KR102401378B1 - Apparatus and method for controlling security equipment mounted on vehicle - Google Patents

Abstract

A method of controlling a vehicle security device includes the steps of checking power consumption of at least one security device mounted on the vehicle or interlocking with the vehicle and the security device, checking the state of charge of a battery mounted on the vehicle; Calculating the operating time of the security device in a state in which the vehicle is parked based on the remaining charge amount of the battery and power consumption of the security device, and determining whether to operate the security device in response to the calculated available operating time; And The method may include re-adjusting whether the security device operates or not and the operation time in response to a preset pattern for the security level.

Description

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a method and apparatus for controlling a security device mounted on a vehicle, and more particularly, to a method and a control device for operating a security device mounted on a parked vehicle.

The vehicle theft prevention system is required to have performance or specifications to maintain a safe state of the vehicle from situations inside and outside the parked vehicle. For example, a recent vehicle anti-theft system detects broken windows for intrusion, detects theft of items in the vehicle, detects theft of tires in a parked vehicle, detects illegal towing and movement of vehicles, visually and auditory around the vehicle when various situations occur. There is a function to maintain the safety of the vehicle by generating a negative effect. In addition, a black box mounted on a vehicle or capable of interlocking with the vehicle is also used as a device for vehicle security.

In addition, vehicles go beyond mechanical devices as simple means of transportation, and recently, as seen in terms such as infotainment, autonomous driving, and connected cars, the trend of electrification is very rapid. Nearly 100 ECUs (Electronic Control Units) can exist inside a vehicle and electronically control various functions of the vehicle. Externally, services using telematics tools are expanding. In the era of the Internet of Things, technologies such as V2X (Vehicle to Everything) are being proposed.

Some of the above-described in-vehicle systems or in-vehicle services may continue to be requested not only when driving, but also when parked. In addition, a part of the above-described vehicle system or vehicle service may be used by receiving electric energy from a battery mounted in the vehicle. When driving, the driver or passenger may be provided with information on the state of the vehicle (eg, the remaining battery charge level, etc.), and the driver or passenger may take action corresponding to the information. However, when the vehicle is parked in the absence of a driver or occupant, information on the state of the vehicle cannot be directly transmitted to the driver or occupant. In addition, even if the vehicle status can be notified to the vehicle manager through the communication device mounted on the vehicle, it may be difficult for the manager who has received the information to take immediate action.

KR 10-2016-0017972 A

The present invention provides a method and apparatus capable of preventing cases such as discharging of an in-vehicle battery by controlling the operation of security devices mounted on a parked vehicle according to the user's settings in consideration of the state of the vehicle, time or location, etc. can

In addition, the present invention is to prevent the battery from being discharged due to the continuous operation of the plurality of security devices that consume electric energy stored in the battery mounted on the vehicle, whether the operation of the plurality of security devices mounted on the vehicle or interlocking with the vehicle , operation time, etc. may be set by the user, and the operation of a plurality of security devices may be controlled in a parked vehicle in response to the user setting.

In addition, the present invention controls the operation of a plurality of security devices mounted on the vehicle or interlocking with the vehicle in response to environmental factors such as the location or time of the vehicle being parked, thereby improving the operational efficiency of the plurality of security devices and reducing unnecessary energy consumption. As a result, it is possible to prevent the battery mounted in the vehicle from being discharged.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

A method of controlling a security device for a vehicle according to an embodiment of the present invention includes the steps of checking power consumption of at least one security device mounted on a vehicle or interworking with the vehicle and the security device, charging of a battery mounted on the vehicle Checking the remaining amount (State of Charge), based on the remaining amount of charge of the battery and the power consumption of the security device, calculating the operating time of the security device in a state in which the vehicle is parked, the calculated operation Determining whether to operate the security device in response to a possible time, and re-adjusting whether or not the security device operates and an operation time in response to a preset pattern for a security level.

In addition, the security level may be determined by whether the at least one security device operates and an operation time.

In addition, the preset pattern may be determined by a user selecting whether to operate the at least one security device or setting an operation time.

Also, the preset pattern may be determined corresponding to a location or time at which the vehicle is parked.

In addition, the step of re-adjusting is performed every preset period, and the step of re-adjusting may include: checking the remaining amount of charge of the battery; calculating an operating time of the security device; checking whether the available operating time satisfies a preset pattern for the security level; and resetting whether the security device operates when the available operating time does not satisfy the preset pattern.

In addition, the security device may include at least one of an around view monitoring system (AVM), a front and rear camera, an ultrasonic sensor, and a vibration sensor.

In addition, the method of controlling the security device for a vehicle further comprises the step of reducing the operation time of the security device or stopping the operation of the security device by forcibly adjusting the security level when the remaining amount of charge of the battery is lower than a preset level may include

In addition, the method for controlling the vehicle security device includes the steps of transmitting the security level or whether the security device is operating to a designated terminal through a wireless communication network; and adjusting the security level or resetting whether the security device operates in response to the data or signal transmitted from the terminal.

