variable structure control law,and a fuzzy inference system is presented to adjust the thickness of boundary layer in real-time.The stability of closed-loop neural-fuzzy-based adaptive sliding mode automatic steering control system is proven using the Lyapunov theory.Finally,the results illustrate that the presented control scheme has the excellent properties in term of error convergence and robustness. 展开更多
关键词 Vision-based unmanned electric vehicles Automatic steering Neural-fuzzy adaptive sliding control vehicle lateral dynamics
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FLEXIBLE 2-DOF STEERING MODEL OF MULTI-AXLE HEAVY-DUTY VEHICLE 被引量:1
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作者 YangBo WangXuelin HuYujin LiChenggang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2004年第4期618-622,共5页
A flexible two degrees of freedom (2-DOF) steering model of multi-axlevehicle (MAV) is presented with considering the effect of frame flexibility based on the classic2-DOF model. A method to calculate the frame flexib... A flexible two degrees of freedom (2-DOF) steering model of multi-axlevehicle (MAV) is presented with considering the effect of frame flexibility based on the classic2-DOF model. A method to calculate the frame flexibility is derived by using three moments equation.The steering stability of MAV is analyzed. The steering performance of MAV is also researched infrequency domain. Simulation results show that the dynamic effects of flexible model are more severethan rigid model and the flexible effect of frame will weaken the steering stability of MAV.Different disposals of steering axles lead to different steering characteristics of MAV. Thein-phase steering mode improves the steering characteristics and stability at high speed. Theanti-phase steering mode increases the steering mobility at low vehicle speed. 展开更多
关键词 Multi-axle vehicle 2-DOF model steering characteristic Frame flexibility
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Steering Control of Wheeled Armored Vehicle with Brushless DC Motor 被引量:1
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作者 陈慧岩 王京起 郑培 《Journal of Beijing Institute of Technology》 EI CAS 2005年第3期310-313,共4页
Considering the steering characters of one type of wheeled armored vehicle, a brushless direct current (DC) motor is adapted as the actuator for steering control. After investigating the known algorithms, one kind o... Considering the steering characters of one type of wheeled armored vehicle, a brushless direct current (DC) motor is adapted as the actuator for steering control. After investigating the known algorithms, one kind of algorithm, which combines the fuzzy logic control with the self-adapting PID control and the startup and pre-hrake control, is put forward. Then a test-bed is constructed, and an experiment is conducted. The result of experiment confirms the validity of this algorithm in steering control of wheeled armored vehicle with brushless DC motor. 展开更多
关键词 steering control DC motor wheeled armored vehicle
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Nonlinear Derivative and Integral Sliding Control for Tracked Vehicle Steering with Hydrostatic Drive 被引量:2
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作者 Changsong Zheng Yichun Chen Ran Jia 《Journal of Beijing Institute of Technology》 EI CAS 2020年第3期283-293,共11页
In the steering process of tracked vehicle with hydrostatic drive,the motion and resistance states of the vehicle are always of uncertain and nonlinear characteristics,and these states may undergoe large-scale changes... In the steering process of tracked vehicle with hydrostatic drive,the motion and resistance states of the vehicle are always of uncertain and nonlinear characteristics,and these states may undergoe large-scale changes.Therefore,it is significant to enhance the steering stability of tracked vehicle with hydrostatic drive to meet the need of future battlefield.In this paper,a sliding mode control algorithm is proposed and applied to achieve desired yaw rates.The speed controller and the yaw rate controller are designed through the kinematics and dynamics analysis.In addition,the nonlinear derivative and integral sliding mode control algorithm is designed,which is supposed to efficiently reduce the integration saturation and the disturbances from the unsmooth road surfaces through a conditional integrator approach.Moreover,it improves the response speed of the system and reduces the chattering by the derivative controller.The hydrostatic tracked vehicle module is modeled with a multi-body dynamic software RecurDyn and the steering control strategy module is modeled by MATLAB/Simulink.The co-simulation results of the whole model show that the control strategy can improve the vehicle steering response speed and also ensure a smooth control output with small chattering and strong robustness. 展开更多
关键词 tracked vehicle hydrostatic drive steer control nonlinear derivative and integral sliding mode control
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Improving rail vehicle dynamic performance with active suspension
