KR102058560B1 - IP camera fault management system and method for operating the same - Google Patents

Abstract

The present invention relates to an IP camera failure management system capable of overcoming limits of generating a case of not recognizing a failure situation of an IP camera and to an operating method thereof. The IP camera failure management system comprises an IP camera group (100g) of one preset regional unit including a plurality of IP cameras (100), a management device (200), a network (300), a management center (400), and a management staff terminal (500).

Description

IP camera fault management system and method for operating the same}

The present invention relates to an IP camera failure management system and operation method, and more particularly, to selectively reboot the power of the IP camera due to a problem of the conventional IP camera management system. This solves the problem of very troublesome and time-consuming, and it can be judged as a trouble situation if no signal is output from the stopped IP camera, but the same signal is continuously maintained among the IP cameras that have stopped recording and / or transmitting. The present invention relates to an IP camera failure management system and an operation method for overcoming a limitation in which a failure of an IP camera is not recognized in an idle state.

1 is a diagram illustrating a conventional IP camera management system. Referring to FIG. 1, when a load occurs in one or more of the plurality of IP cameras 10 installed for the purpose of urban security, the down IP camera 10 is communicated to the management center 40 by communication. The situation in which the IP camera 10 is not driven is reported, and the reported situation is confirmed by the administrator by hand every day, and then the administrator moves to a point where the down IP camera 10 is installed and reboots the camera to normalize it. Managed in a way.

In the conventional configuration, since the multiple IP cameras 10 in a specific area confirm whether or not the normal operation is performed by a single management device 20 through communication through the network 30, the dispatched administrator is operated. The configuration of rebooting the power of the stopped IP camera 10 through the management device.

In this case, since the communication between the management device 20 and the management center 40 utilizes the network 30, the report from the management device 20 to the management center 40 is driven by each IP camera 10. It is reported to the real time list through this management device.

The problem of the conventional IP camera management system is a very troublesome and time-consuming problem because the administrator has to go through the management device 20 to selectively reboot the power of the IP camera 10. If a signal is not output from the stopped IP camera 10, it may be determined as a fault condition, but if the video recording and / or transmitting operation is in an idle state that continuously generates the same signal among the stopped IP cameras, IP There is a limit that occurs when the failure of the camera 10 is not recognized.

Korean Patent Application No. 10-2012-0101601 "CCTV integrated management system"

The present invention is to solve the above problems, a problem of the conventional IP camera management system, in order to selectively reboot the power of the IP camera, because the administrator has to go through the management device is very cumbersome and time-consuming It is to provide an IP camera failure management system and operation method for solving the problem.

In addition, the present invention can be determined as a failure situation when the signal is not output from the IP camera is stopped, but in the idle (IDLE) state that continues to generate the same signal among the IP camera is stopped and video recording and / or transmission operation The purpose of the present invention is to provide an IP camera failure management system and an operation method for overcoming the limitation that occurs when an IP camera failure situation is not recognized.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a method of operating an IP camera failure management system according to an embodiment of the present invention is that each IP camera 100 constituting the IP camera group 100g is powered by a power management module 121. A first step of performing power management provided to the IP camera 100 from the outside through the study 140; Each IP camera 100 performs transmission and reception management for signals and data with the management center 400 through the network 300 according to the control of the transmission and reception unit 150 by the communication management module 122. Two steps; And the communication management module 122 for the real-time camera image captured by the IP camera 100 in real time by the management center 400 according to the power supply management by the power management module 121 for each IP camera 100. Performing a check on data received according to the communication management by the controller; Characterized in that it comprises a.

In this case, the first step, the power management module 121 through the power provided from the power supply unit 140, the I / O interface 110, the control unit 120, the storage unit 130, the transceiver unit 150 The power supply state provided to the imaging device (charge-coupled device image sensor) 160 may be managed.

In addition, in the second step, the power management module 121 and the communication management module 122 for managing the IP camera 100 are modularized so that each IP for detecting and managing a fault state and an idle state is added. By being formed in the camera 100, each IP camera 100 is characterized in that it is directly connected to the management center 400 through the network 300 to connect a data session.