In addition, the re-adjusting may include activating only a vibration sensor among the at least one security device; activating another security device when vibration is sensed from the vibration sensor; and if the vibration is not detected from the vibration sensor, deactivating the other security device.

In addition, the security level consists of a plurality of steps, and changes in the plurality of steps may be made sequentially or arbitrarily.

In addition, the security level consists of a plurality of steps, and the change in the plurality of steps may be determined according to the location of the vehicle and the current time.

In addition, the security level may be configured in a plurality of steps, and a change in the plurality of steps may be determined in response to an output of the security device.

In addition, the method of controlling the security device for a vehicle includes the steps of: storing a correspondence between the parking history of the vehicle and the security level for a preset period; determining a user preference according to an analysis of the stored correspondence; and determining the preset pattern in response to the user preference.

In the computer-readable recording medium according to another embodiment of the present invention, an application program characterized by realizing the above-described method of controlling the vehicle security device can be recorded through being executed by a processor.

A device for controlling a security device for a vehicle according to another embodiment of the present invention checks at least one security device mounted on a vehicle or interlocking with the vehicle and power consumption of the security device, and the remaining charge amount of a battery mounted in the vehicle Energy monitoring unit to check (State of Charge); Based on the remaining amount of charge of the battery and power consumption of the security device, the operable time of the security device is calculated while the vehicle is parked, and whether the security device operates in response to the calculated operable time Energy management department to decide; and an energy control unit that readjusts whether or not the security device operates and an operation time in response to a preset pattern for the security level.

In addition, the security level may be determined by whether the at least one security device operates and an operation time.

In addition, the preset pattern may be determined by a user selecting whether to operate the at least one security device or setting an operation time.

In addition, whether the at least one security device operates and the operation time may be set through an input/output means of a multimedia device mounted on the vehicle or interworking with the vehicle.

Also, the preset pattern may be determined corresponding to a location or time at which the vehicle is parked.

In addition, the energy control unit readjusts whether or not the security device operates and the operating time every preset period, the energy control unit checks the remaining amount of charge of the battery, calculates the operating time of the security device, the operation is possible It is checked whether time satisfies a preset pattern for the security level, and when the available operating time does not satisfy the preset pattern, whether the security device operates may be reset.

In addition, the security device may include at least one of an around view monitoring system (AVM), a front and rear camera, an ultrasonic sensor, and a vibration sensor.

In addition, if the energy monitoring unit determines that the remaining amount of charge of the battery is lower than a preset level, the energy control unit may forcibly adjust the security level to reduce the operation time of the security device or stop the operation of the security device have.

In addition, the device for controlling the vehicle security device transmits the security level or whether the security device operates to a designated terminal through a wireless communication network, and adjusts the security level or adjusts the security level in response to the data or signal transmitted from the terminal It may further include a communication unit for resetting whether the security device operates.

In addition, the energy control unit activates only a vibration sensor among the at least one security device, activates another security device when vibration is detected from the vibration sensor, and activates another security device when the vibration is not detected from the vibration sensor can be deactivated.

In addition, the security level consists of a plurality of steps, and the energy control unit may sequentially or arbitrarily change the plurality of steps.

In addition, the security level is configured in a plurality of steps, and the energy control unit may determine a change in the plurality of steps according to the location of the vehicle and the current time.

In addition, the security level may be configured in a plurality of steps, and the energy control unit may determine a change in the plurality of steps in response to an output of the security device.

In addition, the energy control unit stores the correspondence between the parking history of the vehicle and the security level for a preset period in a storage device, determines the user preference according to the analysis of the stored correspondence, and responds to the user preference The preset pattern may be determined.

Also, when the remaining amount of charge of the battery is low, the energy controller may start the vehicle through a starting device to charge the battery.

Aspects of the present invention are only some of the preferred embodiments of the present invention, and various embodiments in which the technical features of the present invention are reflected are detailed descriptions of the present invention that will be described below by those of ordinary skill in the art can be derived and understood based on

The effects of the apparatus and method according to the present invention will be described as follows.

The present invention can solve the problem and difficulty of battery management in a vehicle due to a black box or camera device that can be activated for image monitoring in a parked vehicle.

In addition, the present invention can provide a method and apparatus for efficiently monitoring a parked vehicle by a user and a driver in a situation of a limited battery capacity mounted on the vehicle.

In addition, according to the present invention, by setting at least one security mode related to the operation of a plurality of security devices mounted on the vehicle or interlocking with the vehicle, it can be operated more efficiently in response to the driver's situation, the environment of the vehicle being parked, and the like.

In addition, the present invention can store a setting including at least one security mode in connection with the operation of a plurality of security devices mounted on the vehicle or interlocking with the vehicle, and furthermore, pattern the security mode setting into a scenario for each situation and situation Convenience can be provided to drivers and users.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description.

