KR20190138624A - Method for controlling surveillance camera - Google Patents

Abstract

According to an embodiment of the present invention, a method for safely and accurately controlling a surveillance camera comprises the steps of: photographing identification code for user authentication displayed on an external mobile phone; generating user identification data according to the photographed identification code for user authentication; and operating according to control of the mobile phone when verification for user identification data is passed.

Description

{Method for controlling surveillance camera}

The present invention relates to a method of controlling a surveillance camera, and more particularly, to a surveillance system in which surveillance cameras are connected to client devices via a communication network, wherein a user of one of the client devices is selected from among the surveillance cameras. It relates to a method of controlling a surveillance camera.

1 shows a general surveillance system.

In FIG. 1, reference numeral D _IMA denotes a client device from a communication network 4, for example, moving image data input to each of the surveillance cameras 1a, 1b,..., 1n, or the communication network 4. Indicates moving picture data input to each of the fields 3a, 3b, ..., 3n.

Reference numeral D _COM denotes communication signals between each of the surveillance cameras 1a, 1b, ..., 1n and the communication network 4, or the communication network 4 and the client devices 3a, 3b,. ., 3n) Indicates communication signals between each.

Reference numeral D _IMAT indicates composite video data input from the communication network 4 to the network video recorder 2 or composite video data input from the network video recorder 2 into the communication network 4.

Reference numeral D _COMT indicates composite communication signals between the network video recorder 2 and the communication network 4.

Referring to FIG. 1, the network video recorder 2 is connected to a surveillance network 4, for example, surveillance cameras 1a, 1b,..., 1n and client devices 3a, 3b,. ., 3n).

The surveillance cameras 1a, 1b,..., 1n transmit the live-view video data D _IMA to the network video recorder 2 while communicating with the network video recorder 2. do.

The network video recorder 2 stores and transmits moving image data D _IMA from the surveillance cameras 1a, 1b,..., 1n while loading it into volatile memory. That is, the network video recorder 2 transfers the video data loaded for each channel from the volatile memory to the client devices 3a, 3b, ..., 3n as transmission targets and stores them in the hard disk drive as a recording medium. .

Of course, there may be no network video recorder 2. In this case, the surveillance cameras 1a, 1b, ..., 1n communicate directly with the client devices 3a, 3b, ..., 3n, while the live-view video data ( D _IMA ) to the client devices 3a, 3b, ..., 3n.

In such a surveillance system, the user of any of the client devices 3a, 3b, ..., or 3n of the client devices is one of the surveillance cameras 1a, 1b, ..., or 1n. Can be controlled. For example, a user of either client device 3a, 3b, ..., or 3n can reset the center position of the surveillance area of either surveillance camera 1a, 1b, ..., or 1n. . In addition, a user of any of the client devices 3a, 3b, ..., or 3n can set a privacy area among the surveillance areas of any of the surveillance cameras 1a, 1b, ..., or 1n. have.

2 is a view for explaining a control method of a conventional surveillance camera (for example, 1a of FIG. 1). 3 is a diagram for explaining a problem of the conventional method for controlling the surveillance camera 1a.

1 to 3, a user may use his or her client device (eg 3a) and communication network 4 to control any surveillance camera (eg 1a in FIG. 1). Authentication information is provided to the monitoring camera 1a to be controlled. Accordingly, when the surveillance cameras 1a, 1b, ..., or 1n determine that the authentication information from the client devices 3a, 3b, ..., or 3n is valid, the client devices 3a, 3b. , ..., or 3n).

According to the control method of the conventional surveillance camera 1a as described above, since the surveillance camera 1a is controlled through the communication network 4, there are the following problems.

First, while authentication of the user is performed as shown in FIG. 2, the authentication information of the user may be leaked by a hacker 301 as shown in FIG. 3 (see FIG. 3). In this case, a great problem may occur in the monitoring function.

Second, since the user can control the surveillance camera 1a only on the screen of his client device 3a, the precision or accuracy of the control is inferior.

Japanese Patent Application Laid-Open No. 2006-109230 (Applicant: Japan Victor Co., Ltd., name; Surveillance System and Certification Method of Surveillance System).