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作者 Sebastian Stichel Rickard Persson Rocco Giossi 《High-Speed Railway》 2023年第1期23-30,共8页
Today,it is difficult to further improve the dynamic performance of rail vehicles with conventional passive suspension.Also,simplified vehicle respectively running gear layouts that significantly could reduce vehicle ... Today,it is difficult to further improve the dynamic performance of rail vehicles with conventional passive suspension.Also,simplified vehicle respectively running gear layouts that significantly could reduce vehicle weights are difficult to realize with modern requirements on passenger vibration comfort and wheel and rail wear.Active suspension is a powerful technology that can improve the vehicle dynamic performance and make simplified vehicle concepts possible.The KTH Railway group has,together with external partners,investigated active suspensions both numerically and experimentally for 15 years.The paper provides a summary of the activities and the most important findings.One major project carried out in close collaboration with the vehicle manufacturer Bombardier and the Swedish Transport Administration was the Green Train project,where a 2-car EMU test bench was used to demonstrate different active technologies.In ongoing projects,a concept of single axle-single suspension running gear is developed with active suspension both for comfort improvement and reduced wheel wear in curves.The results from on-track tests in the Green Train project were so good that the technology is now implemented in commercial trains and the simulation results for the single-axle running gear are very promising. 展开更多
关键词 Rail vehicle dynamics Active suspension Ride comfort Active wheelset steering Wheel wear
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Simulation of Steering Performance for Electric Drive Tracked Vehicle
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作者 孙逢春 鲁连军 谷中丽 《Journal of Beijing Institute of Technology》 EI CAS 2004年第S1期82-87,共6页
According to the analysis of the fundamental steering theories of the electric drive tracked vehicle, a new effective electric drive tracked vehicle model is built in this paper. And the simulation of the steering per... According to the analysis of the fundamental steering theories of the electric drive tracked vehicle, a new effective electric drive tracked vehicle model is built in this paper. And the simulation of the steering performance of the vehicle is made. The results show that the electric transmission has great advantage on the steering performance aspect; the small radius steering and even the pivot steering is realizable, and the agility and the rapidness is wonderful. The regenerative energy can be fully utilized by controlling. 展开更多
关键词 electric transmission tracked vehicle steerING SIMULATION
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Modeling and Kinematics Simulation of Hydro-mechanical Split Path Steering Device of Tracked Vehicle Based on CATIA
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作者 LI Wenzhe SUN Yong +1 位作者 FU Tianzhi ZHANG Hongqiong 《Journal of Northeast Agricultural University(English Edition)》 CAS 2008年第1期75-78,共4页
Based on the working principle of hydro-mechanical split path of tracked vehicle, a operating gear was developed which was controlled by steering wheel and match with transmission case. Then CATIA software was used to... Based on the working principle of hydro-mechanical split path of tracked vehicle, a operating gear was developed which was controlled by steering wheel and match with transmission case. Then CATIA software was used to build the three-dimensional model and carry out dynamic simulation of the mechanism. The result indicates that the design of the mechanism fulfills the request. 展开更多
关键词 tracked vehicle split path transmission steerING MODELING kinematics simulation
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Multi-objective Optimization of Differential Steering System of Electric Vehicle with Motorized Wheels
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作者 赵万忠 王春燕 +2 位作者 段婷婷 叶嘉冀 周协 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2014年第1期99-103,共5页
A differential steering system is presented for electric vehicle with motorized wheels and a dynamic model of three-freedom car is built.Based on these models,the quantitative expressions of the road feel,sensitivity,... A differential steering system is presented for electric vehicle with motorized wheels and a dynamic model of three-freedom car is built.Based on these models,the quantitative expressions of the road feel,sensitivity,and operation stability of the steering are derived.Then,according to the features of multi-constrained optimization of multi-objective function,a multi-island genetic algorithm(MIGA)is designed.Taking the road feel and the sensitivity of the steering as optimization objectives and the operation stability of the steering as a constraint,the system parameters are optimized.The simulation results show that the system optimized with MIGA can improve the steering road feel,and guarantee the operation stability and steering sensibility. 展开更多