In the third step, the signal and data generated while generating a real-time camera image captured by the IP camera 100 in real time according to the power supply management by the power management module 121 of the first step may be generated. A failure state in the management center 400 for the transmission and reception of data transmitted directly to the management center 400 through the network 300 according to the control of the transmission and reception unit 150 by the communication management module 122 of the second step and It checks for IDLE status detection and recovers automatically.

In order to achieve the above object, the IP camera failure management system according to the embodiment of the present invention, the IP camera from the outside through the power supply unit 140 of each IP camera 100 constituting the IP camera group (100g) ( Signals between the power management module 121 and the management center 400 through the network 300 in accordance with the control of the power management module 121 to perform the power management provided to 100 and the transmitting and receiving unit 150 of the IP camera 100 IP camera 100 including a communication management module 122 for transmitting and receiving data management; And according to the communication management by the communication management module 122 for the real-time camera image taken in real time by the IP camera 100 in accordance with the power supply management by the power management module 121 for each IP camera 100 A management center 400 which checks received data; Characterized in that it comprises a.

In addition, the power management module 121, through the power provided from the power supply unit 140, the I / O interface 110, the control unit 120, the storage unit 130, the transceiver 150, the imaging device (charge managing a power state provided to the coupled device image sensor (160).

In addition, the power management module 121 and the communication management module 122 for managing the IP camera 100 is modularized to be formed in each IP camera 100 for detecting and managing the added fault state and idle state. By doing so, each IP camera 100 is characterized in that it is directly connected to the management center 400 through the network 300 to connect a data session.

In addition, the signal and data generated during the generation of the real-time camera image photographed by the IP camera 100 in real time according to the power supply management by the power management module 121 is the transmission and reception unit 150 by the communication management module 122 According to the control on the check to check the fault status and the idle state (IDLE) status detection in the management center 400 for the transmission and reception of data directly transmitted to the management center 400 through the network 300 to automatically recover Characterized in that.

IP camera failure management system and operation method according to an embodiment of the present invention is very troublesome because the administrator has to go out and perform the management device to selectively reboot the power of the IP camera as a problem of the conventional IP camera management system And it provides the effect that can solve the time-consuming problem.

In addition, the IP camera failure management system and operation method according to another embodiment of the present invention, if the signal is not output from the stopped IP camera can be determined as a failure situation, but the image recording and / or transmission operation is stopped When the idle state (IDLE) state that the same signal is continuously generated among the IP cameras provides an effect that can overcome the limitation that the failure of the IP camera failure.

1 is a diagram illustrating a conventional IP camera management system.
2 is a diagram illustrating an IP camera failure management system 1 according to an embodiment of the present invention.
3 is a diagram illustrating an IP camera failure management system 1 according to another embodiment of the present invention.
4 is a block diagram illustrating components of the IP camera 100 in the IP camera failure management system 1 according to the embodiment of the present invention.
5 is a flowchart illustrating a method of operating an IP camera failure management system according to an embodiment of the present invention.

Hereinafter, the detailed description of the preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted when it is deemed that they may unnecessarily obscure the subject matter of the present invention.

In the present specification, when one component 'transmits' data or a signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component. This means that data or signals can be transmitted to other components.

2 is a diagram illustrating an IP camera failure management system 1 according to an embodiment of the present invention. 3 is a diagram illustrating an IP camera failure management system 1 according to another embodiment of the present invention.

Referring to FIG. 2, the IP camera failure management system 1 includes a group of IP cameras 100g, a network 300, a management center 400, and a predetermined zone unit, each of which includes a plurality of IP cameras 100. It may include a management agent terminal 500.

Meanwhile, referring to FIG. 3, in the IP camera failure management system 1, a plurality of IP camera groups 100g in units of a predetermined zone are formed as shown in FIG. 2, and the other components are the same as the network 300. The center 400 may include a management agent terminal 500.