An embodiment of the present invention is to provide a method in which surveillance cameras are connected to client devices via a communication network, so that a user of one client device can safely and accurately control one surveillance camera.

According to an embodiment of the present disclosure, a method of controlling a surveillance camera may include photographing an identification code for user authentication displayed on an external mobile phone; Generating user identification data according to the photographed user authentication identification code; And operating under control of the cellular phone when the verification of the user identification data is passed.

According to the control method of the surveillance camera of the embodiment of the present invention, if it is determined that the user authentication QR code displayed on the cellular phone of the user is valid, the surveillance camera operates under the control of the cellular phone of the user.

Accordingly, the user can safely and accurately control the surveillance camera by using a mobile phone in front of the surveillance camera without going through a communication network. That is, according to the control method of the surveillance camera of the embodiment of the present invention, there are the following effects.

First, while the authentication of the user is performed, the authentication information of the user is not leaked by the hacker.

Second, since the user controls directly in front of the monitoring camera of the control object, the precision or accuracy of the control is improved. For example, the surveillance camera may perform tracking shooting so that the user authentication QR code is always located at the center. In this case, when the user places his mobile phone at the center position of the surveillance area, the surveillance camera can accurately and precisely reset the center position of the surveillance area.

In addition, the surveillance camera and the user's mobile phone generate an OTP using the same OTP seed value. In addition, the user's mobile phone encrypts the generated OTP and displays the encrypted OTP as a Quick Response (QR) code for user authentication. Accordingly, user authentication can be performed more securely.

1 shows a general surveillance system.
2 is a view for explaining a control method of a conventional surveillance camera.
3 is a view for explaining a problem of a conventional method for controlling a surveillance camera.
4 is a flowchart illustrating a control method of a surveillance camera according to an embodiment of the present invention.
5A to 5G are diagrams illustrating a preliminary setting process for more safely realizing the control method of FIG. 4.
6 is a diagram illustrating a state in which the control method of FIG. 4 is applied.
FIG. 7 is a flowchart illustrating an authentication request operation of a mobile phone of the user of FIG. 6 performing step S401 of FIG. 4.
FIG. 8 is a diagram illustrating a state in which step S709 of FIG. 7 is applied.
FIG. 9 is a flowchart illustrating in detail an operation of the surveillance camera of FIG. 8 performing steps S403 and S405 of FIG. 4.
FIG. 10 is a diagram illustrating a state in which steps S903 and S911 of FIG. 9 are applied.
11 is a flowchart illustrating a detailed operation of step S913 of FIG. 9.
12 is a flowchart showing the detailed operation of step S919 of FIG.

The following description and the annexed drawings are for understanding the operation according to the present invention, and a part that can be easily implemented by those skilled in the art may be omitted.

In addition, the specification and drawings are not provided to limit the invention, the scope of the invention should be defined by the claims. Terms used in the present specification should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention so as to best express the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in this specification and drawing, duplication description is abbreviate | omitted by attaching | subjecting the same code | symbol about the component which has substantially the same functional structure.

Figure 4 shows a control method of a surveillance camera (1a, 1b, ..., or 1n of Figure 1) of an embodiment of the present invention. The control method of FIG. 4 is characterized in that the user of any of the client devices (3a, 3b,..., Or 3n of FIG. 1) has any one of the surveillance cameras (FIG. .., or 1n). The control method of the surveillance cameras 1a, 1b,..., Or 1n of the embodiment of the present invention will be described with reference to FIGS. 4 and 1 as follows.

First, the user's mobile phone displays a QR (Quick Response) code for user authentication (step S401).

Next, the monitoring cameras 1a, 1b, ..., or 1n to be controlled photograph the user authentication QR code, and decode the photographed user authentication QR code (step S403). .

If it is determined that the decrypted user authentication QR code is valid, the surveillance cameras 1a, 1b, or 1n operate under the control of the user's cellular phone (step S405).

In summary, the surveillance cameras 1a, 1b, ..., or 1n operate under the control of the user's mobile phone when it is determined that the user authentication QR code displayed on the user's mobile phone is valid.

