KR20170066934A - Intelligent parking enforcement system and providing method thereof - Google Patents

Abstract

An intelligent intermittent intermittent intermittent system and a method for providing the same are disclosed. The intelligent intermittent intermittent intermittent system according to an embodiment of the present invention includes an image acquisition module for acquiring image data for a predetermined detection area, image data acquired by the image acquisition module, A determination module for determining whether the network is disconnected, a storage module for storing at least a part of the image data acquired by the image acquisition module, and a determination module for determining whether the network is disconnected The control module controls the communication module to transmit the image data stored in the storage module to the control system when the disconnected network is restored, .

Description

TECHNICAL FIELD [0001] The present invention relates to an intelligent parking enforcement system and a method for providing the intelligent parking enforcement system,

The present invention relates to an intelligent intermittent intermittent intermittent system and a method of providing the same. More particularly, the present invention relates to an intelligent intermittent intermittent intermittent system A system and method for controlling illegal parking of a vehicle without interrupting the network even if the network between the image acquiring means and the control system is disconnected .

A control system that is fixedly installed at a predetermined position to photograph a predetermined detection area, acquires image data, and can control illegal driving of a vehicle or violation of traffic regulations by using acquired image data is widely known.

In the case of a general control system, an IP camera connected to a network and capable of transmitting image data photographed by a predetermined external system (for example, a control system or an image analysis system) is installed in the detection area, The image data is analyzed in the external system, and the interception of the illegally parked car is performed.

There is a possibility that the network between the IP camera and the external system, for example, the control system, may be disconnected by various factors. For example, there is a possibility that the communication function of the IP camera itself is defective or a natural disaster such as a fire, a typhoon, Or other obstacles may be present in the network.

When the network connection between the IP camera and the control system is cut off, the control system can not receive the image data for interrupting the network during the disconnected time from the IP camera, do.

Also, as the period of time from when the network is disconnected to the time when the network is restored becomes longer, the gap of the intermittent operation also becomes longer, which is a serious obstacle to fair interception and continuous interception.

Therefore, in a control system in which video data is transmitted through a network, even if a network is disconnected, a technical idea is required to be able to acquire video data of a network disconnect interval without loss.

In addition, even if the network disconnection period becomes long, a technical idea that enables the acquisition of image data corresponding to the network disconnection interval more efficiently is required.

Korean Registered Patent (Registration No. 10-0538526, "Unauthorized Intervention System of illegal parking vehicles")

SUMMARY OF THE INVENTION Accordingly, it is a technical object of the present invention to provide an image processing apparatus and a method of controlling the same, in which, when a network between an image acquiring unit (for example, an IP camera) The image data obtained during the interval in which the network is disconnected is separately stored in the image acquiring unit and the image data corresponding to the network disconnection interval is transmitted to the control system when the network is restored, So as to prevent the occurrence of blanking of the intermittent interruption.

In addition, when the network disconnection period is long, it is possible to reduce the capacity of the separately stored image data, thereby providing more efficient image data during the network disconnection period.

According to an aspect of the present invention, there is provided an intelligent intermittent intermittent intermittent system comprising an image acquisition module for acquiring image data for a predetermined detection area, a control system connected to the control system via a network, A determination module for determining whether the network is disconnected; a storage module for storing at least a part of the image data acquired by the image acquisition module; The image data stored after being disconnected is stored in the storage module if the network is disconnected by the module and the video data stored in the storage module is transmitted to the control system when the disconnected network is restored, And a control module for controlling the communication module .

Also, the storage module may include a temporary area and a storage area, wherein the control module stores at least a part of the image data obtained when the network is not disconnected in the temporary area and is transmitted to the control system Wherein the control module controls the communication module and stores the image data obtained after the disconnecting time in the storage area if the network is disconnected by the determination module and stores the image data in the storage area when the disconnected network is restored And the control module controls the communication module to transmit the video data to the control system.

In addition, when the determination module determines that the network is disconnected, the control module moves at least a part of the image data stored in the temporary area to the storage area and stores the moving image.

The control module further stores time information on the time at which the image data is acquired by the image acquisition module in the storage module, and when the disconnected network is restored, And further transmitting corresponding time information to the control system.

The control module may reduce the capacity of the image data acquired by the image acquisition module after the disconnecting time, and store the reduced image data in the storage module.

The control module may reduce the capacity of image data obtained after a predetermined time elapses from the disconnection point and store the reduced image data in the storage module.

The control module may reduce the capacity of the image data by compressing the image data or reducing the resolution of the image data.