Here, the management apparatus 200 shown by a dashed-dotted line in FIG. 2 is a configuration that is not basically required in the present invention, but when the system of the present invention is applied to an existing camera management system, or integrated management with other devices besides a camera Note that it may be applied where necessary. In addition, the management device 200 is configured to include a management interface for the recognition of the individual IP camera 100.

In addition, the management center 400 is specifically described the meaning of the server of the management center or PC of the management center representatively, the management center 400 is a DB (database) for storing the system operation and record data, etc. , 410).

4 is a block diagram illustrating components of the IP camera 100 in the IP camera failure management system 1 according to the embodiment of the present invention.

Hereinafter, the IP camera failure management system 1 shown in FIGS. 2 and 3 will be described in detail with reference to the components of the IP camera 100 of FIG. 4.

Referring to FIG. 4, the IP camera 100 includes an I / O interface 110, a controller 120, a storage 130, a power supply 140, a transceiver 150, The imaging device 160 may be included. The controller 120 may include a power management module 121 and a communication management module 122.

The power management module 121 may manage power provided to the IP camera 100 from the outside through the power supply unit 140. That is, the power management module 121 is connected to the I / O interface 110, the controller 120, the storage 130, the transceiver 150, and the imaging device through the power provided from the power supply 140. The power state provided to the coupled device image sensor 160 may be managed.

The communication management module 122 may manage transmission and reception of signals and data with the management center 400 through the network 300 under the control of the transceiver 150.

More specifically, the power management module 121 and the power management and communication management functions provided to each IP camera 100 in the management apparatus 200 of the conventional configuration of FIG. 1 for managing the IP camera 100, respectively; It is modularized into the communication management module 122 and is formed in each IP camera 100 for detecting and managing an added fault state and idle state. Each IP camera 100 is managed through a network 300 through a management center. A direct connection to 400 can be made to connect a data session.

Accordingly, the real-time camera image photographed by the IP camera 100 in real time according to the power supply management by the power management module 121 is networked under the control of the transceiver 150 by the communication management module 122. Check the transmission and reception of the data transmitted directly to the management center 400 through the 300.

In addition, according to another embodiment of the present invention, by providing a management interface to the management device 200 of the existing management device configuration as shown in FIG. 3, the management device 200 is channelized by each IP camera 100 in a predetermined area The operation confirmation signals for the plurality of IP cameras 100 may be collected and provided to the management center 300 through the network 300.

Meanwhile, the I / O interface 110 of the IP camera 100 may transmit / receive and transmit / receive management signals and / or management data of the management interface of the management apparatus 200 under the control of the controller 120. 200 controls the management interface to request management signals and / or management data to the I / O interface 110 of the IP camera 100 for each preset region ID and serial number of the IP camera 110 for each region ID. After receiving the information, the management signals and / or management data of the collected IP cameras 100 for each region ID are provided to the management center 300 through the network 300, thereby presently providing a plurality of IP cameras for each region ID. It may be possible to check whether the driving information of the (110). The management signal and / or the management data may be dummy image information or default image information.

The IP camera 100 or the management device 200 together with the power management module 121 and the communication management module 122 may be configured as a power management module among the IP cameras 100 in which image capturing and / or transmission operations are stopped. An additional sensing module may be additionally provided for detecting a case in which the IP camera 100 continuously generates the same signal through the 121 and / or the communication management module 122.

That is, the detection module that can be formed in the IP camera 100 or the management device 200 may perform detection of a fault state and an idle state, and for this purpose, in addition to each IP camera 100 described above, The power management module 121 and the communication management module 122 formed may be utilized. Hereinafter, a description will be given on the assumption that a sensing module is formed in the IP camera 100 for convenience of description, but it may be performed even when the management apparatus 200 connects a data session after remote access to the IP camera 100. .

The sensing module converts data transmitted from the IP camera 100 to the management center 400 through the network 300 as first data to nth data (n is a natural number of 3 or more) in order to detect a failure state in the first mode. If it is assumed, the communication management module 122 detects that the data missing between the first data to the n-th data is not sent to the management center 400 and the storage unit 130 of the IP camera 100 itself. If it is detected through reading to the storage unit 130 that such missing data is only accumulated and stored, it may be detected that a situation occurs by acting as a load factor for driving the IP camera 100. have.