Thereby, the user can safely and accurately control the surveillance camera by using a mobile phone in front of the surveillance cameras 1a, 1b,..., Or 1n without going through the communication network 4. That is, according to the control method of the monitoring camera 1a, 1b, ..., or 1n of this embodiment, there are the following effects.

First, while the authentication of the user is performed, the authentication information of the user is not leaked by the hacker.

Secondly, since the user controls directly in front of the monitoring cameras 1a, 1b, ..., or 1n to be controlled, the accuracy or accuracy of the control is improved. For example, the surveillance cameras 1a, 1b, ..., or 1n may perform tracking shooting so that the user authentication QR code is always located at the center. In this case, when the user places his mobile phone at the center position of the surveillance area, the surveillance cameras 1a, 1b, ..., or 1n can accurately and precisely reset the center position of the surveillance area.

Hereinafter, the control method of FIG. 4 will be described in more detail.

5A to 5G illustrate a preliminary setting process for more safely realizing the control method of FIG. 4. 5A to 5G, reference numeral 3a denotes a client device of the user, 1a denotes a surveillance camera to be controlled, and 501 denotes a mobile phone of the user. A preliminary setting process for more safely realizing the control method of FIG. 4 will be described with reference to FIGS. 5A to 5G as follows.

Referring to FIG. 5A, the surveillance camera 1a stores its public key (Cpub), private key (Cpriv), and OTP seed values (OTPs). . The user's mobile phone 501 stores its public key Ppub and secret key Ppriv.

As is well known, code encrypted with a public key can be decrypted with a private key (Cpriv). In contrast, code encrypted with a private key (Cpriv) may be decrypted with a public key. In addition, OTPs (OTP: One Time Password) encrypted with OTP seed values (OTPs) may be decrypted with the same OTP seed values (OTPs). .

In FIGS. 5B-5G, the OTP seed values OTPs in the surveillance camera 1a are stored in the client device 3a in order for the surveillance camera 1a to more securely authenticate the user's mobile phone 501. Is transmitted to the mobile phone 501 of the user, and the public key Ppub in the mobile phone 501 is transmitted to the surveillance camera 1a through the client device 3a.

Referring to FIG. 5B, the surveillance camera 1a directly connected to the client device 3a by the user may include its public key Cpub and OTP seed values OTPs. Transfer to 3a). Then, the surveillance camera 1a is installed in the field.

Accordingly, referring to FIG. 5C, the client device 3a stores the public key Cpub and the OTP seed values OTPs of the surveillance camera 1a. Of course, the surveillance camera 1a stores its public key Cpub, secret key Cpriv, and OTP seed values OTPs. In addition, the user's mobile phone 501 stores its public key Ppub and secret key Ppriv.

Next, referring to FIG. 5D, the client device 3a directly connected to the user's mobile phone 501 transmits the stored OTP seed values OTPs to the mobile phone 501. The public key Ppub of the mobile phone 501 is received.

Accordingly, referring to FIG. 5E, the client device 3a may include the public key Cpub of the surveillance camera 1a, the OTP seed values OTPs, and the public key of the mobile phone 501. Ppub). In addition, the user's mobile phone 501 stores its public key Ppub, secret key Ppriv, and OTP seed values OTPs. Of course, the surveillance camera 1a installed in the field stores its own public key Cpub, secret key Cpriv, and OTP seed values OTPs.

Finally, referring to FIG. 5F, the client device 3a transmits the public key Ppub of the user's mobile phone 501 to the monitoring camera 1a to be controlled via the communication network 4 (FIG. 1). Here, the client device 3a encrypts and transmits the public key Ppub of the user's mobile phone 501 for security in the communication network (4 in FIG. 1). That is, the surveillance camera 1a encrypts the public key Ppub of the user's mobile phone 501 with the public key Cpub of the surveillance camera 1a, and encrypts the public key Cpub (Ppub) of the encryption result. It transmits to the surveillance camera 1a via (4 of FIG. 1). The surveillance camera 1a having received this decrypts the public key Ppub of the mobile phone 501 encrypted with its public key Cpub as its secret key Cpriv.

