KR20190016824A - Dual type controlling apparatus and controlling method thereof - Google Patents

Abstract

The present invention relates to a dual type vehicle control apparatus and a control method thereof, wherein the vehicle control apparatus comprises: a first electronic control unit and a second electronic control unit alternately connected to at least one assembly forming an intelligent driving assistance system to control operation of the assembly; and a control module connecting the assembly to the first electronic control unit at the beginning of driving a vehicle, connecting the assembly to the second electronic control unit when operation of the first electronic control unit fails, and resetting the first electronic control unit to try to restore a normal state. Therefore, the intelligent driving assistance system can be stably operated, and stability of driving a vehicle can be improved.

Description

[0001] DUAL TYPE CONTROLLING APPARATUS AND CONTROLLING METHOD THEREOF [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dual-type vehicle control apparatus and a control method thereof, and more particularly, to a dual-type vehicle control apparatus and a control method thereof that enable stable operation by driving an auxiliary system in an error of a main system, And a control method thereof.

With the rapid increase in the use of cars in modern society, the number of fatalities and casualties due to car accidents has reached tens of millions of people every year. Accordingly, a variety of automotive technologies such as ADAS (Advanced Driver Assistance System), which prevents accidents by using advanced sensing sensors and intelligent video equipment, are being developed in order to reduce personal injury and economic loss caused by traffic accidents.

Such an intelligent driving assist system includes a forward collision warning (FCW) function, an automatic cruise control (ACC) function, a lane change assistance function, a lane departure warning function , And Parking Assistance function.

On the other hand, assemblies of various electronic devices are installed in the vehicle. The assemblies include engine control assemblies, power transmission assemblies, brake assemblies, suspension assemblies, steering assemblies, instrument assemblies, information communication control assemblies, power / wire harness assemblies .

To implement the functions of the intelligent driving assist system, one assembly or a plurality of assemblies are driven together, and each assembly is controlled and managed by an electronic control unit (ECU). The electronic control unit can be composed of various elements such as a micro control unit (MCU), various sensors, various driving units, and the like depending on the type of the assembly.

However, since the electronic control unit is composed of various electronic devices and parts, not only a physical failure but also an electronic error such as an MCU Fail may occur, and the operation of the assembly may be stopped when a failure or an error occurs. Especially, in the case of assemblies related to autonomous driving of the intelligent driving assist system, there is a danger that when the assembly is stopped, if the driver does not operate the vehicle by manual operation, it may lead to a serious accident.

In order to prevent the risk of such an accident, dual control type vehicle control apparatuses having a pair of electronic control units have been developed and used. That is, a pair of electronic control units for controlling the respective functions are provided. When an error or a failure occurs in the first electronic control unit, the second electronic control unit is operated to continuously operate the assembly to use the intelligent driving assist system .

In the case of such a dual control type vehicle control apparatus, when an error or a failure occurs in the second electronic control unit while the first electronic control unit is operating as the second electronic control unit due to an error or a failure, There is a disadvantage in that the driving assist system can not be operated.

In addition, when the electronic control unit generates an electronic error that is not a mechanical failure, although the operation of the electronic control unit can be restored and used simply by simply resetting the electronic control unit, Regardless of the cause, the second electronic control unit is used and the first electronic control unit is just turned off to prevent the second electronic control unit from further failing, thereby deteriorating the stability of the intelligent driving assist system. Thereby, it is necessary to improve the stability of the intelligent driving assist system and improve the running safety of the vehicle by restoring the first electronic control unit when an electronic error occurs.

The present invention is characterized in that when an electronic error occurs in the first electronic control unit of a pair of electronic control units that control the assembly, the second electronic control unit is activated, the first electronic control unit is reset, Which can improve the stability of the system by eliminating the electronic error of the vehicle.

The object is achieved by a first electronic control unit and a second electronic control unit alternately connected with at least one assembly constituting an intelligent driving assist system to control the operation of the assembly; And connecting said assembly to said first electronic control unit at an early stage of vehicle operation and, if operation of said first electronic control unit fails, connecting said assembly to said second electronic control unit, And a control module for resetting and attempting to recover the normal state.

The above object is achieved by a control method of a vehicle control apparatus including a first electronic control unit and a second electronic control unit which are alternately connected to at least one assembly constituting an intelligent driving assist system to control the operation of the assembly Connecting said assembly to said first electronic control unit at an early stage of vehicle operation; A monitoring step of monitoring an operation of the first electronic control unit; Switching the assembly to the second electronic control unit if the operation of the first electronic control unit fails; And a restoring step of resetting the first electronic control unit to attempt restoration of a normal state.