The accompanying drawings are provided to help understanding of the present invention, and provide embodiments of the present invention together with detailed description. However, the technical features of the present invention are not limited to specific drawings, and features disclosed in each drawing may be combined with each other to form a new embodiment.
1 illustrates a device for controlling a vehicle security device.
2 illustrates a first example of a method for controlling a vehicle security device.
3 illustrates a second example of a method for controlling a vehicle security device.
4 illustrates a third example of a method for controlling a vehicle security device.
5 illustrates setting of a security level for a vehicle security device and readjustment of the security level corresponding to a preset time.
6 illustrates a fourth example of a method for controlling a vehicle security device.
7 illustrates an example in which a security level for a vehicle security device is adjusted.
8 illustrates a fifth example of a method for controlling a vehicle security device.
9 illustrates the setting of a vehicle security device that interworks with a portable terminal.
10 illustrates a sixth example of a method for controlling a vehicle security device.
11 illustrates a setting of a vehicle security device corresponding to a user's preference or a vehicle location.

Hereinafter, an apparatus and various methods to which embodiments of the present invention are applied will be described in more detail with reference to the drawings. The suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves.

In the description of the embodiment, in the case where it is described as being formed on "up (above) or under (below)" of each component, the upper (upper) or lower (lower) means that the two components are in direct contact with each other or One or more other components are all formed by being disposed between two components. In addition, when expressed as “upper (upper) or lower (lower)”, a meaning of not only an upper direction but also a lower direction based on one component may be included.

Vehicles can be considered as bulky and expensive items that can be owned by an individual. Due to their bulkiness, vehicles cannot be carried by individuals and are often placed in public areas. For this reason, vehicle theft accidents or vehicle damage accidents often occur. In order to prevent such an accident, the vehicle may be equipped with a security device or may be linked through a wired/wireless communication method. Due to the development of wireless communication technology, even if the owner of the vehicle does not exist near the location of the vehicle, the state of the vehicle and information about the vehicle may be transmitted. For example, the development of the Internet of Things (IOT) technology may allow a plurality of devices mounted on a vehicle to be connected through a network, and thus the security technology of the vehicle may be greatly improved.

Meanwhile, an 'OBD (On-board Diagnostics)' terminal, which is a vehicle information collection device, may be installed in the vehicle. For example, as the number of devices connected to the OBD terminal increases, the amount and type of vehicle-related information that can be collected through the OBD terminal may increase. Vehicle security devices may be mounted on or connected to a vehicle through an OBD terminal, or may be connected through a separate communication network or communication line.

1 illustrates a device for controlling a vehicle security device.

As shown, the vehicle may include a plurality of security devices (20a, 20b, 20c). BACKGROUND ART As user or driver's needs for a vehicle increase, vehicle manufacturers deploy in-vehicle devices that can satisfy the user's or driver's needs. The at least one security device 20a , 20b , or 20c mounted on the vehicle or interlocking with the vehicle may operate using electric energy stored in the battery 18 mounted on the vehicle.

The amount of electrical energy stored in battery 18 may be sufficient for the security devices to operate, but the amount of electrical energy may not be sufficient. In addition, when the vehicle is driving, the state of charge (SoC) of the battery 18 mounted in the vehicle is notified to the user or the driver, and the user or the driver maintains, manages, compensation can be made possible. However, when the vehicle is parked, it is difficult for a user or driver to be notified in real time about the state of charge (SoC) of the battery 18 . In addition, when parking, security devices mounted on the vehicle or interlocking with the vehicle use the electric energy stored in the battery 18 , but the electric energy may not be charged in the battery 18 . For this reason, a device 10 capable of operating and controlling security devices in a parked vehicle may be required.

The control device 10 for controlling the security device checks the power consumption of the at least one security device 20a, 20b, 20c, and checks the remaining amount of charge (State of Charge) of the battery 18 mounted in the vehicle. Based on the energy monitoring unit 12, the remaining charge of the battery 18, and the power consumption of the security devices 20a, 20b, 20c, the operating time of the security devices 20a, 20b, 20c while the vehicle is parked The energy management unit 16 that determines whether to operate the security devices 20a, 20b, and 20c in response to the calculated available operating time, and the security device 20a in response to a preset pattern for the security level, It may include an energy control unit 14 that readjusts whether the operations 20b and 20c are operated and the operation time.

Here, the security level may be determined by whether the at least one security device 20a , 20b , or 20c operates and an operation time. For example, the security level may be configured in three levels, and when three security devices are mounted on the vehicle, when all three security devices are operated, the first level, when two security devices out of the three are operated A second level, a case in which one security device is operated may be determined as the third level. According to an embodiment, the security level may be determined in a plurality of steps, and different security levels may be designated according to various forms, such as whether the security device is operated, an operation time or an operation interval, and a combination of the operated security device.