The detection module is configured to be configured in the power management module 121 and the communication management module 122 modularized and installed in each IP camera 100, so that the failure of the individual IP camera is generated immediately through the network 300 through the management center ( By transmitting to 400, the display on the screen of the management center 400 can be checked.

Accordingly, while the failure status is checked in the management center 400 and an alarm is output through a screen or voice, the management agent does not dispatch the IP camera 100 in which the failure occurs to the management personnel. After remote access to the IP camera 100 through the network 300 according to the remote input through the input device, the reboot is performed by sending a reboot command through the control to the power management module 121, If the failure state is detected by the detection module even after rebooting, after extracting the location information according to the serial number of the IP camera 100 from the database 410, the serial number of the IP camera 100 to the management agent terminal 500, By transmitting the location information and the failure status information, the dispatcher who directly manages the management personnel operating the management personnel terminal 500 visits the IP camera 100 in which the failure status is detected. Can.

Here, the remote reboot of the IP camera 100 is a management agent recognizes the failure of the IP camera 100 is confirmed in real time and perform a direct reboot through the input device, or in real time in the server of the management center 400 The failure state of the reported IP camera 100 may be determined to automatically input a reboot signal of the IP camera 100.

In addition, by detecting the IP camera 100 in the idle state (IDLE) by the detection module to determine the failure situation can be managed more accurately whether the idle state (IDEL) state.

More specifically, the sensing module is configured by the power management module 121 to perform the detection of the idle state in the second mode, the I / O interface 110, the controller 120, and the storage 130. After measuring the power consumption of the external power provided to the transceiver 150 and the image pickup device 160, the power consumption of each measured component may be compared with the average power consumption of each component stored in the storage 130. Comparison can be performed.

Subsequently, the sensing module consumes less power than the first percentage set to the first quantitative value which is the amount of power consumed by the imaging device 160 and is the average power consumption of the imaging device 160. The second percentage (first percentage and second percentage) for the second quantitative value (the first and second quantitative values are the same or different positive integers), which is the average power consumption of the transceiver 150, is the same or different amount. IP camera 100 when at least one of the following) is satisfied, and the image signal generated by the imaging device 160 and the transmission signal transmitted by the transceiver 150 are continuously generated within a preset threshold period. It can be detected that the idle state of the (IDLE).

The sensing module immediately generates the idle state of the individual IP camera due to the configuration of the power management module 121 and the communication management module 122 modularized and installed in each IP camera 100. By transmitting to the management center 400 through, the display on the screen of the management center 400 can be checked.

Accordingly, while the idle state is checked in the management center 400 and an alarm is output through a screen or a voice, the manager manages the IP camera 100 in which the idle state occurs without dispatching to the management personnel. After remote access to the IP camera 100 through the network 300 according to the remote or automatic input through the input device in the server of the agent or management center 400, the control on the power management module 121 is controlled. Reboot is performed by sending a reboot command through, and when the idle state is detected by the detection module even after the reboot, after extracting the location information according to the serial number of the IP camera 100 from the database 410, management By transmitting the serial number, the location information, and the failure status information of the IP camera 100 to the agent terminal 500, the management personnel operating the management agent terminal 500 is detected I failure state A dispatch service that visits directly to the P camera 100 may be provided.

5 is a flowchart illustrating a method of operating an IP camera failure management system according to an embodiment of the present invention. Referring to FIG. 5, each IP camera 100 constituting the IP camera group 100g is a power management provided to the IP camera 100 from the outside through the power supply unit 140 by the power management module 121. Perform (S11). That is, in step S11, the power management module 121 is connected to the I / O interface 110, the control unit 120, the storage unit 130, the transceiver unit 150, through the power provided from the power supply unit 140, The power state provided to the charge-coupled device image sensor 160 may be managed.