The determination module further determines whether or not the network that has been disconnected is restored. When the determination module determines that the network has been restored, the control module stops storing image data obtained from the restoration time point .

According to another aspect of the present invention, there is provided a method for providing an intelligent intermittent intermittent intermittent system, including: obtaining image data for a predetermined sensing area of an intelligent intermittent intermittent intermittent system; Determining whether or not the network is disconnected from the control system connected to the intelligent parking system through the network; if it is determined that the network is disconnected, the intelligent parking system is obtained after the disconnecting point Storing the image data, and transmitting the image data, in which the intelligent intermittent intermittent control system has been stored, to the control system when the disconnected network is restored.

In addition, the step of storing at least a part of the image data obtained by the intelligent intermittent intermittent control system may include the steps of: if the network is not disconnected, the intelligent intermittent intermittent system storing at least a part of the image data in the temporary area; And storing the image data obtained after the disconnection point in the storage area when the intelligent intermittent intermittent intercept system determines that the network is disconnected, wherein the intelligent intermittent intermittent intermittent system transmits the stored image data to the control system Wherein the intelligent state intermittent control system transmits at least a part of the image data stored in the temporary area to the control system when the network is not disconnected, and when the network that has been disconnected is restored, Intermittent system The image data that was stored in the storage may comprise further transmitted to the control system.

In addition, the step of storing at least a part of the acquired image data of the intelligent intermittent intermittent intermittent control system may include the step of, when it is determined that the network is disconnected, And storing the moving image.

The step of storing at least a part of the image data obtained by the intelligent intermittent intermittent interception system may further include the step of storing time information about a time at which the intelligent intermittent intermittent interception system acquires the image data, The step of transmitting the image data in which the intermittent system was stored to the control system includes transmitting the time information corresponding to the image data in which the intelligent intermittent intermittent control system has been stored to the control system when the disconnected network is restored .

In addition, the step of storing the image data obtained after the disconnection time of the intelligent intermittent intermittent intermittent system may include a step of saving the capacity of the image data acquired after the intermittent time point by the intelligent intermittent intermittent intermittent system.

Also, the step of reducing the capacity of the image data obtained after the disconnection point of time by the intelligent intermittent intermittent intermittent system may be performed by reducing the capacity of the image data acquired after a predetermined time elapses from the disconnection time point of the intelligent intermittent intermittent system .

The step of reducing the capacity of the image data obtained after the disconnection point of the intelligent intermittent intermittent intermittent system may further include the steps of compressing the image data by the intelligent intermittent intermittent intermittent system, And lowering the resolution.

The step of determining whether or not the network is disconnected from the control system connected to the intelligent parking regulation system through the network may further include a step of determining whether the network has been disconnected from the intelligent parking regulation system, The method may further include stopping the storage of the image data obtained from the restoration point when the intelligent intermittent intermittent intermittent system determines that the network has been restored.

The method for providing the intelligent parking regulation system may be implemented by a computer program installed in the data processing apparatus.

According to the technical idea of the present invention, in a case where the network between the image acquisition means (image capturing / recording image) (for example, IP camera) for acquiring image data and the control system for judging and controlling illegal parking is disconnected, When the network is restored, the video data corresponding to the stored video data, that is, the video data corresponding to the network disconnection interval, is transmitted to the control system, so that even when the network is disconnected, There is an advantageous effect that it is possible to prevent a blank from occurring.

In addition, when the network disconnection period is long, the capacity of image data to be separately stored can be reduced, and image data can be obtained more efficiently during the network disconnection period.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited in the description of the invention.
FIG. 1 shows a schematic configuration of an intelligent constant-speed intermittent-speed control system according to an embodiment of the present invention.
Fig. 2 shows an example of a case where the network between the image acquisition means and the intermittent system is disconnected.
3 illustrates an example in which image data is stored when the network between the image acquisition unit and the intermittent system is disconnected according to the embodiment of the present invention.
4 shows a schematic flow of a method of providing an intelligent constant-traffic intervention system according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Also, in this specification, when any one element 'transmits' data to another element, the element may transmit the data directly to the other element, or may transmit the data through at least one other element Data may be transmitted to the other component.

Conversely, when one element 'directly transmits' data to another element, it means that the data is transmitted to the other element without passing through another element in the element.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 shows a schematic configuration of an intelligent constant-speed intermittent-speed control system according to an embodiment of the present invention.

Referring to FIG. 1, an intelligent intermittent intermittent system 100 according to an embodiment of the present invention includes an image acquisition module 110, a communication module 120, a determination module 130, a storage module 140, and a control module 150).