According to the dual control type vehicle control apparatus according to the present invention, a pair of electronic control units are provided for control of an assembly for implementing an intelligent driving assist system, and when an electronic error occurs in the first electronic control unit, 1 The electronic control unit is reset and restored to the normal state. Thus, by preventing the electronic control unit from being used by a simple electronic error, it is possible to ensure the operation of the stable intelligent driving assist system by keeping all of the pair of electronic control units usable. Further, by minimizing the sudden manual switching, the stability of the vehicle operation can be improved.

1 is a block diagram of the configuration of a vehicle control apparatus according to the present invention.
2 is a configuration block diagram of the first electronic control unit of Fig.
3 is a block diagram of the configuration of the second electronic control unit of Fig.
4 is a flowchart showing a process of controlling the operation of a pair of electronic control units in the vehicle control apparatus according to the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. 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, It should be understood that an element may be "connected," "coupled," or "connected."

Fig. 1 is a block diagram of a configuration of a vehicle control apparatus according to the present invention, Fig. 2 is a configuration block diagram of a first electronic control unit of Fig. 1, and Fig. 3 is a configuration block diagram of a second electronic control unit of Fig.

A vehicle control apparatus according to the present invention is an apparatus for controlling an assembly for implementing an intelligent driving assist system, comprising a pair of electronic control units, and when an electronic error occurs in one of the pair of electronic control units, Thereby enabling the electronic control unit to be operated, while allowing the electronic error to be recovered through a reset.

Hereinafter, a vehicle control apparatus for controlling an EPS (Electronic Power Steering) assembly 10 that performs control related to autonomous driving among the intelligent driving assist system will be described as an example. However, it is needless to say that the vehicle control apparatus of the present invention is not limited to the embodiments described later, and can be applied to all electronic control units that control various assemblies 10 for implementing an intelligent driving assistance system.

The present vehicle control apparatus may include a first electronic control unit 30, a second electronic control unit 130, and a control module 20.

The first electronic control unit 30 and the second electronic control unit 130 have the same components and the first electronic control unit 30 and the second electronic control unit 130 are connected to one assembly 10 ). ≪ / RTI > For example, both the first and second electronic control units 130 may be connected to the EPS assembly, or both the first and second electronic control units 30, 130 may be connected to the suspension assembly.

The first electronic control unit 30 and the second electronic control unit 130 have the same components as each other but the components of the first electronic control unit 30 and the second electronic control unit 130 are connected to each other (10).

For example, the first electronic control unit 30 that controls the EPS assembly 10 includes a first torque sensor 35, a first motor driver 60, a first motor position sensor 40, A control unit 50, and the like, and can control the operation of the steering wheel during autonomous navigation.

Like the first electronic control unit 30, the second electronic control unit 130 controls the operation of the steering wheel during autonomous travel, and the second torque sensor 135, the second motor driver, the second motor position sensor 140 ), A second micro control unit 150, and the like.

The first torque sensor 35 senses the torque of the steering shaft generated when the steering wheel is steered, and can transmit the sensed torque information to the first micro control unit 50.

The first motor drive unit 60 can control the drive of the steering motor to provide a steering force to the steering wheel according to the calculation result from the first micro control unit 50. [ The first motor drive unit 60 controls the current supplied to the steering motor in accordance with the current value calculated in the first micro control unit 50 so that the steering force determined in the first micro control unit 50 is provided to the steering wheel .

The first motor position sensor 40 senses the rotational speed of the steering motor and provides the sensed rotational speed to the first micro control unit 50 to determine whether the steering motor is operating at a desired rotational speed .

In general, the micro control unit processes a signal input to the electronic control unit and outputs a control signal.

The first micro control unit 50 of the present embodiment generates a control signal for controlling the steering wheel at the time of autonomous travel and detects the steering angle of the steering wheel detected from the first torque sensor 35 of the steering wheel and the first motor position sensor 40, The first motor driver 60 can be controlled by receiving information on the torque of the shaft and the rotation speed of the steering motor. That is, the first micro control unit 50 can determine whether the steering wheel is provided with a desired steering force by using the torque of the steering shaft and the rotational speed of the steering motor. Accordingly, the first micro control unit 50 can compare the steering force provided to the actual steering wheel with the predetermined steering force, and calculate the current value applied so as to correct the difference therebetween.

The first micro control unit 50 may include a first memory 51, a first calculation unit 55, and a first control unit 53.

The first memory 51 may be an EEPROM (Electrically Erasable Programmable Read-Only Memory), which is a non-volatile memory, and stores various information for controlling the steering motor.

