KR20180078593A - System for abnormality detection network bandwidth - Google Patents

Abstract

The present invention relates to a system for detecting network bandwidth abnormality, which comprises a network camera; a review means; a relay means; and an image storage means. The system for detecting network bandwidth abnormality can easily and simply detect network bandwidth abnormality as well as identifying which part of configuration of the system is abnormal to call a corresponding maintenance manager, thereby rapidly processing an obstacle.

Description

[0001] SYSTEM FOR ABNORMALITY DETECTION NETWORK BANDWIDTH [0002]

The present invention relates to a network bandwidth abnormality detection system, and more particularly, to a network bandwidth abnormality detection system capable of easily and simply detecting abnormality of a network bandwidth, The present invention relates to a network bandwidth abnormality detection system capable of quickly handling faults.

In recent years, network camera systems have been widely spread that incorporate networks such as CCTV cameras. This is advantageous in that a surveillance image can be easily identified using a network, for example, a PC or a smartphone connected to the Internet by connecting a router or a router to the camera.

These network cameras are often located away from the monitoring center to be monitored. However, there has been a problem that a camera is broken due to natural disasters such as deterioration of parts, lightning, power supply failure, network error, or the like, or images captured by a network camera are not transmitted smoothly.

However, in general, maintenance personnel do not reside around the camera, so an operator working at the control center will recognize the occurrence of a failure depending on whether the image is received. However, since the operator can not specify a specific obstacle occurrence site, the operator of the network camera system notifies the manufacturer of the obstacle and requests assistance.

As a result, A / S articles, etc., which are going to be supported, will also be sent to the site without knowing the specific location or cause of the disability, so as to diagnose the site and cause of the occurrence first, There is a problem in that the time and cost required for repairing the failure increase due to the replacement of the failed parts.

Thus, for example, in the "monitoring camera system equipped with the error self-diagnosis capability" disclosed in Patent Document 1, it is possible to reduce the time and cost for repairing the fault by allowing a staff member of the control center to identify the obstacle or cause of the camera And the like.

However, in the conventional technology as in Patent Document 1, there is a problem that only the obstacle of the camera itself can be grasped, and the trouble of the equipment for detecting the obstacle area of the camera or the problem related to the network can not be coped with.

In particular, in the case of a network problem, due to the limitation of the maximum transmission bandwidth of the network, the failure occurs even when the camera, the control center, and the intermediate network equipment are not obstacles.

That is, since the captured image transmitted by the camera, that is, the network image data, has a communication form similar to real-time video transmission, it is necessary to maintain not only a large transmission bandwidth but also a bandwidth quality in order to maintain the continuity and quality of the image.

Also, in the network camera system, a plurality of camera images installed on the field are collected and monitored by the control center. Therefore, more data is concentrated and more bandwidth is required from the camera side to the center side in the network side.

Accordingly, when the network band that can be processed by any one of the network stages constituting the network camera system is exceeded even over a short period of time (over the network band), the transmission of the photographed image is interrupted. Such problems occur irregularly, Checking the center equipment will not identify the cause.

Korean Patent No. 10-1205265

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a network band abnormality detection system capable of easily detecting a network band abnormality.

Another object of the present invention is to provide a network band abnormality detection system capable of promptly detecting a fault in a part of a system constitution and calling a maintenance person in charge.

The above object is achieved by a network band abnormality detection system according to the present invention, comprising: a network camera; Review means connected to the network camera; Relay means connected to said review means; And a control unit that receives the first captured image captured by the network camera through the relay unit to check whether the first captured image is abnormal and stores the first captured image when there is no abnormality in the first captured image, The reviewing means may transmit a review result of reviewing the second captured image captured by the network camera when the first captured image is abnormal, An image storage means for determining that the network bandwidth of the relay means is greater than the network bandwidth of the relay means; And a network bandwidth abnormality detection system including the network bandwidth abnormality detection system.