The intelligent intermittent intermittent intermittent system 100 may be implemented in the form of an IP camera connected to a network and capable of transmitting acquired image data to a predetermined external system (e.g., the control system 200). The intelligent intermittent intermittent system 100 may be installed in a predetermined detection area (for example, a parking prohibited area, etc.) to acquire image data for the predetermined detection area and transmit the acquired image data to the control system 200, The system 200 receives and analyzes the image data and can control the illegal driving vehicle within the detection area.

Here, the control system 200 recognizes and extracts the vehicle number of the image data, determines whether or not the vehicle is parked or stopped without moving for more than a predetermined time at the same place, And may be implemented in a form including, for example, a predetermined server, but is not limited thereto. The technical idea of analyzing predetermined image data and recognizing characters, numbers and the like is well known, so that a detailed description thereof will be omitted here.

The control module 150 may include other components (such as the image acquisition module 110, the communication module 120, the determination module 130, and / or the storage module 140) to implement the technical concept of the present invention. Can be controlled.

Herein, a module may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the module may mean a logical unit of a predetermined code and a hardware resource for executing the predetermined code, and it does not necessarily mean a physically connected code or a kind of hardware. Can be easily deduced to the average expert in the field of < / RTI > Accordingly, the module refers to a combination of hardware and software that performs the functions defined herein, and does not mean a specific physical configuration.

The image acquisition module 110 may acquire image data while photographing the detection area, and the communication module 120 may transmit the image data acquired by the image acquisition module 110 to the control system 200 Lt; / RTI > For example, the image acquisition module 110 may be implemented as an IP camera capable of PTZ (Pan, Tilt, Zoom) control and network communication, but the scope of the present invention is not limited thereto.

Also, in the present specification, the image data may be used to include both real-time image information captured by the image acquisition module 110, or still image, that is, image information.

The control module 150 may control the communication module 120 to transmit the image data acquired by the image acquisition module 110 to the control system 200 in real time, To be transmitted.

According to the embodiment of the present invention, a part of the image data acquired by the image acquisition module 110 may be transmitted to the control system 200, which will be described later, And may be transmitted to the control system 200. [0050] For convenience of explanation, the area of the storage module 140 in which the image data is temporarily stored is defined as a temporary area. The image data stored in the temporary area may be transmitted to the control system 200 in real time and / or continuously. For example, the image data stored in the temporary area may be transmitted to the control system 200 in a streaming manner by the communication module 130 and / or the control module 150.

If the capacity of the stored image data exceeds the capacity of the temporary area, the image data stored in the previous time is sequentially deleted and newly acquired Video data can be stored. For example, when the stored image data exceeds the capacity of the temporary area (or approaches the limit capacity of the temporary area), the newly acquired image data is overwritten with the stored image data Lt; / RTI >

In this case, when the image data is stored in the storage module 140, the storage module 140 may store not only the image data, but also time information about a time at which the image data was acquired (photographed). The time information may be stored in at least one of the temporary area of the storage module 140 or the storage area separated from the temporary area. The storage area will be described later.

The detection area may be preset by an administrator operating the control system 200 and / or an administrator operating the intelligent intermittent intermittent system 100. For example, the detection zone may be an illegal parking prohibited zone.

On the other hand, according to an embodiment, a region where a violation of various traffic regulations may occur, such as an intersection with a traffic light or a crosswalk, may be set as the detection area. In this case, the intelligent intermittent intermittent vehicle interception system 100 may be implemented not only for interrupting illegal driving, but also for interrupting various traffic regulations (for example, signal violation, etc.) of the vehicle under driving.

In the following description, the detection area is a parking prohibited area, and the intelligent parking control system 100 captures the prohibited parking area and acquires image data and transmits it to the control system 200. However, The scope of rights is not limited thereto.

The communication module 120 is connected to the control system 200 via a wired or wireless network and communicates with the control system 200 so that the image data captured by the image acquisition module 110, (At least a part of the image data stored in the temporary area) to the control system 200. The communication module 120 may be connected to the communication system 120 through a communication network, such as a fault of the communication module 120 itself or a natural disaster such as a fire, a typhoon, The network may be disconnected due to various factors such as collision.

When the network between the communication module 120 and the control system 200 is disconnected, the intelligent intermittent intermittent system 100 can acquire image data by the image acquisition module 110, The acquired image data can not be transmitted to the control system 200. Therefore, in the control system 200 that analyzes the image data and performs the actual interception, there is a problem that the interruption of the intermission is inevitable during the network disconnection period. The case where the network is disconnected will be described with reference to FIG.

