KR20200076654A - Steering control device and method, and steering device - Google Patents

Abstract

The present disclosure provides a steering control device, a steering control method, and a steering device. Specifically, the steering control device includes: a receiving unit that receives steering correction condition information; a steering correction determination unit that determines whether to perform steering correction based on the steering correction condition information; an angle correction value calculation unit that determines a correction parameter of the steering correction condition information and calculates an angle correction value using the correction parameter of the steering correction condition information when it is determined that steering correction is performed; and a signal generation unit that generates a motor control signal by determining whether to generate a motor control signal based on the angle correction value according to a comparison result of the angle correction value and a reference value.

Description

STEERING CONTROL DEVICE AND METHOD, AND STEERING DEVICE

The present disclosure relates to a steering control apparatus, a steering control method, and a steering apparatus, and more specifically, determines whether steering correction is necessary and calculates each correction value using a correction parameter when steering correction is required to generate a motor control signal It relates to a steering control device, a steering control method, and a steering device.

2. Description of the Related Art In general, an electric power steering system (EPS) is applied to a vehicle as a means for reducing steering force of a steering wheel (handle) and ensuring stability of a steering state. The electric power steering system (EPS) drives a motor in an electronic control unit (ECU) according to the driving conditions of a vehicle detected by a vehicle speed sensor and a torque sensor, thereby providing a light and comfortable steering during low-speed driving and high speed. When driving, it provides good steering stability along with a heavy sense of steering, and provides an optimal steering condition to the driver by allowing rapid steering in emergency situations.

The vehicle may further include various functions to assist the driver in steering. For example, there is a Lane Departure Warning System (LDWS) that recognizes a lane of a lane in which a vehicle is driving, and provides a warning notification when a vehicle moves out of a lane due to a driver's intention to change a lane. In addition to LDWS, there is also a tracking function that controls steering so that the vehicle can move into the lane of the existing driving lane when the vehicle is inclined without the intention to change lanes. In order to implement such a function, a specific control method of controlling the steering of the vehicle by precisely reflecting information about the driver's driving intention and the driving state of the vehicle is required.

Against this background, the present disclosure determines whether steering correction should be performed based on steering correction condition information, and when it is determined that steering correction is necessary, calculates each correction value using a correction parameter of the steering correction condition information to perform motor control. Want to generate a signal for

Disclosed in the above-mentioned subject, the present disclosure, in one aspect, the present disclosure performs a steering correction determination unit, a steering correction determination unit for determining whether to perform steering correction based on the steering correction condition information, the steering unit for receiving steering correction condition information When it is determined that the correction parameters of the steering correction condition information is determined, and each correction value calculation unit calculates an angle correction value using the correction parameters of the steering correction condition information, and comparison of each correction value with a reference value It provides a steering control device including a signal generating unit for determining whether to generate a motor control signal based on each correction value according to the result and generates a motor control signal.

In another aspect, the present disclosure is a condition information receiving step of receiving steering correction condition information, a steering correction determination step of determining whether to perform steering correction based on the steering correction condition information, and when determining that the steering correction is performed, steering A motor control based on each correction value according to each correction value calculation step of determining correction parameters of the correction condition information and calculating each correction value using the correction parameters of the steering correction condition information, and a comparison result of each correction value and a reference value It provides a steering control method comprising the step of generating a control signal to determine whether to generate a signal to generate a motor control signal.

In another aspect, the present disclosure provides a steering motor including a steering motor and an electronic control unit for controlling the steering motor, the electronic control unit receiving steering correction condition information, and performing steering correction based on the steering correction condition information When determining whether or not to perform steering correction, determine correction parameters of the steering correction condition information, calculate each correction value using the correction parameters of the steering correction condition information, and compare each correction value with a reference value A motor control signal can be generated by determining whether to generate a motor control signal based on each correction value according to the result.

As described above, according to the present disclosure, since the correction degree of the steering of the vehicle can be calculated based on internal information such as the steering information of the vehicle, it is accurate to conform to the driver's steering intention and to ensure the driving stability of the vehicle. And provide accurate vehicle steering control.

1 is a view showing the configuration of a steering control apparatus according to an embodiment of the present disclosure.
2 is a view showing the configuration of a steering apparatus according to an embodiment of the present disclosure.
3 is a view showing the configuration of a steering apparatus according to another embodiment of the present disclosure.
4 is a weight graph of correction parameters according to a vehicle speed of a vehicle according to an embodiment of the present disclosure.
5 is a weight graph of a correction parameter according to a steering angle speed of a vehicle according to an embodiment of the present disclosure.
6 is a weight graph of a correction parameter according to steering torque of a vehicle according to an embodiment of the present disclosure.
7 is a flowchart illustrating a steering control method according to an embodiment of the present disclosure.