A preset pattern that can be stored in the control device 10 may be determined by a user selecting whether to operate the at least one security device 20a, 20b, or 20c or setting an operation time. Whether the at least one security device (20a, 20b, 20c) is operated and the operating time may operate according to the initially set value, but the user or the driver responds to factors such as the location and time at which the vehicle is parked. It is necessary to adjust whether 20a, 20b, 20c) operates and the operation time. For example, when a user or a driver only parks their vehicle in their garage, there is no need to operate unnecessary security devices. On the other hand, when a user or driver parks on the street in a hazardous area, it is necessary to operate all security devices mounted on or interlocked with the vehicle. In this way, since the user or driver of the vehicle can well know the operation of the security device that is determined to be necessary while the vehicle is parked, the control device 10 can receive and store a preset pattern that can be defined or determined by the user. may be

A vehicle may have space limitations for input/output devices or interfaces. Accordingly, in order to set whether the at least one security device 20a , 20b , or 20c operates and an operation time, a multimedia device mounted on a vehicle or detachable from the vehicle may be used. Meanwhile, information on the at least one security device 20a, 20b, or 20c may be provided to the user or driver's portable terminal through the telematics service, and the user or the driver may use the at least one security device 20a, 20b, 20c You can also set the behavior of

Even if the user or the driver does not separately set whether to operate the at least one security device 20a, 20b, or 20c, and the operation time, the preset pattern may be determined corresponding to the location or time at which the vehicle is parked. Here, the control device 10 may receive information on a location where the vehicle is parked from a navigation device or a GPS device. For example, when the vehicle is parked at home or at work through a navigation device or GPS device, the control device 10 receives a message that the vehicle is parked at home or at work, and says it is necessary when parked at home or at work. Whether the determined at least one security device 20a, 20b, or 20c operates and the operating time may be determined.

The energy control unit 14 may readjust whether or not the at least one security device 20a , 20b , or 20c is operated and the operation time for each preset period. After the vehicle is parked, even if the operation and operation time of the at least one security device 20a, 20b, 20c are determined, the operation of the at least one security device 20a, 20b, 20c due to a change in the environment or situation thereafter Whether or not it is necessary to readjust the operating time. For example, a user or driver may have expected to park a vehicle for 12 hours, but may park the vehicle for 40 hours. In addition, although the time when the vehicle is parked was during the day, it may be necessary to stop the operation of the unnecessary security device as it becomes night. Conversely, it was not necessary at the time of parking, but the operation of the security device may become necessary while parking.

Here, the preset period may be determined to be 30 minutes, 1 hour, 2 hours, 4 hours, etc., and may be set by the user or the driver. Also, according to an embodiment, the control device 10 may adjust a preset cycle in response to the state of charge SoC of the battery 18 mounted in the vehicle.

On the other hand, according to the embodiment, the energy control unit 14 at each preset period checks the remaining amount of charge of the battery 18, calculates the operating time of the security devices (20a, 20b, 20c), the operating time is the security It can be checked whether the preset pattern for the level is satisfied. If the available operation time does not satisfy a preset pattern, it is also possible to reset whether the security device operates.

Although not shown, the vehicle security devices 20a , 20b , and 20c may include at least one of an around view monitoring system (AVM), a front and rear camera, an ultrasonic sensor, and a vibration sensor. In addition, as the vehicle is connected to the Internet network through a wireless network communication network, a firewall, an encryption device, etc. for protecting the network devices mounted on the vehicle from attacks such as viruses or hacking may be included in the vehicle security devices 20a, 20b, 20c. have.

On the other hand, if the energy monitoring unit 12 determines that the remaining amount of charge of the battery 18 is lower than the preset level, the energy control unit 14 forcibly adjusts the security level of the at least one security device 20a, 20b, 20c. The operation time may be reduced or the operation of the at least one security device 20a, 20b, or 20c may be stopped.

In addition, when it is necessary to maintain the operation of the at least one security device 20a , 20b , 20c even when the remaining charge amount of the battery 18 is lower than a preset level, or when the user or the driver wants to maintain it, the energy control unit 14 . can start the vehicle via the ignition device to charge the battery.

On the other hand, the vehicle transmits the security level or whether the at least one security device ( 20a , 20b , 20c ) operates to a designated terminal through a wireless communication network, and adjusts the security level or at least in response to the data or signal transmitted from the terminal A communication unit 22 for resetting whether one security device 20a, 20b, or 20c operates may be included. For example, the communication unit 22 may be connected to a telematics server or a terminal of a user or driver through a wireless data communication network. The communication unit 22 may transmit the operation of the control device 10 and the operation result to the user's or driver's terminal through a wireless data communication network. A user or a driver may access the vehicle and the in-vehicle control device 10 through the communication unit 22 even if physically separated from the parked vehicle.