Fig. 2 shows an example of a case where the network between the image acquisition means and the intermittent system is disconnected.

Referring to FIG. 2, the intelligent intermittent intermittent intermittent system 100 according to the embodiment of the present invention can acquire (photograph / record) image data through the image acquisition module 110, May be transmitted to the server, i. E., The control system 200, via the module 120.

At this time, as shown in the figure, the network may be disconnected at a predetermined time. Then, the intelligent intermittent intermittent intermittent system 100 can recognize the disconnection of the network.

Referring back to FIG. 1, the intelligent intermittent intermittent system 100 may include a determination module 130 for determining whether a network is disconnected and / or whether a disconnected network is restored. Hereinafter, a point in time when the network is disconnected by the determination module 130 and a point in time when the network is disconnected by the determination module 130 is defined as a restoration point. The disconnecting time and / or the restoring time may not necessarily coincide with the time when the network is actually disconnected and the time when the network is actually restored. For example, the determination module 130 may determine that the network is disconnected after the network is actually disconnected after a predetermined period of time, depending on a determination method, a network environment, a surrounding environment, or the like. It may be determined that the network has been restored.

Referring again to FIG. 2, the image data obtained in the section indicated by the dashed line, that is, the section where the network is disconnected, as shown in the drawing, can not be transmitted to the control system 200 as described above, The video data of the section where the network is disconnected can not be secured. When the network is restored, the control system 200 can receive image data from the intelligent intermittent intermittent intermittent system 100 again. However, the image data that the control system 200 can acquire can be transmitted from the network There is a problem in that intermittent blanking may occur. Especially, when the restoration work of the network becomes long, the gap of the interception becomes long and there is a problem that fair and smooth interception can not be achieved.

In order to solve such a problem, according to the technical idea of the present invention, the intelligent intermittent intermittent intermittent system 100 separately stores image data obtained when a network is disconnected, and when the network is restored, It is possible to enable intermittent interruption without blank period by transmitting to the control system 200. An example of such a case will be described with reference to Fig.

3 illustrates an example in which image data is stored when the network between the image acquisition unit and the intermittent system is disconnected according to the embodiment of the present invention.

Referring to FIG. 3, the intelligent intermittent intermittent intermittent system 100 according to an embodiment of the present invention may transmit image data obtained by the image acquisition module 110 to the control system 200 as described above. If it is determined that the network is disconnected by the determination module 130 at a predetermined time, the control module 150 stores the image data acquired by the image acquisition module 110 after the network disconnect time May be stored in the module (140).

The storage module 140 may include any type of recording device or storage medium that stores data that can be read by a computer system. For example, the storage module 140 may be implemented in various forms such as a hard disk or a memory.

As described above, the image data stored in the storage module 140 after the disconnection of the network is separated from the temporary area of the storage module 140, that is, the area where the image data is stored before the network is disconnected Lt; / RTI > Hereinafter, for convenience of description, a region in which image data is stored after the point of time when the network is disconnected is defined as a storage region.

The temporary area and the storage area may be implemented as a separate storage medium physically separated according to an embodiment, or may be implemented as a separate area logically divided in one storage medium. In any case, the control module 150 may divide and store the image data obtained when the network is disconnected and not when the network is disconnected, into the temporary area and the storage area.

According to an example, the control module 150 may store the image data acquired by the image acquisition module 110 in a state where the network is activated, in real time, without storing the image data in the storage area of the storage module 140 When the determination module 130 determines that the network is disconnected, the image data acquired after the disconnecting time of the network may be stored in the storage area.

When the network is restored, the control module 150 transmits the image data stored in the storage area of the storage module 140, that is, the image data corresponding to the network disconnection interval, to the control system 200 The communication module 120 can be controlled. Then, the control system 200 can secure even the image data of the disconnected section without loss, and it is possible to eliminate the blanking of the intermittence.

At this time, according to an embodiment, when the network is restored and the image data corresponding to the network disconnection interval (that is, the image data stored in the storage area) is transmitted to the control system 200, And may further be configured to transmit image data (i.e., image data stored in the temporary area) a predetermined time before the disconnected time of the network.

According to one embodiment, when the network is disconnected, the control module 150 may move the image data stored in the temporary area of the storage module 140 to the storage area and store the image data. The image data obtained after the disconnected time of the network can be stored together with the image data moved from the temporary area to the storage area. Then, when the control module 150 transmits the image data stored in the storage area to the control system 200 after the network is restored, the image data of a predetermined time before the disconnection point and the image data Video data can be transmitted together.