The first calculation unit 55 may calculate values including a current value provided to the steering motor by using the information stored in the first memory 51 under the control of the first control unit 53. [

The first control unit 53 may operate the first calculation unit 55 according to a signal from the outside, and may generate various control signals.

The second torque sensor 135, the second motor driver 160, the second motor position sensor 140 and the second micro control unit 150 included in the second electronic control unit 130 are controlled by the first electronic control unit The first torque sensor 35, the first motor driver 60, the first motor position sensor 40, and the first micro control unit 50 included in the unit 30 have the same functions as those of the first torque sensor 35, the first motor position sensor 40, It will be omitted.

Similarly, the second memory 151, the second calculation unit 155, and the second control unit 153 included in the second micro control unit 150 are also connected to the first memory (not shown) included in the first micro control unit 50, 51, the first calculation unit 55, and the first control unit 53, the repeated description will be omitted.

The control module 20 is connected to both the first electronic control unit 30 and the second electronic control unit 130 and selectively connects one of the first electronic control unit 30 and the second electronic control unit 130 . The control module 20 operates the first electronic control unit 30 when the vehicle is in operation and activates the second electronic control unit 130 when a failure or an error occurs in the first electronic control unit 30, 1 enables the assembly 10 controlled by the first electronic control unit 30 and the second electronic control unit 130 to be continuously operated.

The control module 20 also continuously monitors the operation of the first electronic control unit 30 and the second electronic control unit 130 connected to the assembly 10 to continuously monitor the operation of the first electronic control unit 30 or the second It is possible to detect a failure or an error of the electronic control unit 130. For example, the control module 20 monitors the operation of the first micro control unit 50 and the second micro control unit 150 and controls the operation of the first micro control unit 50 and the second micro control unit 150, Can be detected.

The first micro control unit 50 and the second micro control unit 150 may generate errors such as a memory error, a program flow error, a program overflow, The control module 20 can detect these errors as follows.

The control module 20 monitors whether the data to be read / written in the memories of the first micro control unit 50 and the second micro control unit 150 is correct and if there is an error in the data, It can be judged.

The control module 20 monitors whether or not the operation proceeds according to the routine by the program processed by the first micro control unit 50 and the second micro control unit 150. If the operation does not proceed according to the routine, It can be judged as a program flow monitoring error.

When the value calculated by the calculation unit of the first micro control unit 50 and the second micro control unit 150 overflows and exceeds the preset number of bits or the value that can not be calculated at all A program overflow error can be determined.

The control module 20 may also detect mechanical and electronic faults and errors occurring in the first electronic control unit 30 and the second electronic control unit 130.

The control module 20 stops the operation of the first electronic control unit 30 and disconnects it from the assembly 10 when an error or a failure occurs in the first electronic control unit 30 and the second electronic control unit 130 To the assembly 10, thereby allowing the intelligent driving assistance system to operate continuously. Then, when an electronic error such as a memory error, a program flow monitoring error, a program overflow, or the like occurs in the first electronic control unit 30, the control module 20 performs a watchdog function of the connected control module 20 The first micro control unit 50 can be reset.

When the electronic error of the first micro control unit 50 is removed by the reset and the first electronic control unit 30 is restored to the normal state, the control module 20 executes the operation of the second electronic control unit 130 The first electronic control unit 30 can be stopped and connected to the assembly 10, and the first electronic control unit 30 can be operated and connected to the assembly 10. Alternatively, the second electronic unit 130 may continue to operate, and may switch to the first electronic unit 30 when a failure occurs.

A process of controlling a pair of electronic control units in a dual control type vehicle control apparatus having such a configuration will now be described with reference to FIG.

When the vehicle starts up and the driver selects the operation of the intelligent driving assist system, the control module 20 connected to the assembly 10 for implementing the intelligent driving assistance system supplies power to the first electronic control unit 30 And operates the first electronic control unit 30 to operate the selected assembly 10 (S400).

During operation of the assembly 10, the control module 20 may monitor the operation of the first electronic control unit 30 to detect faults or errors in the first electronic control unit 30. [ If an error occurs in the first electronic control unit 30 due to a failure (S405), the control module 20 confirms whether the second electronic control unit 130 is in a normal state (S410). As a result, if the second electronic control unit 130 is in the normal state, the connection between the first electronic control unit 30 and the assembly 10 is short circuited and the second electronic control unit 130 and the assembly 10 By the connection, the assembly 10 is controlled by the second electronic control unit 130 (S415).

If the second electronic control unit 130 is not in a normal state, the control module 20 can not operate the intelligent driving assist system through the output portion of the display panel or the like in the vehicle. Therefore, the message that the driver must operate the vehicle manually And the driving of the intelligent driving assist system can be stopped (S450).