Hereinafter, some embodiments of the present disclosure will be described in detail through exemplary drawings. In describing the components of the present disclosure, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected to or connected to the other component, but another component between each component It will be understood that elements may be "connected", "coupled" or "connected".

1 is a view showing the configuration of a steering control apparatus according to an embodiment of the present disclosure.

Referring to FIG. 1, the steering control apparatus 100 includes a reception unit 110 that receives steering correction condition information, and a steering correction determination unit 120 that determines whether steering correction is performed based on the steering correction condition information, When it is determined that the steering correction is performed, each correction value calculation unit 130 determines a correction parameter of the steering correction condition information, and calculates an angle correction value using the correction parameter of the steering correction condition information, And a signal generating unit 140 for generating a motor control signal by determining whether to generate a motor control signal based on each correction value according to a comparison result of each correction value and a reference value.

The reception unit 110 of the steering control apparatus 100 receives steering correction condition information.

Here, the steering correction condition information may include at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, blind spot detection (BSD) function operation information, and vehicle speed information. The steering angle information, the steering angle speed information, and the steering angle acceleration information may be information sensed and processed by the steering angle sensor, and the steering torque information may be information detected and processed by the steering torque sensor, and the direction indicator information may change the lane of the vehicle It may be information about whether the turn signal for is turned on, the BSD function operation information may be information on whether the detection function for the blind spot of the vehicle is activated, and the vehicle speed information may be detected and processed by the vehicle speed sensor. It can be information.

The receiving unit 110 may receive at least one of steering angle information, steering angle speed information, and steering angle acceleration from the steering angle sensor, and may receive steering torque information from the steering torque sensor, and receive direction indicator light information from the direction indicator light module. It can receive BSD function operation information from the BSD module, and can receive vehicle speed information from the vehicle speed sensor.

In one embodiment, the receiver 110 of the steering control device 100 may be connected through a steering angle sensor and a steering torque sensor and a wire, and is connected via a CAN communication with a direction indicator module, a BSD module, and a vehicle speed sensor. It can be.

Optionally, the steering correction condition information may include information on the surrounding environment of the vehicle captured by the vehicle's radar or camera, for example, information on the position, speed, distance from the host vehicle, and the like of an object existing around the vehicle. . The steering correction condition information is not limited thereto, and may include other vehicle information or external information that can be applied to steering control of the vehicle or determine the driver's willingness to steer.

The steering correction determination unit 120 of the steering control device 100 determines whether steering correction is performed based on the steering correction condition information. Specifically, the steering correction determination unit 120 determines whether to perform steering correction based on at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, BSD function operation information, and vehicle speed information. do. Here, the steering correction may be performed to control the vehicle in a direction parallel to the center of the driving lane or the driving lane when the vehicle is transversely oriented in a specific direction of the driving lane, unlike the driver's will while driving the vehicle. It means steering correction.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 determines that the steering correction is performed when the direction indicator light is not lit, and when the direction indicator light is lit, steering It can be determined that the correction is not performed. Since the direction indicator light is on, it means that the driver wants to change the driving lane of the vehicle, and therefore the steering control device 100 does not perform steering correction for the lateral tilt of the vehicle. On the other hand, even if the direction indicator light is not lit, the lateral tilt of the vehicle means that the vehicle is tilted in a specific direction, unlike the driver's will, so that the steering control device 100 performs steering correction control. In order to be possible, the steering correction determination unit 120 of the steering control apparatus 100 may determine that steering correction is necessary.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 determines that the steering correction is performed when the BSD function is in an on state, and the BSD function is in an off state. In this case, it may be determined that steering correction is not performed. Since the BSD function is on (activated) means that the driver wants to change the driving lane of the vehicle, the steering control device 100 does not perform steering correction for the lateral tilt of the vehicle. On the other hand, even when the BSD function is off (disabled), since the vehicle's lateral tilt means that the vehicle is tilted in a specific direction, unlike the driver's will, the steering control device 100 performs steering correction control. In order to be able to do so, the steering correction determination unit 120 of the steering control apparatus 100 may determine that steering correction is necessary.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 determines that steering correction is performed when the vehicle speed is equal to or greater than the first threshold, and performs steering correction when the vehicle speed is less than the first threshold. You can judge not to. When the vehicle is traveling at a high speed, since the driving direction of the vehicle may be significantly changed with respect to a slight lateral shift of the vehicle, the steering control device 100 may be used to enable the steering control device 100 to perform steering correction control. The steering correction determining unit 120 may determine that steering correction is necessary.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 may provide a warning notification for a lateral tilt of the vehicle when the vehicle speed exceeds a second threshold and is less than a first threshold. Here, the second threshold is set to a value smaller than the first threshold. When the vehicle is driving at a relatively low speed, the vehicle may be assisted in driving by providing a warning notification to the driver about the steering of the vehicle in the lateral direction of the vehicle by drawing attention to the driver.