According to an embodiment, the energy control unit 14 activates only the vibration sensor among at least one security device, then activates another security device when vibration is detected from the vibration sensor, and activates another security device when vibration is not detected from the vibration sensor You can also disable it. Here, the vibration sensor may detect whether a person or an object approaches the parked vehicle, an accident occurs in an adjacent place, or comes into contact with the vehicle. Accordingly, if only the vibration sensor is activated in the parked vehicle and then other security devices are not activated, there is an advantage that very little electric energy stored in the battery 18 in the vehicle can be consumed. Thereafter, when the vibration sensor detects whether a person or an object approaches or comes into contact with the parked vehicle, security devices such as a camera are activated to record events, events, etc. occurring in the vicinity of the parked vehicle in more detail or can monitor

According to an embodiment, the security level that can be set by the control device 10 consists of a plurality of steps, and the energy control unit 14 may sequentially or arbitrarily change the plurality of steps. In the process of re-adjusting or resetting the security level, the energy control unit 14 may adjust the first step, the second step, the third step, etc. in the order, but in an arbitrary order such as the first step, the third step, the second step, etc. can also be adjusted to

According to an embodiment, the readjustment or reset of the security level of the energy controller 14 may be performed according to a preset pattern, an event occurring in the vehicle, or the location, time, and time of the parked vehicle.

On the other hand, the energy control unit 14 stores the correspondence between the parking history of the vehicle and the security level for a preset period in the storage device, determines the user preference according to the analysis of the stored correspondence, and responds to the user preference. It is also possible to determine a set pattern. For example, it may be inconvenient for the user or the driver to set whether the at least one security device 20a , 20b , or 20c is operated and the operation time whenever the vehicle is parked. Accordingly, when the vehicle can store information on the driving record and the parking record for a preset period, the control device 10 can recognize a pattern for the security level that has been set in response to the parking record, and the recognized pattern In response, the security level can be determined when the vehicle is parked without a separate setting by the user.

2 illustrates a first example of a method for controlling a vehicle security device.

As shown, the method of controlling the vehicle security device includes the steps of checking power consumption of at least one security device mounted on the vehicle or interlocking with the vehicle and power consumption of the security device (32), the remaining amount of charge of the battery mounted on the vehicle (State) of Charge), calculating the available operating time of the security device while the vehicle is parked based on the remaining charge amount of the battery and the power consumption of the security device (36), and the calculated operability It may include determining whether the security device operates according to time (38), and readjusting whether the security device operates or not and the operation time in response to a preset pattern for the security level (40).

In the method of controlling a security device for a vehicle, the security level may be determined by whether or not the at least one security device operates and an operation time.

In addition, the preset pattern may be determined by a user selecting whether to operate at least one security device or setting an operation time. According to an embodiment, the preset pattern may be determined corresponding to a location or time at which the vehicle is parked.

In a method of controlling a security device for a vehicle, a security level may be configured in a plurality of steps, and changes in the plurality of steps may be sequentially or arbitrarily performed. According to an embodiment, the change in the plurality of steps may be determined according to the location of the vehicle and the current time.

In addition, the security level may consist of a plurality of steps, and a change in the plurality of steps may be determined in response to the output of the security device.

3 illustrates a second example of a method for controlling a vehicle security device.

As shown, the method for controlling the vehicle security device includes a step 42 in which a security mode application is provided, a step 44 in which a security level is selected or set, a step 46 to check and set the available time of the security mode, and operating 48 the security device according to the established security mode.

When the user or driver parks the vehicle, the security mode application may be provided through a multimedia device mounted on the vehicle or a terminal designated in advance by the user or driver ( 42 ). The security mode application is provided to set whether or not to operate at least one security device mounted on the vehicle or interlocking with the vehicle, operation time, and the like.

The user or driver may select or set a security level through the security mode application (44). In this case, the user or the driver may select a security level, and may individually set whether to operate each security device, an operation time, and the like.

The control device receiving the user's or driver's input may check whether there is a problem in operating the at least one security device in response to the user's selection or setting. For example, by checking the state of charge (SoC) of the battery, it may be determined whether there is no shortage of electrical energy to perform the security level and protection mode selected by the user.

On the other hand, when the state of charge of the battery is low and the user or driver cannot perform the selected security level or protection mode, the result may be notified to the user or driver. In addition, when there is no reset by the user or the driver, the control device may readjust the security level and the protection mode in response to the state of charge of the battery.

According to an embodiment, a method of controlling a security device for a vehicle includes transmitting a security level or whether the security device operates to a designated terminal through a wireless communication network, and in response to data or a signal transmitted from the terminal, adjusting the security level or The method may further include resetting whether the security device operates. For example, when wireless data communication is possible through a communication device mounted on the vehicle, the security level may be set and adjusted through data communication between the vehicle and a terminal previously designated by the user or driver.

4 illustrates a third example of a method for controlling a vehicle security device. The method of controlling the vehicle security device may reset or check the security level and the security mode every preset period. The preset period may be determined to be 30 minutes, 1 hour, 2 hours, 4 hours, etc., and may be set by a user or a driver. In addition, according to an embodiment, the control device may adjust a preset cycle in response to a state of charge (SoC) of a battery mounted in a vehicle.

As shown, the method of controlling the vehicle security device includes the steps of checking the remaining charge of the battery (42), calculating the operating time of the security device (44), the operating time is a preset pattern for the security level It may include a step (46) of checking whether or not the operation is satisfied, and a step (48) of resetting whether the security device operates when the available operation time does not satisfy a preset pattern.