The control module 20 can determine whether or not an electronic error has occurred in the first electronic control unit 30 through monitoring the first micro control unit 50, The electronic control unit 30 resets the first electronic control unit 30 (S420, S425).

After reset, the control module 20 determines whether the first electronic control unit 30 is restored to a normal state and operates (S430). If the first electronic control unit 30 returns to the normal state, (10) is short-circuited. At the same time, by allowing the assembly 10 to be controlled by the first electronic control unit 30 by connecting the first electronic control unit 30 and the assembly 10 (S435), the driving of the intelligent driving assist system is maintained (S440). On the other hand, if the first electronic control unit 30 is not restored to the normal state after the reset, the control module 20 controls the second electronic control unit 130 so that the assembly 10 is controlled by the second electronic control unit 130 130 and the assembly 10 can be maintained.

On the other hand, if the error or failure of the first electronic control unit 30 is detected as a result of the detection by the control module 20 and the error is mechanical rather than electronic, the control module 20 determines that the second electronic control unit 130 is in the normal state And connects the second electronic control unit 130 and the assembly 10. [

If a failure or an error occurs in the second electronic control unit 130 (S445) while the second electronic control unit 130 is controlling the assembly 10, the control module 20 controls the operation of the display panel Since the intelligent driving assist system can not be operated through the output unit, a message indicating that the driver must operate the vehicle manually is outputted. By shorting the connection between the second electronic control unit 130 and the assembly 10, The system can be stopped (S450).

Thus, according to the dual control type vehicle control apparatus according to the present invention, a pair of electronic control units are provided for control of the assembly 10 for implementing the intelligent driving assist system, and the first electronic control unit 30, The first electronic control unit 30 is reset and restored to the normal state. Thus, by preventing the electronic control unit from being used by a simple electronic error, it is possible to ensure the operation of the stable intelligent driving assist system by keeping all of the pair of electronic control units usable. Further, by minimizing the sudden manual switching, the stability of the vehicle operation can be improved.

The standard content or standard documents referred to in the above-mentioned embodiments constitute a part of this specification, for the sake of simplicity of description of the specification. Therefore, it is to be understood that the content of the above standard content and portions of the standard documents are added to or contained in the scope of the present invention.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: assembly 20: control module
30: first electronic control unit 50: first micro control unit
130: second electronic control unit 150: second micro control unit

Claims (10)

A first electronic control unit and a second electronic control unit alternately connected to at least one assembly constituting the intelligent driving assist system to control the operation of the assembly; And
Connecting said assembly to said first electronic control unit when said operation of said first electronic control unit fails and connecting said assembly to said second electronic control unit and resetting said first electronic control unit And a control module for attempting recovery of the normal state. The method according to claim 1,
Wherein the first electronic control unit includes a first micro control unit for processing and inputting and outputting data and the second electronic control unit includes a second micro control unit for processing and inputting and outputting data;
Wherein the control module monitors an operation of the first micro control unit and the second micro control unit to detect an electronic error. 3. The method of claim 2,
The control module resets the first micro-control unit when an electronic error occurs in the first micro-control unit, and when the first electronic control unit returns to a normal state after resetting, And said assembly. 3. The method of claim 2,
Wherein the control module resets the first micro control unit when an electronic error occurs in the first micro control unit and if the first electronic control unit is not restored to a normal state after reset, And maintains the connection of the control unit and the assembly. 5. The method of claim 4,
Wherein the control module switches the control of the intelligent driving assist system to manual if the operation of the second electronic control unit fails. A control method of a vehicle control apparatus including a first electronic control unit and a second electronic control unit which are alternately connected to at least one assembly constituting an intelligent driving assist system to control the operation of the assembly,
Connecting said assembly to said first electronic control unit at an early stage of vehicle operation;
A monitoring step of monitoring an operation of the first electronic control unit;
Switching the assembly to the second electronic control unit if the operation of the first electronic control unit fails; And
And a recovery step of resetting the first electronic control unit to attempt recovery of a normal state. The method according to claim 6,
Wherein the monitoring step includes the step of monitoring an operation of the first micro control unit included in the first electronic control unit and processing and inputting and outputting data to detect an electronic error;
And the step of restoring includes resetting the first micro control unit if it is determined that an electronic error has occurred in the first micro control unit. The method according to claim 6,
Further comprising coupling the first electronic control unit and the assembly when the first electronic control unit returns to a normal state after reset. The method according to claim 6,
And maintains the connection of the second electronic control unit and the assembly when the first electronic control unit is not restored to the normal state after the reset. 10. The method of claim 9,
And switching the control of the intelligent driving assist system to manual if the operation of the second electronic control unit fails.

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