This is because when the determination module 130 determines whether the network is disconnected, a predetermined time interval may occur between the time when the actual network is disconnected and the time when the determination module 130 determines that the network is disconnected, , When some of the image data before the time of disconnection of the network (i.e., the time when the network is determined to be disconnected by the determination module 130) are stored together as in the technical idea of the present invention, intermittent blanking occurs even during this time interval This is because it has the effect of greatly reducing the amount of space available.

In this case, according to the embodiment of the present invention, the control module 150 may store the time information on the time at which the image data is acquired when the image data is stored in the storage module 140, And transmits the video data and the time information together when being transmitted to the control system 200. Accordingly, even if there is a difference between the time when the actual network is disconnected and the time when the network is determined to be disconnected by the determination module 130, the control system 200 can easily check the lost video data Can have an effect that can be achieved.

On the other hand, when the network is disconnected and the restoration is delayed for a long time, that is, when the disconnection of the network is prolonged, the capacity of the image data corresponding to the network disconnection interval becomes large. If the capacity of the image data exceeds the storage capacity of the storage module 140, there is a risk that blanking may occur in the interception of the image data.

In order to prevent such a risk, the storage capacity of the storage module 140 may be as large as possible. However, the cost for the storage module 140 may be increased more than necessary.

Therefore, according to the technical idea of the present invention, the control module 150 compresses the image data corresponding to the section where the network is disconnected, that is, the image data stored in the storage area of the storage module 140 in a predetermined manner, The capacity of the image data to be stored in the storage area can be reduced by lowering the resolution of the image data obtained during the period in which the network is disconnected. Of course, when the resolution of the stored image data is lowered, the resolution can be prevented from being lowered below a certain level that allows the control system 200 to recognize and extract the vehicle number. Thereby, even when the time for disconnecting the network is prolonged, it is possible to have an advantageous effect that the blank space of the intermittent operation can be minimized.

According to an embodiment of the present invention, when the video data, which is disconnected from the network and stored in the temporary area, is moved to the storage area as described above, the video data stored in the temporary area may be compressed in a predetermined manner, Can be reduced.

4 shows a schematic flow of a method of providing an intelligent constant-traffic intervention system according to an embodiment of the present invention.

Referring to FIG. 4, the intelligent intermittent intermittent intermittent system 100 according to the embodiment of the present invention can acquire image information through the image acquisition module 110 (S100).

Then, the intelligent intermittent intermittent system 100 may determine whether the network connected to the control system 200 is disconnected (S110). If the determination result (s120) and the network are not disconnected, the image data obtained as described above may be transmitted to the control system 200 (s130).

However, if the determination result (S120) indicates that the network is disconnected, the intelligent intermittent intermittent system 100 may store the acquired image data in the storage module 140 (S140). At this time, the intelligent intermittent intermittent intermittent system 100 may save the capacity of the stored image data. For example, the intelligent intermittent intermittent intermittent system 100 compresses image data obtained after a disconnecting point, which is determined to be disconnected from the network, or decreases the resolution of image data obtained after the intercepting time, Can be reduced.

Then, the intelligent intermittent intermittent system 100 may determine whether the disconnected network has been restored (S150). As a result of the determination, if the network is not restored, the acquired image data can be continuously stored in the storage module 140.

As a result of the determination, if the network is restored, the intelligent intermittent intermittent intermittent system 100 transmits the image data obtained during the disconnected period to the control system 200 (S160) .

The method for providing the integrated vehicle control system according to an embodiment of the present invention can be implemented as a computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a hard disk, a floppy disk, an optical data magnetic storage device, and the like in the form of a carrier wave (for example, . The computer readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers skilled in the art to which the present invention pertains.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (17)