As the amount of time the vehicle is parked increases, the need to check the remaining charge of the battery in the vehicle increases. Also, the amount of electrical energy consumed by the at least one security device may be different from the expected amount. Therefore, even if the operation of the security device and the driving time are set, the in-vehicle control device may re-check the state of the battery and the operation and operation of the security device when the preset time or period has elapsed.

On the other hand, in the method of controlling the vehicle security device, the control device reduces the operation time of the security device or stops the operation of the security device by forcibly adjusting the security level when the remaining amount of charge of the battery mounted in the vehicle is lower than a preset level. It may include further steps. Through this method, it is possible to prevent the battery from being discharged by consuming all the electric energy of the battery to drive and operate the at least one security device.

5 illustrates setting of a security level for a vehicle security device and readjustment of the security level corresponding to a preset time.

As shown, an operation method in consideration of the remaining battery power when setting the vehicle to the security mode using the vehicle's camera and sensor will be described. Various vehicle sensors can be used to set the vehicle security mode. The various vehicle sensors each have different vehicle security effects and power consumption for vehicle security. Therefore, it is necessary to operate the security mode according to the situation such as the remaining battery level and the required security mode level.

Referring to FIG. 5A , there are sensors for vehicle security, such as an AVM, a front and rear camera, an ultrasonic sensor, and a vibration sensor. Each sensor has individual current/power consumption (eg 40A, 5A, 1A, 0.5A), and operating all sensors increases power consumption. If the security mode is activated while parking, the battery may be discharged, so it is necessary to operate the sensor according to the remaining battery level. It is assumed that the control device checks the state of charge of the battery to be 40 AH of the remaining amount of the usable battery.

For example, the sensor operation according to the security level may be displayed and the available operating time may also be displayed. In addition, it is possible to inform the time (1hr, 8hr, 40hr, 80hr) that the desired security level is available according to the remaining battery power. The user can set the security level by referring to this.

Referring to FIG. 5B , the security mode may be efficiently operated according to the remaining amount of the battery for a time desired by the user. If the expected time to execute the security mode is set to 8 hours and 30 minutes, after 30 minutes, after 3 hours, and after 5 hours, the security level is changed from the upper level to the lower level in consideration of the remaining battery level. The individual security level maintenance time may be conditional on the time that the upper level can be maintained as much as possible.

6 illustrates a fourth example of a method for controlling a vehicle security device.

As shown, the method for controlling a security device for a vehicle includes the steps of activating only a vibration sensor among at least one security device (50), when vibration is sensed from the vibration sensor, activating another security device (52), and vibration If no vibration is detected from the sensor, the method may further include disabling (54) the other security device.

The vibration sensor consumes less current and power than other security devices. Therefore, after activating a vibration sensor in a parked vehicle, when an event occurs in the vibration sensor (ie, when a person or object approaches or comes into contact with a vehicle or a person or object in the vicinity of the vehicle), other security devices can be activated. have. This operation method has the advantage of reducing the consumption of electric energy stored in the battery mounted in the vehicle.

7 illustrates an example in which a security level for a vehicle security device is adjusted.

Referring to (a) of FIG. 7 , security level switching and readjustment can be set arbitrarily if the user desires as well as a method of sequentially switching to a lower level. For example, the security level may be adjusted from level 4 to level 2, again from level 1, or from level 3 to level 1. In addition, the security level can be arranged for each time period desired by the user. For example, security level 1 for the first hour, security level 2 for the next 4 hours, security level 1 for the next 1 hour, etc. can be adjusted. It can also be adjusted according to the time of the vehicle being parked (night, day, morning, evening, etc.).

Also, referring to FIG. 7B , while maintaining a low security level, when an event such as a vehicle impact occurs, the security level may be changed. For example, while maintaining security level 1, when the vibration sensor detects an impact, it is switched to security level 4 to receive a lot of sensor information.

This security mode setting can be set in a personal terminal or vehicle, and can be performed in the order of security mode execution, security level setting, security mode available time check and setting, and function execution.

In addition, according to an embodiment, when the remaining battery power is insufficient, but it is desired to maintain a high security level security mode, the vehicle may be automatically started at a desired time to charge the battery.

8 illustrates a fifth example of a method for controlling a vehicle security device.

As shown, the method of controlling the security device for a vehicle transmits the security level or whether the security device operates to a designated terminal through a wireless communication network (26), and in response to the data or signal transmitted from the terminal, the security level The method may further include step 28 of adjusting or resetting the operation of the security device.

Through a communication device mounted inside the vehicle, the vehicle can perform data communication with a designated terminal. In addition, the vehicle can directly communicate with a designated terminal or transmit and receive security device-related information, commands, and data through a telematics server or the like.

9 illustrates the setting of a vehicle security device that interworks with a portable terminal.

As illustrated, the setting of the vehicle security device or the setting of the security mode may be directly set by an individual as needed. In this case, it is not a method of optimally operating the electric energy stored in the battery mounted on the vehicle, but rather operating the vehicle security device according to the setting according to the needs of the user or driver.