As a warning notification for a lateral tilt of the vehicle, at least one of a vehicle steering wheel vibration, a driver's seat vibration, a sound notification, and a notification using visual information may be used. However, the warning notification is not limited to this, and any method that can alert the driver's attention or provide the driver with a warning about the lateral tilt of the vehicle may be used.

In the steering wheel vibration of the vehicle, a system resonance can be prevented by applying a notch filter corresponding to the steering wheel vibration frequency. Furthermore, it is possible to adjust the gain of the steering wheel vibration by varying the amplitude, frequency, and period to suit the characteristics of each vehicle. In addition, the amplitude of the steering wheel vibration can be adjusted based on the steering torque information. For example, when the steering torque increases, the amplitude of vibration can be reduced (ramp down).

The steering control device 100 may transmit a warning notification for lateral tilt of the vehicle through a CAN signal command. In one embodiment, when the steering control device 100 determines that a warning notification for the lateral tilt of the vehicle is required without steering correction control, the LDWS module generates a CAN signal command and transmits it to the relevant module to transmit the lateral direction of the vehicle It can provide warning alerts for tilting.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 may not perform a warning warning about steering correction and lateral tilt of the vehicle when the vehicle speed is equal to or less than a second threshold.

Each correction value calculating unit 130 of the steering control apparatus 100 determines a correction parameter of the steering correction condition information when it is determined that the steering correction determination unit 120 performs steering correction, and the steering correction condition information An angle correction value may be calculated using the correction parameter of. The correction parameter of the steering correction condition information may be determined as a preset correction parameter. Alternatively, the correction parameter of the steering correction condition information may be determined as a correction parameter corresponding to the driving state of the vehicle. The correction parameter may include at least one of steering angle, steering angle speed, steering angle acceleration, steering torque, and vehicle speed. Each correction value calculation unit 130 may calculate each correction value using the determined correction parameter.

In one embodiment, each correction value calculating unit 130 of the steering control apparatus 100 determines the weight of the correction parameter of the steering correction condition information according to the steering correction condition information, and determines the correction parameter of the steering correction condition information Each correction value can be calculated using a weight. The weight of the correction parameter determines the degree to which steering correction is performed based on the driving state of the host vehicle. The weight of the correction parameter may be determined based on a relation to a weight value of a correction parameter according to each steering correction condition information of a preset weight map or a preset host vehicle.

In one embodiment, each correction value calculation unit 130 of the steering control apparatus 100 decreases the weight of the correction parameter of the vehicle speed when the vehicle speed included in the steering correction condition information is greater than or equal to a first threshold and less than a third threshold. Can. On the other hand, when the vehicle speed is equal to or greater than the third threshold, each correction value calculating unit 130 may maintain the weight of the correction parameter of the vehicle speed at a constant value. Here, the third threshold is set to a value greater than the first threshold. Maintaining the weight of the correction parameter of the vehicle speed at a constant value even when the vehicle speed is greater than or equal to the third threshold is because the steering angle or driving angle change due to the speed of the vehicle is large when the vehicle speed is high, so steering correction for the vehicle speed is necessary. to be.

In one embodiment, each correction value calculating unit 130 of the steering control apparatus 100 maintains the weight of the correction parameter of the steering angular velocity at a constant value when the steering angular velocity included in the steering correction condition information is less than a fourth threshold. Can. Alternatively, when the steering angle speed included in the steering correction condition information is greater than or equal to the fourth threshold, each correction value calculating unit 130 may decrease the weight of the steering angle speed correction parameter. When the steering angle speed of the vehicle is greater than or equal to the fourth threshold, since the driver intends to change the lane or change the driving direction, the weight of the correction parameter of the steering angle speed for steering correction is controlled to be small.

