V. N. Ovsyannikov scite author profile

V. N. Ovsyannikov

5Publications

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Samara State Technical University

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Mathematical models and structures of the vehicle lateral stability stabilization system

Abakumov

Goryachkin

Ovsyannikov

2023

Vestnik of Samara State Technical University. Technical Science

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Currently, intensive research is being carried out to improve the operational characteristics of the car: vibration protection, smoothness, stability, controllability. These properties are largely determined by the characteristics of the vehicle suspension, which provides a connection between the carrier system and the wheels of the vehicle. Significant attention is paid to the development of active suspensions, in which additional actuators are used to form the necessary characteristics, in particular, linear DC motors. The use of active actuators allows you to control the position of the car body, including its lateral roll. In the article, relations are obtained that establish the dependence of additional elastic deformations in the suspension and the car's roll angle on the centrifugal force in a stationary mode. When developing a linearized mathematical model of the control object for the study of non-stationary modes, a two-mass design scheme was used and operator equations were obtained that take into account the elastic-dissipative properties of the sprung and unsprung parts of the car, as well as an additional control action created by the actuator. It is shown that the dynamic properties of the studied control object can be approximately described by the transfer functions of a second-order aperiodic link or an oscillatory link. For the first case, a single-loop system was developed, closed in terms of the angle of heel with a PID controller. In the second situation, it is advisable to use a two-loop system with an internal flexible feedback loop for suspension deformation and an external loop closed for the roll angle using a PID controller. The possibility of forming a feedback signal on the strain rate of the suspension in the wind circuit with the help of an EMF sensor of a linear DC motor is shown. On the basis of the block diagram, a computer model of the system was developed, and for typical parameters of the control object, a study was made of transient processes of working off a disturbance in the form of a change in centrifugal force. Based on the simulation results, it was found that the use of the developed ACS provides high accuracy in stabilizing the vehicle roll angle.

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Analog prototype of the high response time servo drive with an asynchronous motor

Starikov

Ovsyannikov

Dzhabasova

2017

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Heating the Starter with Magnetoelectric Excitation During Hot-Start and Dry Motoring of a Gas-Turbine Engine

Zubkov

Ovsyannikov

2018

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Combined Control of the Air-Cooling Unit of Oil

Starikov

Ovsyannikov

Kolesnikov

2019

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Structural and Parametric Synthesis of Active Vibration Isolation System

Abakumov

Randin

Ovsyannikov

2020

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V. N. Ovsyannikov

Mathematical models and structures of the vehicle lateral stability stabilization system

Analog prototype of the high response time servo drive with an asynchronous motor

Heating the Starter with Magnetoelectric Excitation During Hot-Start and Dry Motoring of a Gas-Turbine Engine

Combined Control of the Air-Cooling Unit of Oil

Structural and Parametric Synthesis of Active Vibration Isolation System

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