Here, a plurality of relay means are used, and path storage means for storing network path information between the image storage means and the network camera is further included, and the image storage means may have an abnormality in the first captured image And a control unit for determining a network path between the image storage unit and the network camera when the second image is not abnormal, comparing network path information stored in the path storing unit with network path information stored in the path storing unit, It is preferable to detect the occurrence of the relay means.

Preferably, the network path detected by the image storing means and the network path information stored in the path storing means are graphically compared with each other.

Preferably, the network path detected by the image storing means is configured of one or two of a first network path from the image storing means to the network camera, and a second network path from the network camera to the image storing means Do.

Here, it is preferable that the network camera and the reviewing unit are provided in a plurality corresponding to each other, and when an abnormality occurs in the reviewing unit, It is preferable to be configured to review the two photographed images.

Here, the image storage means may call a maintenance person in charge of the network camera if there is an abnormality in the result of reviewing the second shot image by the review means, and if there is no abnormality in the result of review of the second shot image by the review means It is preferable to call the maintenance person in charge of the relay means.

According to the present invention, a network band abnormality detection system capable of easily and simply detecting a network band abnormality is provided.

In addition, since it is possible to identify which part of the system constitutes an abnormality, and to call the corresponding maintenance person, the trouble can be quickly handled.

1 (a) and 1 (b) are block diagrams schematically showing a network band anomaly detection system according to a first embodiment of the present invention,
2 (a) and 2 (b) are block diagrams schematically showing a network band abnormality detection system according to a second embodiment of the present invention,
FIG. 3 is a flowchart illustrating a procedure of detecting a network band abnormality through the network band anomaly detection system according to the first and second embodiments of the present invention,
4A and 4B are diagrams showing a state in which the image storage means detects the first network path and compares the network path information stored in the path storage means with the network path information stored in the path storage means, ,
5A and 5B are diagrams showing a state in which the image storing means detects the second network path and compares the network path information stored in the path storing means with the network path information stored in the path storing means,
6 (a) and 6 (b) are diagrams for explaining a case where the video storage means detects the first network path and the second network path and compares the first network path and the second network path with the network path information stored in the path storing means, Fig.

Hereinafter, a network bandwidth anomaly detection system according to a first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 (a) and 1 (b) are block diagrams schematically showing a network band anomaly detection system according to a first embodiment of the present invention.

1 is a block diagram of a network bandwidth abnormality detection system according to a first embodiment of the present invention. The network bandwidth abnormality detection system according to the first embodiment of the present invention mainly includes a network camera 10, a review unit 20, a relay unit 30, (40).

The network camera 10 is also called an IP (Internet Protocol) camera. The network camera 10 can easily monitor a certain place without a separate recorder, and can easily view a monitored image using a PC or a smartphone connected to the Internet. The network camera 10 can be operated in a plurality of ways.

The review means 20 is a component connected to the network camera 10 and has a function of reviewing the photographed image photographed by the network camera 10. [ At this time, the examination means 20 examines the photographed image only when there is an instruction to review the photographed image under the control of the image storage means 40 described below. If there is no such instruction, (20) to the following relay means (30). At this time, regarding the reviewing means 20 to review the photographed image, the reviewing means 20 examines the photographed image in accordance with a separate control command, for example, an instruction from the system administrator, in addition to the control of the image storage means 40 It is possible.

The review means 20 may be attached to the network camera 10 or the relay means 30 or may be connected to the network camera 10 and the relay means 30 via a network.

The relay means 30 is a component connected to the review means 20 and is substantially located between the review means 20 and the image storage means 40.

The relay means 30 may be a device for relaying the network such as a router or a router and the relay means 30 may be used only between the review means 20 and the image storage means 40 Or a plurality may be arranged in series or in parallel, or in series and parallel.

The image storage means 40 is a component that receives the photographed image photographed by the network camera 10 through the relay means 30. [

Particularly, in the present invention, when the image storage means 40 examines whether or not the captured image transmitted from the relay means 30, that is, the first captured image, is abnormal and the first captured image is abnormal, ), That is, the second photographed image newly photographed by the network camera 10. That is, the first captured image is firstly reviewed by the image storing means 40. As a result, if there is an abnormality in the first captured image, the reviewing means 20 examines the second captured image and transmits the review result .