In one embodiment, each correction value calculating unit 130 of the steering control apparatus 100 maintains the weight of the correction parameter of the steering torque at a constant value when the steering torque included in the steering correction condition information is less than the fifth threshold , When the steering torque included in the steering correction condition information is greater than or equal to the fifth threshold, the weight of the steering torque correction parameter may be reduced. When the steering torque of the vehicle is greater than or equal to the fifth threshold, since the driver intends to change the lane or change the driving direction, the weight of the correction parameter of the steering torque for steering correction is controlled to be small.

The signal generating unit 140 of the steering control apparatus 100 determines whether to generate a motor control signal based on each correction value according to a comparison result of each correction value and a reference value, and generates a motor control signal. The motor control signal may be torque or current provided to the steering motor unit to correct steering of the vehicle.

In one embodiment, the receiving unit 110 of the steering control device 100 receives each LDWS correction value from a Lane Departure Warning System (LDWS) module. The signal generating unit 140 may generate a motor control signal based on each correction value when each correction value is equal to or less than each LDWS correction value. When each correction value is equal to or less than each LDWS correction value, the steering motor unit is controlled by a motor control signal based on each correction value, so that precise steering control reflecting the driving state of the vehicle can be realized rather than the LDWS indication value.

The steering control device 100 further includes a signal transmission unit (not shown) that transmits the generated motor control signal to the steering motor unit.

In one embodiment, the steering motor unit includes at least two motors, gear ratios of worms and worm wheels connected to each of the at least two motors are different, and the signal transmission unit may transmit a motor control signal to a motor having the smallest gear ratio. . Here, a motor with a large gear ratio of a worm and a worm wheel can provide a reference torque for steering control as a main motor, and a motor with a small gear ratio of a worm and worm wheel can provide additional torque for steering correction control as a sub-motor. have. The sub-motor may provide additional steering force to the steering wheel when it is determined that the aforementioned steering correction is necessary. In one example, the main motor has a gear ratio of worm to worm wheel of 25:1, and the sub motor has a gear ratio of worm to worm wheel of 10:1.

2 is a diagram illustrating a configuration of a steering device 200 according to an embodiment of the present disclosure. In the steering device 200 of FIG. 2, the steering motor unit 220 includes one motor and one steering control device 210.

The reception unit of the steering control device 210 receives steering correction condition information. Here, the steering correction condition information includes steering angle information from the steering angle sensor 11, steering angle speed information, and steering angle acceleration information, steering torque information from the steering torque sensor 12, and direction indicator light information from the direction indicator module 13 , BSD function operation information from a BSD module, and vehicle speed information from a vehicle speed sensor. The steering control device 210 may be connected to the steering angle sensor 11 and the steering torque sensor 12 included in the steering device, and the steering control device 210 may be a vehicle control module outside the steering device, for example, a direction It can be connected to the indicator module, BSD module, vehicle speed sensor, etc. using CAN communication.

The steering correction determination unit of the steering control device 210 determines whether to perform steering correction based on the received steering correction condition information, and calculates each correction value of the steering control device 210 when it is determined to perform steering correction. The unit determines a correction parameter of the steering correction condition information, and calculates an angle correction value using the correction parameter of the steering correction condition information. Thereafter, the signal generation unit of the steering control device 210 determines whether to generate a motor control signal based on each correction value according to a comparison result of each correction value and a reference value, and generates a motor control signal.

The steering control device 210 transmits the generated motor control signal to the steering motor unit 220 to control the motor for steering correction. The steering motor unit 220 provides steering power for steering correction to the steering wheel 230 based on the motor control signal from the steering control device 210.

3 is a view showing a configuration of a steering device 300 according to another embodiment of the present disclosure. In the steering device 300 of FIG. 3, the steering motor unit includes at least a first steering motor 350 and a second steering motor 320, and a first steering control device 340 and a second steering control device 310. . Here, the gear ratios of the worm and the worm wheel connected to each of the first steering motor 350 and the second steering motor 320 are different. The first steering motor 350 having a large gear ratio between the worm and the worm wheel may provide a reference torque for steering control as the main steering motor, and the second steering motor 320 having a small gear ratio between the worm and the worm wheel may serve as sub-steering. As a motor, it is possible to provide additional torque for steering correction control. In general steering, the first steering motor 350, which is the main steering motor, performs steering control, and the second steering motor 320, which is a sub-steering motor, determines that the above-described steering correction is necessary, and the steering wheel 330 ) To provide additional steering force.