关键词 electric vehicle with motorized wheels differential steering multi-island genetic algorithm MULTI-OBJECTIVE
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Design of Working Model of Steering,Accelerating and Braking Control for Autonomous Parking Vehicle
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作者 P.K.Shyamshankar S.Rajendraboopathy R.S.Bhuvaneswaran 《Computers, Materials & Continua》 SCIE EI 2019年第7期55-68,共14页
Now a days,the number of vehicles especially cars are increased day by day and the people expect sophistication with safety and they wish automation for the perfection by reducing their effort and to prevent damage fr... Now a days,the number of vehicles especially cars are increased day by day and the people expect sophistication with safety and they wish automation for the perfection by reducing their effort and to prevent damage from collision of the vehicle.Parking the vehicle has always been a big task for the drivers that lead to problems such as traffic,congestion,accident,pollution etc.In order to overcome the parking problem,an automatic steering,braking and accelerating system is proposed to park a vehicle in a stipulated area and also to enhance the parking in a safety and secured way.This paper is part of our research in designing a pallet over the automated vehicle.In this paper,an automatic parking system over the existing vehicles is proposed.The vehicle to be parked will be carried by the pallet over the proposed autonomous vehicle.A detailed design of automatic car parking system has been proposed with a working model.The proposed model is equipped with sensors and the controls such as steering,acceleration and braking are achieved with the major objectives such as safety and accuracy.The proposed autonomous parking vehicle is modeled.The micro controllers in the control systems are programmed.The working model was rigorously tested with all the possibilities including collision,speed,trajectory and efficient placement on the stipulated parking slot.The system has been analyzed against various parameters and found that more durable.The performance analysis has been made on the proposed model and shaft analysis is made with Ansys.The proposed geometric modeling ensures precision with safety. 展开更多
关键词 vehicleS PARKING automatic steerING BRAKING ACCELERATION
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Steering performance of an inverted pendulum vehicle with pedals as a personal mobility vehicle
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作者 Chihiro Nakagawa Kimihiko Nakano +1 位作者 Yoshihiro Suda Yuki Hirayama 《Theoretical & Applied Mechanics Letters》 CAS 2013年第1期71-76,共6页
From the viewpoints of environmental protection, support for the aged and ensuring the right to mobility, there is a need to develop a new type of mobility vehicle that provides more effective transportation. The auth... From the viewpoints of environmental protection, support for the aged and ensuring the right to mobility, there is a need to develop a new type of mobility vehicle that provides more effective transportation. The authors propose an inverted pendulum vehicle with pedals as one of the forms of personal mobility vehicles (PMVs). In this paper, the steering performance of the inverted pendulum vehicle with pedals is discussed based on experiments on a prototype. From the experimental results, it was confirmed that the errors from the five subjects for the target trajectory and the five-grade evaluation of the maneuverability were similar. Finally, we created an inverted pendulum vehicle with pedals to which was added a reaction actuator for the steering system. From the experimental results, it was found that setting appropriate feedback gains for the handle steering angle and its rate of rotation, which control the right and left wheel driving torques, resulted in greatly improved maneuverability. C 2013 The Chinese Society of Theoretical and Applied Mechanics. [doi:10.1063/2.1301309] 展开更多
关键词 steering control STABILITY inverted pendulum vehicle
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Research on the Variable Steering Ratio of Four-Wheel-Steering Vehicle
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作者 林程 陈思忠 任良成 《Journal of Southwest Jiaotong University(English Edition)》 2004年第1期29-35,共7页
The steering characteristic of a four-wheel-steering vehicle is numerically simulated for in-depth research of the handling stability of four-wheel steering. The research results show that the deteriorating tendency o... The steering characteristic of a four-wheel-steering vehicle is numerically simulated for in-depth research of the handling stability of four-wheel steering. The research results show that the deteriorating tendency of the steering stability due to the increase of the vehicle speed is improved obviously in the case of four-wheel steering. The approach of variable steering ratio is discussed. The use of the variable steering ratio can not only raise the steering stability of vechicles at high vehicle speed, but also reduce the dicomfort and steering burden of drivers; and hence is helpful for the subjective evaluation of four-wheel steering vehicles. 展开更多