If there is an abnormality in the result of reviewing the second shot image through the review means 20, it can be determined that an abnormality has occurred in the network camera 10. If there is no abnormality in the second shot image, It is judged to be equal to or more than the network bandwidth of the network.

At this time, if the bandwidth is more than the network bandwidth of the relay means 30, data of a large bandwidth such as a photographed image of a camera is difficult to be transmitted, but data of a small bandwidth, for example, simple text data, can be transmitted. The examining means 20 instructs the reviewing of the second photographed image or the reviewing means 20 examines the second photographed image to the image storing means 40. [

If there is no abnormality as a result of examining the first captured image transmitted from the relay means 30, it is stored in the image storing means 40.

The video storage means 40 may use a network video recorder (NVR). The network video recorder is a device for video recording, monitoring, event management, playback, etc. of a camera or a video server installed on a network. The network video recorder has a function of receiving digital video through the network camera 10 and compressing and storing the digital video.

2 (a) and 2 (b) are block diagrams schematically showing a network band anomaly detection system according to a second embodiment of the present invention.

As shown in Figs. 2 (a) and 2 (b), the configuration of the network band anomaly detection system according to the second embodiment of the present invention is almost the same as that of the first embodiment described above, Different from the first embodiment in that the path storing means 50 is further included.

First, as described in the first embodiment, the image storage means 40 examines whether or not the first photographed image is abnormal. If there is an abnormality in the first photographed image, the second photographed image is reviewed As a result of examining the second photographed image through the reviewing means 20, if there is an abnormality in the second photographed image, it can be determined that an abnormality has occurred in the network camera 10.

On the other hand, if there is no abnormality in the second captured image, that is, in the image storing means 40, it is considered that there is an abnormality in the first captured image. However, It is possible to determine that an abnormality (error) has occurred in the relay means 30, which is not an abnormality of the camera 10, that is, an abnormality in the network bandwidth has occurred.

Most of the network problems are likely to be an error of the relay means 30, in particular, more than the network bandwidth, and it is difficult to know which relay means 30 has caused the network bandwidth abnormality as the number of the relay means 30 increases do.

In the second embodiment of the present invention, the path storage unit 50 for storing the network path information between the video storage unit 40 and the network camera 10 is further included, And to detect the relay means 30 that has occurred.

That is, in constructing the network bandwidth anomaly detection system according to the present invention, the network path information is grasped in advance and stored in the path storage unit 50. In case of using the network network disclosed through the network service provider, IP address of the network is changed, and stores it in the path storing means 50. [

If it is determined that the network bandwidth abnormality has occurred in the relay means 30, that is, if there is an abnormality in the first captured image as a result of the review by the video storage means 40, When it is considered that there is no abnormality, the image storing means 40 grasps the current network path between the network camera 10 and the image storing means 40.

The current path information thus identified is compared with the path information stored in the path storing means 50 to detect the relaying means 30 in which an error has occurred.

On the other hand, it is preferable that the network camera 10 and the review means 20 are provided in a plurality corresponding to each other. Thus, when the review means 20 fails, it can be configured to review the image transmitted from the network camera 10 via another review means 20 connected to the network band abnormality detection system. In other words, the second image taken by the network camera 10 is reviewed using the channel remaining in the other review means 20 located near the review means 20, It is possible to review the second photographed image in place of the review means 20 that can not perform the second photographed image.

At this time, whether or not the examination means 20 has failed can be determined by checking whether the examination means 20 executes a self-checking program so as to check for a failure, or the system administrator can check whether the examination means 20 is faulty have.

Now, the operation of the network band abnormality detection system according to the present invention will be described.

FIG. 3 is a flowchart illustrating a procedure in which network band anomaly detection is performed through the network band anomaly detection system according to the first and second embodiments of the present invention.