The second steering control device 310 corresponds to the steering control device for steering correction control described above. Specifically, the receiving unit of the second steering control device 310 receives steering correction condition information. Here, the steering correction condition information includes steering angle information from the steering angle sensor 11, steering angle speed information, and steering angle acceleration information, steering torque information from the steering torque sensor 12, and direction indicator light information from the direction indicator module 13 , BSD function operation information from a BSD module, and vehicle speed information from a vehicle speed sensor. The second steering control device 310 may be connected to the steering angle sensor 11 and the steering torque sensor 12 included in the steering device by wire, and the second steering control device 310 is a vehicle control module outside the steering device For example, it can be connected using CAN communication to a direction indicator module, a BSD module, a vehicle speed sensor, and the like.

The steering correction determination unit of the second steering control apparatus 310 determines whether to perform steering correction based on the received steering correction condition information, and determines that the steering correction is to be performed. Each correction value calculation unit determines a correction parameter of the steering correction condition information, and calculates an angle correction value using the correction parameter of the steering correction condition information. Thereafter, the signal generation unit of the second steering control device 310 determines whether to generate a motor control signal based on each correction value according to a comparison result of each correction value and a reference value, and generates a motor control signal.

The second steering control device 310 transmits the generated motor control signal to the second steering motor 320 to control the steering motor for steering correction. The second steering motor 320 provides steering power for steering correction to the steering wheel 330 based on the motor control signal from the second steering control device 310.

Meanwhile, each correction value calculation unit of the steering control device may determine the weight of the correction parameter of the steering correction condition information according to the steering correction condition information, and calculate each correction value using the correction parameter and the determined weight of the steering correction condition information. have.

4 is a weight graph of correction parameters according to a vehicle speed of a vehicle according to an embodiment of the present disclosure.

The steering control apparatus determines that the steering correction is performed when the vehicle speed is equal to or greater than the first threshold, and determines a correction parameter for calculating each correction value and a weight of the correction parameter. In one embodiment, the steering control device determines that steering correction is performed when the vehicle speed is 80 kph. Referring to FIG. 4, each correction value calculation unit reduces the weight of the correction parameter of the vehicle speed when the vehicle speed is 80 kph or more and less than 120 kph, and maintains the weight of the correction parameter of the vehicle speed at a constant value when the vehicle speed is 120 kph or more. . Maintaining the weight of the correction parameter of the vehicle speed at a constant value even when the vehicle speed is 120 kph or more is because the steering angle or driving angle change due to the speed of the vehicle is large when the vehicle speed is high, and thus steering correction for the vehicle speed is necessary . The standard values such as 80 kph and 120 kph presented here are not limited thereto, and may be determined according to actual application conditions.

5 is a weight graph of a correction parameter according to a steering angle speed of a vehicle according to an embodiment of the present disclosure.

When it is determined that the steering correction is performed, the steering control device determines a correction parameter for calculating each correction value and a weight of the correction parameter. In one embodiment, as shown in FIG. 5, each correction value calculating unit maintains the weight of the correction parameter of the steering angle speed at a constant value when the steering angle speed is less than 30 deg/s, and the steering angle speed when the steering angle speed is 30 deg/s or more. Decrease the weight of the correction parameter. When the steering angle speed of the vehicle is 30 deg/s or more, since the driver intends to change the lane or change the driving direction, the weight of the correction parameter of the steering angle speed for steering correction is controlled to be small. The standard value such as 30 deg/s presented here is not limited to this, and may be determined according to actual application conditions.

6 is a weight graph of a correction parameter according to steering torque of a vehicle according to an embodiment of the present disclosure.

When it is determined that the steering correction is performed, the steering control device determines a correction parameter for calculating each correction value and a weight of the correction parameter. In one embodiment, as shown in Figure 5, each correction value calculation unit, when the steering torque is less than 0.5 Nm maintains the weight of the correction parameter of the steering torque to a constant value, when the steering torque included in the steering correction condition information is 0.5 Nm or more Reduce the weight of the steering torque correction parameter. When the steering torque of the vehicle is 0.5 Nm or more, since the driver intends to change the lane or change the driving direction, the weight of the correction parameter of the steering torque for steering correction is controlled to be small. The standard value such as 0.5 Nm presented here is not limited to this, and may be determined according to actual application conditions.

7 is a flowchart illustrating a steering control method according to an embodiment of the present disclosure.

The steering control apparatus includes a reception step of receiving steering correction condition information, a steering correction determination step of determining whether to perform steering correction based on the steering correction condition information, and a steering correction condition information when it is determined to perform steering correction. A motor control based on each correction value according to a comparison result of each correction value calculation step of determining an angle correction value and determining an angle correction value using the correction parameter of the steering correction condition information, And generating a motor control signal by determining whether to generate the signal.