The user or driver of the vehicle can set different security modes according to their home parking lot, company parking lot, external parking lot, morning/afternoon, and driver profile, and this can be patterned. These patterns can be organized into scenarios, and after learning for a certain period of time, a desired scenario can be manually selected by the user or automatically executed.

For example, referring to FIG. 9A , a user or a driver parks the vehicle at a weekend travel destination. Select weekend parking mode for parking for 2 days. Enter 2 days for parking time. Accordingly, the security mode level may be selected as 1.

Referring to FIG. 9B , it will be described that the security level and security modes set by the user or driver of the vehicle may be patterned and stored. For example, scenario 1 can pattern a house parking lot, scenario 2 can pattern a weekend travel destination, and the like, and the controller can store these patterns.

10 illustrates a sixth example of a method for controlling a vehicle security device.

As shown, the method of controlling the vehicle security device includes the steps of storing the correspondence between the parking history of the vehicle and the security level for a preset period (60), and determining the user preference according to the analysis of the stored correspondence ( 62), and determining a preset pattern in response to user preference (64).

Here, the user preference may be learned and inferred by the control device through the correspondence between the vehicle's parking history and the security level. If the control device learns and infers the user preference, the control device can set the security level and security mode by reflecting the user preference by itself even if the user or the driver does not set the security level and security mode on a timely basis.

11 illustrates a setting of a vehicle security device corresponding to a user's preference or a vehicle location.

Referring to (a) of FIG. 11 , a profile is set up to notify that I am driving through a smartphone. After driving the car on the way home from work, he parks his car at his house and plans to implement an 8-hour information security mode to go to work tomorrow.

For example, set security level 3 to ultrasonic sensor and vibration sensing mode. If a nearby vehicle collides last night, the control unit can readjust the security mode level to four levels. Also, after 10 minutes of AVM shooting, the control device restores the security mode level to step 2 again. Thereafter, the control device may transmit the captured image to the user's or driver's smartphone through telematics.

Referring to FIG. 11B , information on a location where the vehicle is parked may be collected through a GPS device or a navigation device mounted on the vehicle. Even if the user or the driver does not make a separate setting, it is possible to check whether the vehicle is parked in the house parking lot, the company parking lot, or the street, and set the corresponding security level (eg, step 2).

As described above, according to the embodiment, when a camera device is activated for image monitoring of a vehicle, limitations in vehicle battery management can be overcome, and a user can efficiently monitor the vehicle in a limited battery capacity situation. can provide a way.

In addition, it is possible to operate the security mode in a more efficient way by setting the security mode according to the individual situation with a combination of sensors. Furthermore, by patterning the security mode setting into context-specific scenarios, the driver can conveniently set the security mode according to the circumstances.

The method according to the above-described embodiment may be produced as a program to be executed by a computer and stored in a computer-readable recording medium. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape. , floppy disks, and optical data storage devices.

The computer-readable recording medium is distributed in a network-connected computer system, so that the computer-readable code can be stored and executed in a distributed manner. In addition, functional programs, codes, and code segments for implementing the above-described method can be easily inferred by programmers in the technical field to which the embodiment belongs.

It is apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Accordingly, the above detailed description should not be construed as restrictive in all respects but as exemplary. The scope of the present invention should be determined by a reasonable interpretation of the appended claims, and all modifications within the equivalent scope of the present invention are included in the scope of the present invention.

10: vehicle control unit 12: energy monitoring unit
14: energy control unit 16: energy management unit
18: battery 22: communication department
20a, 20b, 20c: security device

Claims (29)