Although not shown in the figure, the route storage means 50 previously stores the previously acquired network route information.

3, the first photographed image generated according to the photographing of the network camera 10 is transmitted to the reviewing means 20 (S10), and the reviewing means 20 examines the first photographed image generated by the network camera 10 1 photographed image to the relay means 30 (S20).

The first photographed image transmitted to the relay means 30 is transmitted to the image storing means 40 at S30 and the image storing means 40 examines whether the first photographed image is abnormal or not at Step S40.

If it is determined that there is no abnormality in the first captured image, the image storing means 40 stores the first captured image (S50).

If there is an abnormality in the first captured image, the image storing means 40 controls the reviewing means 20 to review the second captured image different from the first captured image.

When the second photographed image newly photographed by the network camera 10 is transmitted (S60), the reviewing means 20 examines whether there is an abnormality (S70) and transmits the examination result to the image storing means 40 , If it is determined that there is an abnormality in the second captured image, it is determined that the network camera 10 is abnormal (S80). This determination may be performed by the image storage means 40, but may be configured by the review means 20 to perform its own operation.

The following is related to the first embodiment of the present invention. If it is judged that there is no abnormality in the second photographed image as a result of the examination through the review means 20 subsequent to the first embodiment, It can be determined that there is an abnormality between the storage means 40, that is, the relay means 30.

Accordingly, if there is no abnormality in the second photographed image after review by the reviewing means 20, the image storing means 40 grasps the current network route (S90).

At this time, the network path information of the system is obtained and stored in the path storing means 50, or information on a path passing until reaching a specified host, in order to grasp the current network path, Tracert, which is a command to track the delay time of the < / RTI >

The network path can be grasped from the image storage means 40 to the network camera 10, that is, from the right to the left in FIG. 1 (a) or FIG. 2 (a) (Second network path) from the left side to the right side in FIG. 1A or FIG. 2 (A) from the network camera 10 to the image storage means 40. FIG.

Therefore, when the network path is to be stored in the path storing means 50 or when the current network path is grasped, both the first network path and the second network path can be grasped, so that the network path can be grasped more reliably.

Thereafter, the current network path thus determined is compared with the network path information stored in the path storing means 50 (S100), and the relaying means 30 in which an error occurs is detected (S110).

4A and 4B are diagrams showing a state in which the image storing means detects the first network path and compares the network path information stored in the path storing means to detect the relay means in which the network bandwidth abnormality occurs .

4 (a), the image storage means 40 displays a first network path, that is, from the image storage means 40 to the network camera 10 in the right-to-left direction Progress is shown. Here, although two relay means 30-1 and 30-2 are shown as being used, more than two relay means may be used.

4 (a), if there is no abnormality in the first network path, the network path starting from the image storage means 40 to the network camera 10 is grasped. This is because the network path Information.

If there is a problem with the first network path, that is, before starting from the image storage means 40 and reaching the network camera 10 as shown in FIG. 4 (b), the specific relay means, for example, the relay means 30- 1 and 30-2 can not be grasped by the relay means 30-1 through the comparison with the network path information stored in the path storing means 50, -1), it can be determined that a network bandwidth error has occurred.

Here, the first network path information currently grasped and the path information stored in the path storing means 50 are graphically displayed, for example, as shown in FIGS. 4 (a) and 4 (b) It is preferable to display the image in the same shape as the figure.

That is, the present first network path is graphically represented by a figure, a figure, etc., and the network path information stored in the path storing means 50 is also graphically displayed as a figure or figure. So that the system manager intuitively can easily detect the relay means 30-1 in which the network bandwidth abnormality has occurred.

5A and 5B are diagrams showing a state in which a video storage means detects a second network path and compares the network path information stored in the path storage means with a relay path in which a network bandwidth abnormality occurs .

5A, the network path from the network camera 10 to the image storage means 40 is grasped, that is, from left to right in the drawing, When the second network path has a problem, it is compared with the network path information stored in the path storing means 50 as shown in FIG. 5 (b), and the relay means 30 -1, and 30-2 can be determined to have occurred in the relaying means 30-1.