In the receiving step, the steering control device receives steering correction condition information and/or LDWS correction values (S710). In one embodiment, the steering control device may simultaneously receive steering correction condition information and LDWS correction values. In another embodiment, the steering control apparatus may receive steering correction condition information, and when it is determined that steering correction is performed thereafter, each LDWS correction value may be additionally received.

Here, the steering correction condition information may include at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, BSD function operation information, and vehicle speed information. The steering angle information, the steering angle speed information, and the steering angle acceleration information may be information sensed and processed by the steering angle sensor, and the steering torque information may be information detected and processed by the steering torque sensor, and the direction indicator information may change the lane of the vehicle It may be information about whether the turn signal for is turned on, the BSD function operation information may be information on whether the detection function for the blind spot of the vehicle is activated, and the vehicle speed information may be detected and processed by the vehicle speed sensor. It can be information.

Optionally, the steering correction condition information may include information on the surrounding environment of the vehicle captured by the vehicle's radar or camera, for example, information on the position, speed, distance from the host vehicle, and the like of an object existing around the vehicle. . The steering correction condition information is not limited thereto, and may include other vehicle information or external information that can be applied to steering control of the vehicle or determine the driver's willingness to steer.

In the steering correction determination step, the steering control device determines whether steering correction is performed based on the steering correction condition information (S720). Specifically, the steering control device determines whether to perform steering correction based on at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, BSD function operation information, and vehicle speed information. Here, the steering correction may be performed to control the vehicle in a direction parallel to the center of the driving lane or the driving lane when the vehicle is transversely oriented in a specific direction of the driving lane, unlike the driver's will while driving the vehicle. It means steering correction.

In one embodiment, the steering control device may determine that the steering correction is performed when the direction indicator light is not lit and determine that the steering correction is not performed when the direction indicator light is lit.

In one embodiment, the steering control device determines that the steering correction is performed when the BSD function is on, and determines that the steering correction is not performed when the BSD function is off. Can.

In one embodiment, the steering control apparatus may determine that the steering correction is performed when the vehicle speed is equal to or greater than the first threshold, and determine that the steering correction is not performed when the vehicle speed is less than the first threshold.

In the steering correction determination step, if it is determined that the steering control device does not perform the steering correction, the steering control device may provide a warning notification for the lateral tilt of the vehicle. As a warning notification for a lateral tilt of the vehicle, at least one of a vehicle steering wheel vibration, a driver's seat vibration, a sound notification, and a notification using visual information may be used. However, the warning notification is not limited to this, and any method that can alert the driver's attention or provide the driver with a warning about the lateral tilt of the vehicle may be used.

In the steering wheel vibration of the vehicle, a system resonance can be prevented by applying a notch filter corresponding to the steering wheel vibration frequency. Furthermore, it is possible to adjust the gain of the steering wheel vibration by varying the amplitude, frequency, and period to suit the characteristics of each vehicle. In addition, the amplitude of the steering wheel vibration can be adjusted based on the steering torque information. For example, when the steering torque increases, the amplitude of vibration can be reduced (ramp down).

The steering control device 100 may transmit a warning notification for lateral tilt of the vehicle through a CAN signal command. In one embodiment, when the steering control device 100 determines that a warning notification for the lateral tilt of the vehicle is required without steering correction control, the LDWS module generates a CAN signal command and transmits it to the relevant module to transmit the lateral direction of the vehicle It can provide warning alerts for tilting.

In one embodiment, the steering control device may provide a warning notification for the lateral tilt of the vehicle when the vehicle speed exceeds the second threshold and is below the first threshold. Here, the second threshold is set to a value smaller than the first threshold.

In one embodiment, the steering correction determination unit 120 of the steering control apparatus 100 may not perform a warning warning about steering correction and lateral tilt of the vehicle when the vehicle speed is equal to or less than a second threshold.

In the steering correction determination step, when it is determined that the steering control device performs steering correction, the steering control device determines a correction parameter of the steering correction condition information, and corrects an angle using the correction parameter of the steering correction condition information The value is calculated (S730). The correction parameter of the steering correction condition information may be determined as a preset correction parameter. Alternatively, the correction parameter of the steering correction condition information may be determined as a correction parameter corresponding to the driving state of the vehicle. The correction parameter may include at least one of steering angle, steering angle speed, steering angle acceleration, steering torque, and vehicle speed. The steering control device may calculate each correction value using the determined correction parameter.