关键词 Four-wheel steering Handling stability vehicle dynamics
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STEERING SAFETY EVALUATION OF DRIVER VEHICLE CLOSED LOOP SYSTEM WITH RANDOM ROAD INPUT 被引量:1
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作者 Zhao Youqun Shandong Institute of Technology Guo Konghui Zhang Guiyu Jilin University of Technology Shandong Institute of Technology 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 1999年第4期282-287,共6页
The response simulation is studied and the steering safety is evaluated by using finer integration method for driver vehicle closed loop system with stationary random road input.This algorithm not only is precise, b... The response simulation is studied and the steering safety is evaluated by using finer integration method for driver vehicle closed loop system with stationary random road input.This algorithm not only is precise, but also can shorten the evaluation period of steering safety and reduce the tremendous cost for real vehicle testing.The response simulation and the vehicle steering safety evaluation are also studied for the closed loop system with evolutionary random road input.The study can more truly evaluate vehicle driving for including the slowly varying of vehicle velocity with time. 展开更多
关键词 CLOSED loop system Evaluation Random Safety vehicle steer ability
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Multi-constrained model predictive control for autonomous ground vehicle trajectory tracking 被引量:22
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作者 龚建伟 徐威 +3 位作者 姜岩 刘凯 郭红芬 孙银健 《Journal of Beijing Institute of Technology》 EI CAS 2015年第4期441-448,共8页
A multi-constrained model predictive control ( MPC ) algorithm for trajectory tracking of an autonomous ground vehicle is proposed and tested in this paper. First, to simplify the computa- tion, an active steering l... A multi-constrained model predictive control ( MPC ) algorithm for trajectory tracking of an autonomous ground vehicle is proposed and tested in this paper. First, to simplify the computa- tion, an active steering linear error model is applied in the MPC controller. Then, a control incre- ment constraint and a relaxing factor are taken into account in the objective function to ensure the smoothness of the trajectory, using a softening constraints technique. In addition, the controller can obtain optimal control sequences which satisfy both the actual kinematic constraints and the actuator constraints. The circular trajectory tracking performance of the proposed method is compared with that of another MPC controller. To verify the trajectory tracking capabilities of the designed control- ler at different desired speed, the simulation experiments are carried out at the speed of 3m/s, 5m/ s and 10m/s. The results demonstrate the MPC controller has a good speed adaptability. 展开更多
关键词 autonomous ground vehicle active steering control model predictive control trajecto-ry tracking
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Development of the electric automatic steering system for agricultural vehicles
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作者 Guangshun An Chong Yu +3 位作者 Juan Du Xiang Yin Youliang Ni Chengqian Jin 《International Journal of Agricultural and Biological Engineering》 SCIE 2024年第1期209-214,共6页
Automatic guidance of agricultural vehicles requires automatic execution of operation commands received from the navigation controller by using electronically controlled mechanisms for wheel steering,speed changing an... Automatic guidance of agricultural vehicles requires automatic execution of operation commands received from the navigation controller by using electronically controlled mechanisms for wheel steering,speed changing and work implementing.Automatic steering contributes as a prerequisite technique in automatic and semi-automatic agricultural navigation.This research aimed to develop an electric automatic steering system that was compact in its structure and integrated into original steering mechanism in a simply and convenient way for aftermarket modification.A brushless motor and reducer assembly was utilized to provide an adequate steering torque instead of manual maneuver.A rapid assembling approach was proposed by passing the steering shaft through the hollow output shaft.A digital proportional-integral-differential(PID)algorithm was implemented to calculate the rotation speeds and directions by comparing the desired angle and the actual angle,which was implemented in a printed circuit board with a microcontroller unit(MCU)and interface chips.An unmanned wheeled tractor was applied as test platform to integrate the newly developed electric automatic steering system.Tests were conducted to evaluate its performance in terms of stability and responsiveness.An autonomous navigation system guided the tractor along target paths in the field by sending steering commands to the electric automatic steering system.The results show that the steering angle error was less than 0.81°when desired steering angle was less than 10°.The lateral error difference was no more than 4.76 cm when repeating following the same target path,which indicated that the electric automatic steering system responded accurately and robustly to steering commands. 展开更多