An image acquisition module for acquiring image data for a predetermined detection area;
A communication module connected to the control system through a network and transmitting the image data acquired by the image acquisition module to the control system;
A determination module for determining whether the network is disconnected;
A storage module in which at least a portion of the image data acquired by the image acquisition module can be stored; And
If the determination module determines that the network is disconnected, stores image data obtained from a time point after the disconnection point in the storage module,
And a control module for controlling the communication module to transmit image data stored in the storage module to the control system when the disconnected network is restored.
2. The apparatus of claim 1,
A temporary area and a storage area,
The control module includes:
At least a part of the image data obtained when the network is not disconnected is stored in the temporary area and is controlled to be transmitted to the control system,
If the determination module determines that the network is disconnected, the image data acquired after the disconnecting time is stored in the storage area,
Wherein the controller controls the communication module to transmit the image data stored in the storage area to the control system when the disconnected network is restored.
3. The apparatus of claim 2,
Wherein if the network is determined to be disconnected by the determination module, at least a part of the image data stored in the temporary area is moved to and stored in the storage area.
The apparatus of claim 1,
Further storing time information on a time at which the image data is acquired by the image acquisition module in the storage module,
Wherein the controller further transmits time information corresponding to the image data stored in the storage module to the control system when the disconnected network is restored.
The apparatus of claim 1,
Wherein the capacity of the image data acquired by the image acquisition module after the disconnecting time is reduced and stored in the storage module.
6. The apparatus of claim 5,
Wherein the capacity of the image data obtained after a predetermined time elapses from the time of the disconnection is reduced and stored in the storage module.
6. The apparatus of claim 5,
And compresses the image data or reduces the resolution of the image data to reduce the capacity of the image data.
2. The apparatus of claim 1,
Further determining whether the network that has been disconnected is restored,
The control module includes:
Wherein when the determination module determines that the network has been restored, the storage of the image data obtained after the restoration time is stopped.
Acquiring image data for a predetermined detection area by the intelligent constant-speed intermittent system;
Storing at least a part of the image data obtained by the intelligent intermittent intermittent system;
Determining whether the intelligent parking system is disconnected from a control system connected through a network;
Storing the image data obtained after the disconnection time of the intelligent intermittent intermittent intermittent system when it is determined that the network is disconnected; And
And transmitting the stored video data to the control system when the disconnected network is restored, wherein the intelligent intermittent intermittent system transmits video data to the intelligent intermittent intermittent system.
10. The method as claimed in claim 9, wherein the step of storing at least a part of the image data obtained by the intelligent intermittent-
Storing at least a part of the image data in which the intelligent intermittent intermittent system is obtained in a temporary area when the network is not disconnected; And
Wherein the intelligent intermittent intermittent intermittent system stores image data obtained after the disconnecting time in a storage area if it is determined that the network is disconnected,
Wherein the step of transmitting the image data, in which the intelligent constant-speed intermittent control system is stored,
If the network is not disconnected, transmitting the at least a portion of the image data stored in the temporary area to the control system; And
Further comprising the step of, when the disconnected network is restored, further transmitting the image data stored in the storage area to the control system by the intelligent intermittent intermittent system.
11. The method as claimed in claim 10, wherein the step of storing at least a part of the image data obtained by the intelligent intermittent-
Further comprising moving the at least a portion of the image data stored in the temporary area to the storage area and storing the intelligent intermittent intermittent system when it is determined that the network is disconnected.
10. The method as claimed in claim 9, wherein the step of storing at least a part of the image data obtained by the intelligent intermittent-
Further comprising the step of storing time information on a time at which the intelligent intermittent intermittent control system acquires the image data,
Wherein the step of transmitting the image data, in which the intelligent constant-speed intermittent control system is stored,
Further comprising the step of, when the disconnected network is restored, transmitting the time information corresponding to the stored image data to the intelligent intermittent intermittent system.
10. The method of claim 9, wherein the step of storing the image data obtained after the disconnection time of the intelligent constant-
Wherein the intelligent intermittent intermittent intermittent system stores the reduced amount of image data acquired after the disconnecting time.
14. The method of claim 13, wherein the step of reducing the capacity of the image data obtained after the disconnecting time of the intelligent constant-
And storing the reduced amount of image data obtained after a predetermined time elapses from the disconnection point of the intelligent constant-speed intermittent system.
14. The method of claim 13, wherein the step of reducing the capacity of the image data obtained after the disconnecting time of the intelligent constant-
Compressing the image data by the intelligent constant-speed intermittent system; or
Wherein the intelligent intermittent intermittent intermittent system includes a step of lowering the resolution of the image data.
The method as claimed in claim 9, wherein the step of determining whether the network is disconnected from the control system connected to the intelligent parking system through the network comprises:
Further comprising the step of determining whether or not the network is restored when the intelligent intermittent intermittent system is disconnected,
The method of providing an intelligent constant-
Further comprising the step of, when it is determined that the network has been restored, stopping the storage of image data acquired from the restoration point of time by the intelligent intermittent intermittent intermittent system.
A computer program for performing the method according to any one of claims 9 to 16, installed in a data processing apparatus.

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