А.Н. Вержбицкий scite author profile

А.Н. Вержбицкий

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The Development of Principles to Improve Stability of Road Trains during Emergency Braking on a Straight Section of the Road and in the Event of Brake Failure in Trailers

et al. 2016

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A steering aid system called active steering is evaluated by simulating different driving events. The active steering solution, which is taken from a scientific paper, has been implemented in Matlab/Simulink. A vehicle model, also implemented in Matlab/Simulink, is used to form a total system and to compare the two systems: a conventional vehicle and a controlled vehicle.The input to the vehicle model is the steering wheel angle performed by the driver. Simulations are made for a constant speed and a specific changeable road adhesion coefficient. The control system takes the yaw rate as input and derives a steering angle contribution to be added to the drivers command.The motivation for this work is to understand and characterize the response of a vehicle with a complementary steering system. Specific driving events are considered for the simulations such as a wind force disturbance and a severe double lane change.The response of the controlled vehicle is similar to the response of the conventional vehicle for nominal driving, but the steering aid system reduces the effect of wind force disturbances. Improved stability is obtained for the vehicle during slippery road driving. IntroductionThis master thesis is based on two articles [1][8] with a proposed solution of a control system for the steering of a car. The solution has to be implemented and driving events simulated.There are a lot of research and development in the area of steering and steer-by-wire (SBW).The main reason for this is the aim to improve safety and handling. However it is still difficult to value the improvements. In this thesis one solution is implemented and analysed.An active steering system is a complementary system for a front-steered vehicle that adds or subtracts a component to the steering signal performed by the driver. The steering signal from the driver is an angular movement on the steering wheel. The resulting steering angle is thus composed by the component performed by the driver and the component contributed by the steering system. Problem formulationThe aim of the thesis is to reproduce the work in the articles [1][8] and to make a set of simulations to determine whether the predefined goals are fulfilled. Amongst the simulations that are made, events such as wind force disturbances are analysed and input from real driving experiment such as the ISO-standardized double lane change are analysed. The manoeuvres will be simulated for different speeds and road adhesions. Implementation of the system will be made in Matlab/Simulink. All the simulations will be made in Simulink.The assignment for the master thesis is to implement a steering aid system taking driver action as input. A vehicle model is implemented and the total system including the active steering system is simulated for different driver events. Some focus is laid on the effect of driver reactions due to disturbances.The goals are to:Characterise the difference of the response between the controlled and the uncontrolled vehicle for nominal driving and at th...

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A Method of Determining Motion Parameters of Two-Axle Wheeled Vehicles to Ensure the Operation of the Dynamic Stability System

2017

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Управляемость и устойчивость -важнейшие эксплуатационные свойства автомоби-ля и составляющие безопасности его движения, повышению которых во всем мире придается большое значение. Одной из главных проблем, возникающих при разра-ботке алгоритмов работы систем активной безопасности колесной машины, является получение достоверной информации о количественных значениях параметров ее движения, позволяющей судить, насколько они соответствуют показателям, задан-ным водителем, прогнозировать момент наступления нештатных ситуаций и диагно-стировать их вид (например, занос передних или задних осей, опасность опрокиды-вания и др.). К наиболее часто используемым на практике параметрам, характеризу-ющим условия движения колесных машин, относится угол отклонения вектора фактической скорости ее центра масс от вектора его теоретической (кинематической) скорости. Однако определение направления вектора фактической скорости центра масс связано с большими вычислительными трудностями вследствие необходимости построения сложных прогнозирующих фильтров Калмана. Предложен метод опреде-ления параметров движения двухосной колесной машины для обеспечения работы системы динамической стабилизации, позволяющий надежно и экономично диагно-стировать занос ее передней или задней оси. Методами имитационного моделирова-ния движения двухосных автомобилей с задней и передней ведущими осями доказана работоспособность предложенного метода.Ключевые слова: двухосная колесная машина, система динамической стабилизации, занос передней оси, занос задней оси, вектор скорости.Controllability and stability of the vehicle are the most important performance properties and safety components. The significance of work on improving these properties is recognized worldwide. One of the major problems in the development of algorithms of operation

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The Development of Principles to Improve Stability of Road Trains during Emergency Braking when Turning and in the Event of Brake Failure in Trailers

et al. 2016

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Modern independent suspension with wishbones for all-wheel drive vehicles

Вержбицкий¹,

Жилейкин²,

Лахтюхов³

2013

EJSI

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Проведен поиск и анализ независимых подвесок транспортных средств высокой проходимости нового поколения с колесными движителями. Выявлены наиболее перспективные решения, способные обеспечить повышение технического уровня существующих и перспективных подвесок транспортных средств с колесными движителями.

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