After the step S11, each IP camera 100 controls signals and data between the IP camera 100 and the management center 400 through the network 300 under the control of the transmission / reception unit 150 by the communication management module 122. Transmit and receive management is performed (S12). More specifically, the power management and communication management functions provided to the IP camera 100 by modularizing the power management module 121 and the communication management module 122, respectively, by installing in each IP camera 100, The IP camera 100 may be directly connected to the management center 400 through the network 300 to connect a data session.

After step S12, the management center 400 communicates the real-time camera image photographed by the IP camera 100 in real time according to the power supply management by the power management module 121 for each IP camera 100. In operation S13, a check is performed on data received according to the communication management by the management module 122.

In more detail with respect to step (S13), according to the power supply management by the power management module 121 of step (S11) is a real-time camera image taken in real time by the IP camera 100 the communication of step (S12) In accordance with the control of the transmission and reception unit 150 by the management module 122, the check for transmission and reception of data transmitted directly to the management center 400 through the network 300 may be confirmed.

Meanwhile, after step S13, the IP camera 100 or the management device 200 together with the power management module 121 and the communication management module 122 are photographed by the additional configuration of the IP camera failure management system 1. And / or separate to detect a case in which the IP camera 100 continuously generates the same signal through the power management module 121 and / or the communication management module 122 among the IP cameras 100 in which the transmission operation is stopped. When additionally provided with a detection module, the detection module that can be formed in the IP camera 100 can perform the detection of the failure state and the idle (IDLE) state (S14), for each of the above-described IP camera 100 In addition, the power management module 121 and the communication management module 122 may be separately formed.

Hereinafter, a description will be given on the assumption that a sensing module is formed in the IP camera 100 for convenience of explanation. However, when a separate management device 200 is installed (as described above, a separate management device is not required. When the present invention is applied to a conventional system or when integrated management with other devices besides a camera may exist, a separate management device may exist), and a data session after remote access to the IP camera 100 through the management device 200. It can also be performed while connected.

That is, the sensing module transmits data transmitted from the IP camera 100 to the management center 400 through the network 300 to the management center 400 in order to detect a failure state in the first mode in step S14. If n is a natural number equal to or greater than 3), the communication management module 122 detects that data missing between the first data and the n-th data is not sent to the management center 400, and the IP camera 100 detects the data. When the storage unit 130 itself detects that such missing data is only accumulated through reading to the storage unit 130, the situation is caused by the load factor of driving the IP camera 100. This can be detected.

In addition, the detection module is managed through the network 300 immediately that the failure of the individual IP cameras due to the configuration of the power management module 121 and the communication management module 122 is modularized and installed in each IP camera 100. By transmitting to the center 400, the display on the screen of the management center 400 can be checked.

Accordingly, the failure status is checked in the management center 400 and an alarm is output through a screen or a voice so that the administrator does not dispatch the IP camera 100 in which the failure occurs to the management personnel. After remote access to the IP camera 100 through the network 300 according to the remote or automatic input through the input device in the server, the reboot through the transmission of a reboot command through the control to the power management module 121 When the failure state is detected by the detection module even after rebooting, after extracting the location information according to the serial number of the IP camera 100 from the database 410, the IP camera 100 to the management agent terminal 500 By transmitting the serial number, location information, and failure status information of the management personnel operating the management personnel terminal 500 directly visits the IP camera 100 is detected a failure status It can provide dispatch services.

In addition, by detecting the IP camera 100 in the idle state (IDLE) by the detection module in step (S14) it is possible to determine whether a more accurate idle state (IDEL) state can be managed.

More specifically, the sensing module is configured by the power management module 121 to perform the detection of the idle state in the second mode, the I / O interface 110, the controller 120, and the storage 130. After measuring the power consumption of the external power provided to the transceiver 150 and the image pickup device 160, the power consumption of each measured component may be compared with the average power consumption of each component stored in the storage 130. Comparison can be performed.