In one embodiment, the steering control apparatus may determine the weight of the correction parameter of the steering correction condition information according to the steering correction condition information, and calculate each correction value using the correction parameter and the determined weight of the steering correction condition information. The weight of the correction parameter determines the degree to which steering correction is performed based on the driving state of the host vehicle. The weight of the correction parameter may be determined based on a relation to a weight value of a correction parameter according to each steering correction condition information of a preset weight map or a preset host vehicle.

In one embodiment, the steering control apparatus may reduce the weight of the correction parameter of the vehicle speed when the vehicle speed included in the steering correction condition information is greater than or equal to the first threshold and less than the third threshold. In contrast, when the vehicle speed is equal to or greater than the third threshold, the steering control device may maintain the weight of the correction parameter of the vehicle speed at a constant value. Here, the third threshold is set to a value greater than the first threshold.

In one embodiment, the steering control apparatus may maintain the weight of the correction parameter of the steering angular velocity at a constant value when the steering angular velocity included in the steering correction condition information is less than the fourth threshold. Alternatively, when the steering angle speed included in the steering correction condition information is greater than or equal to the fourth threshold, the steering control device may reduce the weight of the steering angle speed correction parameter.

In one embodiment, the steering control device maintains the weight of the correction parameter of the steering torque at a constant value when the steering torque included in the steering correction condition information is less than the fifth threshold, and the steering torque included in the steering correction condition information is removed. If the threshold is 5 or more, the weight of the steering torque correction parameter can be reduced.

The steering control device compares each calculated correction value with a reference value. Specifically, the steering control device compares each correction value with each correction value of LDWS, and determines whether each correction value is equal to or less than each LDWS correction value (S740).

When the steering control device determines that each correction value is equal to or less than each LDWS correction value, the steering control device generates a motor control signal based on each correction value (S750). The motor control signal may be torque or current provided to the steering motor unit to correct steering of the vehicle. When each correction value is equal to or less than each LDWS correction value, the steering motor unit is controlled by a motor control signal based on each correction value, so that precise steering control reflecting the driving state of the vehicle can be realized rather than the LDWS indication value. When the steering control device determines that each correction value is not equal to or less than each LDWS correction value, the steering control device ends without performing separate steering correction. The fact that each correction value is not equal to or less than the LDWS correction value does not perform a separate steering correction because it is determined that the driver wants to change the lane or change the driving direction of the vehicle.

The steering control device transmits the generated motor control signal to the steering motor (S760).

In one embodiment, the steering motor unit includes at least two motors, and gear ratios of worms and worm wheels connected to each of the at least two motors are different, and the steering control device may transmit a motor control signal to a motor having the smallest gear ratio. . Here, a motor with a large gear ratio of a worm and a worm wheel can provide a reference torque for steering control as a main motor, and a motor with a small gear ratio of a worm and worm wheel can provide additional torque for steering correction control as a sub-motor. have. The sub-motor may provide additional steering force to the steering wheel when it is determined that the aforementioned steering correction is necessary. In one example, the main motor has a gear ratio of worm to worm wheel of 25:1, and the sub motor has a gear ratio of worm to worm wheel of 10:1.

The terms "system", "processor", "controller", "component", "module", "interface", "model", and "unit" described above are generally computer-related entity hardware, a combination of hardware and software. , Software or running software. For example, the components described above may be, but are not limited to, processes, processors, controllers, control processors, entities, execution threads, programs and/or computers driven by a processor. For example, both an application running on a controller or processor and a controller or processor can be components. One or more components can be in a process and/or thread of execution, and the components can be located on one system or distributed to more than one system.

The terms "comprises", "composes" or "haves" as described above mean that the corresponding components can be inherent unless otherwise stated, and do not exclude other components. It should be construed that it may further include other components. All terms, including technical or scientific terms, unless otherwise defined, have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. Commonly used terms, such as predefined terms, should be interpreted as being consistent with the meaning of the context of the related art, and are not to be interpreted as ideal or excessively formal meanings unless explicitly defined in the present disclosure.

The above description and the accompanying drawings are merely illustrative of the technical spirit of the present disclosure, and those skilled in the art to which the present disclosure pertains combine combinations of configurations within a scope not departing from the essential characteristics of the present disclosure. , Various modifications and variations such as separation, substitution and change will be possible. Therefore, the embodiments disclosed in the present disclosure are not intended to limit the technical spirit of the present disclosure, but to explain the scope, and the scope of the technical spirit of the present disclosure is not limited by the embodiments. That is, within the scope of the present disclosure, all of the constituent elements may be selectively combined and operated. The scope of protection of the present disclosure should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present disclosure.