关键词 automatic steering automatic navigation agricultural vehicles
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Vehicle Planar Motion Stability Study for Tyres Working in Extremely Nonlinear Region 被引量:8
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作者 LIU Li SHI Shuming +1 位作者 SHEN Shuiwen CHU Jiangwei 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2010年第2期185-194,共10页
Many researches on vehicle planar motion stability focus on two degrees of freedom(2DOF) vehicle model, and only the lateral velocity (or side slip angle) and yaw rate are considered as the state variables. The st... Many researches on vehicle planar motion stability focus on two degrees of freedom(2DOF) vehicle model, and only the lateral velocity (or side slip angle) and yaw rate are considered as the state variables. The stability analysis methods, such as phase plane analysis, equilibriums analysis and bifurcation analysis, are all used to draw many classical conclusions. It is concluded from these researches that unbounded growth of the vehicle motion during unstable operation is untrue in reality thus one limitation of the 2DOF model. The fundamental assumption of the 2DOF model is that the longitudinal velocity is treated as a constant, but this is intrinsically incorrect. When tyres work in extremely nonlinear region, the coupling between the vehicle longitudinal and lateral motion becomes significant. For the purpose of solving the above problem, the effect of vehicle longitudinal velocity on the stability of the vehicle planar motion when tyres work in extremely nonlinear region is investigated. To this end, a 3DOF model which introducing the vehicular longitudinal dynamics is proposed and the 3D phase space portrait method is employed for visualization of vehicle dynamics. Through the comparisons of the 2DOF and 3DOF models, it is discovered that the vehicle longitudinal velocity greatly affects the vehicle planar motion, and the vehicle dynamics represented in phase space portrait are fundamentally different from that of the 2DOF model. The vehicle planar motion with different front wheel steering angles is further represented by the corresponding vehicle route, yaw rate and yaw angle. These research results enhance the understanding of the stability of the vehicle system particularly during nonlinear region, and provide the insight into analyzing the attractive region and designing the vehicle stability controller, which will be the topics of future works. 展开更多
关键词 vehicle dynamics steering stability nonlinear dynamics phase space
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Integrated Control of Lateral and Vertical Vehicle Dynamics Based on Multi-agent System 被引量:3
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作者 HUANG Chen CHEN Long +2 位作者 YUN Chaochun JIANG Haobin CHEN Yuexia 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2014年第2期304-318,共15页
The existing research of the integrated chassis control mainly focuses on the different evaluation indexes and control strategy. Among the different evaluation indexes, the comprehensive properties are usually not con... The existing research of the integrated chassis control mainly focuses on the different evaluation indexes and control strategy. Among the different evaluation indexes, the comprehensive properties are usually not considered based on the non-linear superposition principle. But, the control strategy has some shortages on tyre model with side-slip angle, road adhesion coefficient, vertical load and velocity. In this paper, based on belief, desire and intention(BDI)-agent model framework, the TYRE agent, electric power steering(EPS) agent and active suspension system(ASS) agent are proposed. In the system(SYS) agent, the coordination mechanism is employed to manage interdependences and conflicts among other agents, so as to improve the flexibility, adaptability, and robustness of the global control system. Due to the existence of the simulation demand of dynamic performance, the vehicle multi-body dynamics model is established by SIMPACK. And then the co-simulation analysis is conducted to evaluate the proposed multi-agent system(MAS) controller. The simulation results demonstrate that the MAS has good effect on the performance of EPS and ASS. Meantime, the better road feeling for the driver is provided considering the multiple and complex driving traffic. Finally, the MAS rapid control prototyping is built to conduct the real vehicle test. The test results are consistent to the simulation results, which verifies the correctness of simulation. The proposed research ensures the driving safety, enhances the handling stability, and improves the ride comfort. 展开更多
关键词 TIRE steer SUSPENSION MULTI-AGENT vehicle dynamics
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