Subsequently, the sensing module consumes less power than the first percentage set to the first quantitative value which is the amount of power consumed by the imaging device 160 and is the average power consumption of the imaging device 160. The second percentage (first percentage and second percentage) for the second quantitative value (the first and second quantitative values are the same or different positive integers), which is the average power consumption of the transceiver 150, is the same or different amount. IP camera 100 when at least one of the following) is satisfied, and the image signal generated by the imaging device 160 and the transmission signal transmitted by the transceiver 150 are continuously generated within a preset threshold period. It can be detected that the idle state of the (IDLE).

The sensing module is configured to immediately configure the power management module 121 and the communication management module 122 to be installed in each IP camera 100 so that an idle state of an individual IP camera is generated. By transmitting to the management center 400 through, the display on the screen of the management center 400 can be checked.

Accordingly, while the idle state is checked in the management center 400 and an alarm is output through a screen or a voice, the manager manages the IP camera 100 in which the idle state occurs without dispatching to the management personnel. After remote access to the IP camera 100 through the network 300 according to the remote or automatic input through the input device in the server of the agent or management center 400, the control on the power management module 121 is controlled. Reboot is performed by sending a reboot command through, and when the idle state is detected by the detection module even after the reboot, after extracting the location information according to the serial number of the IP camera 100 from the database 410, management By transmitting the serial number, the location information, and the failure status information of the IP camera 100 to the agent terminal 500, the management personnel operating the management agent terminal 500 is detected I failure state A dispatch service that visits directly to the P camera 100 may be provided.

Here, the detection state of the idle state of the IP camera 100 by the detection module 500 is only an embodiment, but in addition, the detection module 500 is in the idle state of the IP camera 100. It includes all means that can perform a method such as detecting and confirming a specific power consumption of a) or a specific emission signal or a signal confirmed by opening a data packet of the IP camera 100.

The invention can also be embodied as computer readable code on a computer readable recording medium. Computer-readable recording media include all kinds of recording devices that store data that can be read by a computer system.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, which are also implemented in the form of carrier waves (eg, transmission over the Internet). It also includes.

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

As described above, the present specification and drawings have been described with respect to preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

1: IP camera trouble management system
100: IP Camera
110: I / O interface
120: control unit
121: power management module
122: communication management module
130: storage unit
140: power supply unit
150: transceiver
160: imaging device
200: management device
300: network
400: management center
500 detection module

Claims (8)