Claims (15)

A receiver configured to receive steering correction condition information;
A steering correction determination unit that determines whether steering correction is performed based on the steering correction condition information;
When it is determined that the steering correction is performed, each correction value calculation unit determines a correction parameter of the steering correction condition information, and calculates an angle correction value using the correction parameter of the steering correction condition information; And
A signal generation unit that determines whether to generate a motor control signal based on each of the correction values according to the comparison result of each of the correction values and the reference value, and generates a motor control signal.
Steering control device comprising a. According to claim 1,
The steering correction condition information includes at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, blind spot detection (BSD) function operation information, and vehicle speed information. The steering control device. According to claim 2,
The steering correction determination unit,
If the direction indicator is not lit, it is determined that the steering correction is performed,
When the direction indicator is lit, it is determined that the steering correction is not performed, the steering control device. According to claim 2,
The steering correction determination unit,
When the BSD function is on, it is determined that the steering correction is performed,
When the BSD function is off, it is determined that the steering correction is not performed. According to claim 2,
The steering correction determination unit,
If the vehicle speed is greater than or equal to the first threshold, it is determined to perform the steering correction,
When the vehicle speed is less than the first threshold, it is determined that the steering correction is not performed, the steering control device. The method of claim 5,
The steering correction determination unit,
When the vehicle speed is greater than the second threshold value and less than the first threshold value, it characterized in that it provides a warning notification for the lateral tilt of the vehicle, steering control device. According to claim 1,
Each correction value calculation unit,
Steering control device characterized in that for determining the weight of the correction parameter of the steering correction condition information according to the steering correction condition information, and calculating each correction value using the correction parameter and the determined weight of the steering correction condition information . The method of claim 7,
Each correction value calculation unit,
When the vehicle speed included in the steering correction condition information is greater than or equal to a first threshold and less than a third threshold, the weight of the correction parameter of the vehicle speed is reduced,
When the vehicle speed is greater than or equal to a third threshold, the steering control device is characterized in that the weight of the correction parameter of the vehicle speed is maintained at a constant value. The method of claim 7,
Each correction value calculation unit,
When the steering angular velocity included in the steering correction condition information is less than a fourth threshold value, the weight of the correction parameter of the steering angular velocity is maintained at a constant value,
When the steering angular velocity included in the steering correction condition information is greater than or equal to the fourth threshold, the weight of the correction parameter of the steering angular velocity is reduced. The method of claim 7,
Each correction value calculation unit,
If the steering torque included in the steering correction condition information is less than a fifth threshold value, the weight of the steering torque correction parameter is maintained at a constant value,
When the steering torque included in the steering correction condition information is greater than or equal to the fifth threshold, the weight of the correction parameter of the steering torque is reduced. According to claim 1,
The receiving unit receives LDWS correction values from a Lane Departure Warning System (LDWS) module,
The signal generating unit, the steering control device, characterized in that for generating the motor control signal based on each of the correction value, when the respective correction value is less than the LDWS correction value. According to claim 1,
The steering control device further includes a signal transmission unit for transmitting the generated motor control signal to the steering motor unit,
The steering motor unit includes at least two motors, and gear ratios of worms and worm wheels connected to each of the at least two motors are different,
The signal transmission unit,
Steering control device, characterized in that for transmitting the motor control signal to the motor having the smallest gear ratio. A condition information receiving step of receiving steering correction condition information;
A steering correction determination step of determining whether to perform steering correction based on the steering correction condition information;
When it is determined that the steering correction is performed, each correction value calculation step of determining a correction parameter of the steering correction condition information and calculating each correction value using the correction parameter of the steering correction condition information; And
And a control signal generation step of determining whether to generate a motor control signal based on each correction value according to a comparison result of the respective correction values and a reference value, and generating a motor control signal. The method of claim 12,
The steering correction condition information includes at least one of steering angle information, steering angle speed information, steering angle acceleration information, steering torque information, direction indicator light information, blind spot detection (BSD) function operation information, and vehicle speed information. The steering control method. Steering motor; And
Electronic control unit for controlling the steering motor
Including,
The electronic control unit,
Receiving steering correction condition information,
Determine whether to perform steering correction based on the steering correction condition information,
When it is determined that the steering correction is performed, a correction parameter of the steering correction condition information is determined, and each correction value is calculated using the correction parameter of the steering correction condition information,
And generating a motor control signal by determining whether to generate a motor control signal based on each of the correction values according to the comparison result of each correction value and a reference value.

Images