6 (a) and 6 (b) are diagrams for explaining a case where the video storage means detects the first network path and the second network path and compares the first network path and the second network path with the network path information stored in the path storing means, Fig.

FIG. 6A shows a state in which both the first network path in FIG. 4A and the second network path in FIG. 5A are observed.

As shown in FIG. 6 (a), if there is no abnormality in the first and second network paths, the same network path as the network path information stored in the path storing means 50 is grasped.

However, when a network bandwidth error occurs in any one of the relay means 30-1 and 30-2 as shown in FIG. 4 (a) or FIG. 5 (a) It is possible to detect the relay means 30-1 even if only one of the first network path and the second network path is detected. However, if the relay means 30-1 and 30-2 all have a network bandwidth error, It is judged that only one of the relay means 30-1 and 30-2 of the relay means 30-1 has a network bandwidth abnormality and on the other hand the relay means 30-1 and 30 -2), it is regarded that only the relaying means 30-2 of the other one has a network bandwidth abnormality.

Accordingly, if the first and second network paths are grasped, the relay means 30 (30-1, 30-2) of the relay means 30-1 and 30-2 -1 and the network bandwidth abnormality has occurred in the other relay means 30-2 of the relay means 30-1 and 30-2 through the second network path .

As described above, in the present invention, when there is an abnormality in the result of examination of the second shot image by the equipment identified as having an abnormality, that is, the reviewing means 20, the abnormality of the network camera 10 is determined, And can call the person in charge of maintenance of the relay means (30) if there is no abnormality in the result of review of the second photographic image by the review means (20).

Usually, maintenance personnel are different for each local area such as a local construction company, a communication company for a local CCTV system, a communication company for a center CCTV system, and a center construction company.

Accordingly, it is possible to quickly identify whether the abnormality occurs in the network camera 10 or the relay means 30, and to call a maintenance person in charge of the equipment or network, that is, a cell phone, a PDA, And the like, it is possible to quickly deal with the failure.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: Network camera 20: Review means
30, 30-1, 30-2: Relay means 40: Image storage means
50: Path storage means

Claims (6)

A network band abnormality detection system comprising:
A network camera;
Review means connected to the network camera;
Relay means connected to said review means; And
Receiving the first captured image captured by the network camera through the relay means to check whether the first captured image is abnormal and storing the first captured image when there is no abnormality in the first captured image, The reviewing unit may transmit a review result of reviewing the second captured image captured by the network camera when there is an abnormality in the first captured image, Image storage means for determining that the network bandwidth of the relay means is greater than or equal to the network bandwidth of the relay means;
A network bandwidth abnormality detection system. The method according to claim 1,
A plurality of relay means are used,
Further comprising path storage means for storing network path information between the image storage means and the network camera,
Wherein the image storage means comprises:
And a network camera for recognizing a network path between the image storing means and the network camera when the first shot image is abnormal and the second shot image is not abnormal, Wherein the network bandwidth abnormality detection system is configured to compare the network path information and detect the relay means in which the network bandwidth abnormality occurs. 3. The method of claim 2,
Wherein the network path information obtained by the image storing means and the network path information stored in the path storing means are graphically compared with each other. The method according to claim 2 or 3,
Wherein the network path determined by the image storage means includes:
A first network path from the image storage means to the network camera, and a second network path from the network camera to the image storage means. 5. The method of claim 4,
Wherein the network camera and the reviewing unit are provided in a plurality corresponding to each other,
When an abnormality occurs in the reviewing means,
And to review a second photographed image transmitted from the network camera through a remaining channel of another review means connected to the network band anomaly detection system. 5. The method of claim 4,
Wherein the image storage means comprises:
A maintenance person in charge of the network camera is called if there is an abnormality in the result of reviewing the second shot image by the review means,
And a maintenance person in charge of the relay means is called when there is no abnormality in the result of reviewing the second shot image by the review means.

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