One IP camera group (100g), a management device 200, a network 300, a management center 400, a management agent terminal 500 of one preset zone unit composed of a plurality of IP cameras 100 In the IP camera failure management system (1),
IP camera 100,
I / O interface (Input and Output Interface) (110), the control unit 120, the storage unit 130, the power supply unit 140, the transceiver unit 150, and the imaging device 160, the control unit 120 ) Manages the power provided to the IP camera 100 from the outside through the power supply unit 140, but through the power provided from the power supply unit 140, the I / O interface 110, the controller 120, A power management module 121 that manages a power state provided to the storage 130, the transceiver 150, and the imaging device 160; And a communication management module 122 that manages transmission and reception of signals and data with the management center 400 through the network 300 according to the control of the transmission and reception unit 150; It includes, and the power management and communication management functions provided to each IP camera 100 is modularized into a power management module 121 and a communication management module 122, respectively, added failure status and idle (IDLE) status detection and By being formed in each IP camera 100 for management, each IP camera 100 is directly connected to the management center 400 through the network 300 to connect a data session, power management module 121 The real-time camera image taken in real time by the IP camera 100 according to the power supply management by the management center through the network 300 directly under the control of the transmission and reception unit 150 by the communication management module 122 ( 400 checks the transmission and reception of the data sent to,
The management device 200,
It is configured to include a management interface for the recognition of the individual IP camera 100 is channelized by each IP camera 100 to collect the operation confirmation signal for a plurality of IP cameras 100 of a predetermined region to network 300 Provided to the management center 300, but in accordance with the control of the control unit 120 of the IP camera 100 to the I / O interface 110 of the IP camera 100 in a manner that performs the management signal and management data transmission and reception After the management interface is controlled to receive and receive management signals and management data from the I / O interface 110 of the IP camera 100 by requesting each preset region ID and serial number of the IP camera 110 for each region ID, By providing management signals and management data of the IP camera 100 for each region ID collected to the management center 300 through the network 300, information on whether the plurality of IP cameras 110 for each region ID are currently driven. To check Transmits / receives dummy image information or default image information as management signals and management data,
For detecting the case where the same signal is continuously generated by the IP camera 100 through the power management module 121 and the communication management module 122 among the IP camera 100 in which at least one of the image capturing and transmitting operations is stopped. A separate detection module is added to the IP camera 100,
Detection module,
In order to perform the detection of the fault state and the idle state (IDLE) state, the power management module 121 and the communication management module 122 separately formed in each IP camera 100 are used,
In order to detect a failure state in the "first mode", it is assumed that the data transmitted from the IP camera 100 to the management center 400 through the network 300 are first data to nth data (n is a natural number of 3 or more). In one case, it is detected through the communication management module 122 that the data missing between the first data to the n-th data to the management center 400 and stored in the storage unit 130 of the IP camera 100 itself If it is detected through the reading (reading) to the storage unit 130 that only the missing data is accumulated, it detects that the situation occurs by acting as a load factor of driving the IP camera 100, power management The configuration of the module 121 and the communication management module 122 is modularized and installed in each IP camera 100 to immediately transmit a failure of an individual IP camera to the management center 400 through the network 300. On the screen of the management center 400 By allowing the display to be checked, the management status is managed by the management center without checking the failure status in the management center 400 and simultaneously outputting an alarm on the screen or by a voice to the management personnel. After remote access to the IP camera 100 through the network 300 according to the remote input through the input device of the center 400, reboot by sending a reboot command through control of the power management module 121. If the failure state is detected by the detection module even after the reboot, after extracting the location information according to the serial number of the IP camera 100 from the database 410, the IP camera 100 to the management agent terminal 500 By transmitting the serial number, location information, and the failure status information of), the management personnel operating the management personnel terminal 500 to the IP camera 100 is detected a failure state And it provides dispatch services for contact visits,
In order to perform detection of an idle state in the "second mode", the I / O interface 110, the control unit 120, the storage unit 130, and the transceiver unit 150 are controlled by the power management module 121. ), After measuring the power consumption of the external power provided to the imaging device 160, and compares the consumption of each measured component with the average power consumption of each component stored in the storage unit 130,
The amount of power consumed by the image pickup device 160 is less than or equal to a preset first percentage of the first quantitative value, which is the average power consumption of the image pickup device 160, and the amount of power consumed by the transceiver 150 is increased by the transceiver 150. Is less than or equal to the second percentage (first and second percentages are equal or different positive integers) for a second quantitative value (the first and second quantitative values are equal or different positive integers), When at least one satisfies at least one of the image signals generated by the imaging device 160 and the transmission signals transmitted by the transceiver 150, the IDLE of the IP camera 100 is continuously generated within a predetermined threshold period. Detects the state, and because the configuration of the power management module 121 and the communication management module 122 is modularized and installed in each IP camera 100 is called the idle state of the individual IP camera (IDLE) By sending the generated immediately to the management center 400 through the network 300, so that the display on the screen of the management center 400 can be checked, the IDLE status in the management center 400 and at the same time Remote or automatic input through the input device from the management agent or the server of the management center 400, without the administrator to dispatch the IP camera 100, the idle state is generated (IDLE) state to the management personnel by the alarm or output to the screen or voice After the remote access (access) to the IP camera 100 through the network 300, the reboot is performed by sending a reboot command through the control to the power management module 121, and even after the reboot by the detection module When the idle state is detected, after extracting the location information according to the serial number of the IP camera 100 from the database 410, the IP camera 100 to the management agent terminal 500 By transmitting the serial number, location information, and the failure status information, the management personnel operating the management personnel terminal 500 provides an outgoing service that visits directly to the IP camera 100 in which the failure status is detected. Camera trouble management system.
delete delete delete delete delete delete delete

Images