Patent application number | Description | Published |
20090157258 | SYSTEMS AND METHODS INVOLVING QUADRANT DEPENDENT ACTIVE DAMPING - A method for controlling a steering system, including, receiving a first signal representative of a torque applied to a steering wheel, receiving a second signal representative of a motor velocity of a motor operatively linked to the steering wheel, multiplying the first signal with the second signal resulting in a product signal, applying a backlash function to the product signal, wherein the backlash function imparts a defined hysteresis in the system, multiplying a defined first-third quadrant scaling factor with an active damping signal, and sending a resultant motor command signal to the motor responsive to determining that the product signal is a positive signal, and multiplying a defined second-fourth quadrant scaling factor with the active damping signal, and sending the resultant motor command signal to the motor responsive to determining that the product signal is a negative signal. | 06-18-2009 |
20090271075 | SYSTEMS AND METHODS INVOLVING TORQUE DISTURBANCE REJECTION - A method for controlling a steering system, the method including, receiving a first signal including a position of a component in the steering system, receiving a second signal including a disturbance signal operative to indicate an effect of a first torque disturbance in the steering system, calculating a first counter acting torque command signal operative to minimize the first torque disturbance as a function of the position of the component and the disturbance signal, and sending the first counter acting torque command signal to a motor. | 10-29-2009 |
20100023221 | METHOD FOR CONTROLLING A VEHICLE STEERING SYSTEM - Systems and methods for controlling a vehicle steering system are provided. In one exemplary embodiment, the method includes receiving a desired front road wheel angle signal at a controller. The desired front road wheel angle signal is indicative of a desired front road wheel angle of vehicle wheels. The method further includes receiving a parking assist request signal at the controller indicating a parking assist operational mode is desired. The method further includes generating a desired motor torque signal for controlling a power steering motor in the parking assist operational mode utilizing the controller, based on the desired front road wheel angle signal and the parking assist request signal. | 01-28-2010 |
20100100283 | METHOD FOR POWER STEERING SYSTEMS - A method for controlling a steering system of a vehicle is provided. The method includes receiving a measured hand wheel torque signal indicating a measured hand wheel torque of the steering system. A desired hand wheel torque signal is generated, the desired hand wheel torque signal being indicative of a desired hand wheel torque for the steering system. A hand wheel torque tracking error signal based on the measured hand wheel torque signal and the desired hand wheel torque signal is then calculated. To adjust an amount of motor torque applied to the steering system, a desired compensation torque signal is generated based on the hand wheel torque tracking error signal multiplied by a calibration constant. | 04-22-2010 |
20110054737 | Stability-Based Steering Control Methods and Systems - A control system for controlling a steering system to maintain stability of the steering system is provided. The control system includes an operating conditions module that estimates at least one operating gain based on an operating condition of the steering system. A blend module estimates a blend value based on the at least one operating gain. A steering assist module generates a steering assist command based on the blend value. | 03-03-2011 |
20120004807 | DYNAMIC SYSTEM COMPENSATOR FOR ACTIVELY CONTROLLED POWER STEERING SYSTEMS - A control method for an electric power steering system is provided. The method includes providing a power steering control signal; providing a disturbance cancel command; varying at least one filter based on a frequency of the disturbance cancel command; applying the at least one varied filter to the disturbance cancel command to generate a compensation signal; applying the compensation signal to the power steering control signal to generate a compensated control signal; and controlling the power steering system based on the compensated control signal. | 01-05-2012 |
20130066520 | INERTIA COMPENSATION WITH FREQUENCY DEPENDENT DAMPING - A control system for an electric power steering system is provided. The system includes a motor and a control module in communication with the motor. The control module provides a compensation command to the motor. The control modules includes a frequency dependent damping module for determining a frequency dependent damping (FDD) coefficient based on a base assist command and a vehicle speed. The control module includes a coefficient module for determining a plurality of filter coefficients. The filter coefficients are based on the FDD coefficient, the vehicle speed, and an inertia compensation coefficient. The control module includes a filter module for determining the compensation command based on the plurality of filter coefficients. | 03-14-2013 |
20130131916 | ROAD WHEEL DISTURBANCE DETECTION - control method for a vehicle is provided. The control method includes estimating a magnitude of wheel disturbance based on wheel velocity, and generating a disturbance status signal based on the magnitude of wheel disturbance. | 05-23-2013 |
20130131926 | ROAD WHEEL DISTURBANCE REJECTION - A control method for an electric power steering system is provided. The control method includes evaluating wheel disturbance based on a wheel velocity. A wheel disturbance cancel amount is determined based on the wheel velocity. An assist command is generated to the power steering system based on the wheel disturbance cancel amount. | 05-23-2013 |
20130158805 | Wheel Speed Velocity Variation Scaling System - A control system for a power steering system is provided. The control system includes a scaling module for calculating a scale factor based on a wheel frequency. The control system also includes a command module that evaluates a wheel disturbance based on a wheel speed and that determines a wheel disturbance cancel amount based on the wheel speed. The command module generates an assist command to the power steering system based on the wheel disturbance cancel amount and the scale factor. | 06-20-2013 |