checking at least one security device mounted on the vehicle or interworking with the vehicle and power consumption of the security device;
checking a state of charge of a battery mounted in the vehicle;
calculating an operating time of the security device in a state in which the vehicle is parked based on the remaining amount of charge of the battery and power consumption of the security device;
determining whether to operate the security device in response to the calculated available operating time; and
Re-adjusting whether or not the security device operates and the operation time in response to a preset pattern for the security level
includes,
The security level is determined by whether the at least one security device operates and an operation time,
Whether the security device operates includes selecting at least one security device from among a plurality of security devices and adjusting an operating current of the selected security device. delete According to claim 1,
The preset pattern is determined by a user selecting whether to operate the at least one security device or setting an operation time, the method for controlling a vehicle security device. According to claim 1,
The preset pattern is determined in response to a location or time at which the vehicle is parked, a method of controlling a vehicle security device. According to claim 1,
The re-adjustment is performed every preset period,
The readjustment step
checking the remaining amount of charge of the battery;
calculating an operating time of the security device;
checking whether the available operating time satisfies a preset pattern for the security level; and
resetting whether the security device operates when the available operating time does not satisfy the preset pattern
A method of controlling a vehicle security device comprising a. According to claim 1,
The security device comprises at least one of an Around View Monitoring system (AVM), a front and rear camera, an ultrasonic sensor, and a vibration sensor, a method of controlling a security device for a vehicle. According to claim 1,
When the remaining amount of charge of the battery is lower than a preset level, forcibly adjusting the security level to reduce the operation time of the security device or stop the operation of the security device
Further comprising, a method of controlling a vehicle security device. According to claim 1,
transmitting the security level or whether the security device operates to a designated terminal through a wireless communication network; and
In response to the data or signal transmitted from the terminal, adjusting the security level or resetting whether the security device operates
Further comprising, a method of controlling a vehicle security device. According to claim 1,
The readjustment step
activating only a vibration sensor among the at least one security device;
activating another security device when vibration is sensed from the vibration sensor; and
deactivating the other security device when the vibration is not detected from the vibration sensor
Further comprising, a method of controlling a vehicle security device. According to claim 1,
The security level consists of a plurality of steps,
A method for controlling a security device for a vehicle, wherein the change in the plurality of steps can be made sequentially or arbitrarily. According to claim 1,
The security level consists of a plurality of steps,
The method of controlling a security device for a vehicle, wherein the change in the plurality of steps is determined according to the location of the vehicle and the current time. According to claim 1,
The security level consists of a plurality of steps,
A method for controlling a security device for a vehicle, wherein a change in the plurality of steps is determined in response to an output of the security device. According to claim 1,
storing a correspondence between the parking history of the vehicle and the security level for a preset period;
determining a user preference according to an analysis of the stored correspondence; and
determining the preset pattern in response to the user preference
Further comprising, a method of controlling a vehicle security device. A computer readable record in which an application program is recorded, characterized in that through being executed by a processor, the method for controlling the vehicle security device according to any one of claims 1 and 3 to 13 is realized media. At least one security device mounted on the vehicle or interlocking with the vehicle and an energy monitoring unit for checking power consumption of the security device and checking a state of charge of a battery mounted on the vehicle;
Based on the remaining charge amount of the battery and power consumption of the security device, the operating time of the security device is calculated while the vehicle is parked, and whether the security device operates in response to the calculated available operating time Energy management department to decide; and
Energy control unit for readjusting whether the security device operates or not and the operation time in response to a preset pattern for the security level
includes,
The security level is determined by whether the at least one security device operates and an operation time,
Whether the security device operates includes selecting at least one security device from among a plurality of security devices and adjusting an operating current of the selected security device. delete 16. The method of claim 15,
The preset pattern is determined by a user selecting whether to operate the at least one security device or setting an operation time, an apparatus for controlling a security device for a vehicle. 18. The method of claim 17,
An apparatus for controlling a vehicle security device, wherein whether the at least one security device operates and the operating time can be set through an input/output means of a multimedia device mounted on the vehicle or interworking with the vehicle. 16. The method of claim 15,
The preset pattern is determined in response to a location or time at which the vehicle is parked, a device for controlling a security device for a vehicle. 16. The method of claim 15,
The energy control unit readjusts whether or not the security device operates and the operation time at every preset period,
The energy control unit
Check the remaining charge of the battery,
calculating the operating time of the security device,
Checking whether the operating time satisfies a preset pattern for the security level,
When the available operation time does not satisfy the preset pattern, the device for controlling the vehicle security device to reset whether the operation of the security device. 16. The method of claim 15,
The security device comprises at least one of an around view monitoring system (AVM), a front and rear camera, an ultrasonic sensor, and a vibration sensor, an apparatus for controlling a security device for a vehicle. 16. The method of claim 15,
When the energy monitoring unit determines that the remaining amount of charge of the battery is lower than a preset level, the energy control unit forcibly adjusts the security level to reduce the operation time of the security device or stop the operation of the security device, vehicle security The device that controls the device. 16. The method of claim 15,
A communication unit that transmits the security level or whether the security device operates to a designated terminal through a wireless communication network, and adjusts the security level or resets whether the security device operates in response to data or signals transmitted from the terminal
Further comprising a device for controlling the vehicle security device. 16. The method of claim 15,
The energy control unit
After activating only the vibration sensor among the at least one security device,
When vibration is detected from the vibration sensor, another security device is activated,
When the vibration is not detected from the vibration sensor, the device for controlling the security device for a vehicle to deactivate the other security device. 16. The method of claim 15,
The security level consists of a plurality of steps,
The energy control unit sequentially or arbitrarily performs the change in the plurality of steps, a device for controlling a vehicle security device. 16. The method of claim 15,
The security level consists of a plurality of steps,
The energy control unit determines the change in the plurality of steps according to the location of the vehicle and the current time, the device for controlling the security device for a vehicle. 16. The method of claim 15,
The security level consists of a plurality of steps,
The energy control unit determines a change in the plurality of steps in response to an output of the security device, the device for controlling the security device for a vehicle. 16. The method of claim 15,
The energy control unit stores the correspondence between the parking history of the vehicle and the security level for a preset period in a storage device,
Determination of user preference according to the analysis of the stored correspondence,
A device for controlling a vehicle security device that determines the preset pattern in response to the user preference. 16. The method of claim 15,
The energy control unit
When the remaining amount of charge of the battery is low, the device for controlling the vehicle security device to start the vehicle through a starting device to charge the battery.

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