In conclusion, referring to FIG. 5G, in order for the surveillance camera 1a to more securely authenticate the user's mobile phone 501, the OTP seed values OTPs in the surveillance camera 1a may be determined by the client device. The public key Ppub in the mobile phone 501 is transmitted to the surveillance camera 1a via the client device 3a via 3a.

6 illustrates a state in which the control method of FIG. 4 is applied.

6 and 5G, the surveillance camera 1a and the user's mobile phone 501 store the same OTP seed values OTPs, and the surveillance camera 1a of the mobile phone 501 With the public key Ppub stored, the control method of FIG. 4 is performed.

That is, the surveillance camera 1a and the user's mobile phone 501 may generate one time password (OTP) using the same OTP seed value.

In addition, the user's mobile phone 501 may encrypt the generated OTP and display the encrypted OTP as a Quick Response (QR) code for user authentication.

The surveillance camera 1a can decode the code of the decryption result by using the public key Ppub of the mobile phone 501 after capturing and decrypting the QR (Quick Response) code for user authentication.

7 illustrates in detail the authentication request operation of the mobile phone 501 of the user of FIG. 6 performing step S401 of FIG. 4. 8 shows a state in which step S709 of FIG. 7 is applied.

Referring to FIGS. 7, 8, and 5G, the authentication request operation of the mobile phone 501 of the user of FIG. 6 performing step S401 of FIG. 4 will be described in detail as follows.

First, the mobile phone 501 of the user 801 generates one time password (OTP) using the stored OTP seed values OTPs (step S701).

Next, the mobile phone 501 of the user 801 encrypts the OTP using its own stored secret key Ppriv (step S703).

Next, the mobile phone 501 of the user 801 generates a user authentication QR code of the encrypted OTP (step S705).

Next, the mobile phone 501 of the user 801 displays the generated QR authentication code (step S705).

Then, the mobile phone 501 of the user 801 controls the flash to repeatedly blink with a setting period, for example, 0.5 seconds (step S709, see Fig. 8).

Here, as shown in FIG. 8, the user faces the surveillance camera 1a to the rear side of the mobile phone 501, and when the repetitive flashing of the flash ends, the front of the mobile phone 501 is connected to the surveillance camera ( Face 1a). Accordingly, the surveillance camera 1a can capture and decode the QR code for user authentication after receiving the repeated flashing of the flash of the mobile phone 501.

9 details the operation of the surveillance camera 1a of FIG. 8 performing the steps S403 and S405 of FIG. FIG. 10 shows a state in which steps S903 and S911 of FIG. 9 are applied. 9 and 10, the overall detailed operation of the steps S403 and S405 of FIG. 4 will be described.

The surveillance camera 1a performs the following steps when the flash flashes repeatedly in the setting period (step S901).

First, the surveillance camera 1a performs face recognition on the captured image (step S903). Since a technique for finding a face region in a captured image is well known, the description thereof is omitted.

Next, the monitoring camera 1a determines whether the recognized face is the face 801f of the registered user 801 (step S905).

If it is determined that the face 801f of the user 801 registered in step S905 is not the case, the surveillance camera 1a flashes the red LED lamp for a set number of times and then ends the authentication procedure (step S907). .

Steps S903, S905, and S907 may be omitted as further to enhance authentication security.

If it is determined that the face 801f of the user 801 registered in step S905, the surveillance camera 1a lights up the green LED lamp (step S909) and continues to perform the following steps.

First, the surveillance camera 1a photographs a user authentication QR code, and decodes the photographed user authentication QR code (step S911). Techniques for generating and decrypting QR codes are well known and their description is omitted.

Next, the surveillance camera 1a determines the validity of the decrypted user authentication QR code (step S913). This step S913 will be described in detail with reference to FIG.

As a result of performing step S913, if it is determined that the user authentication QR code is not valid, the surveillance camera 1a flashes the red LED lamp by the set number of times and then ends the authentication procedure (steps S915). And S907).

As a result of performing step S913, if it is determined that the user authentication QR code is valid (step S915), the surveillance camera 1a additionally performs the following steps S917, S919, and S921.

In step S917, the surveillance camera 1a lights up a green LED lamp to inform the user 801 of the authentication success.

Next, the surveillance camera 1a operates under the control of the user's cellular phone 501 (step S919). This step S919 is continued until the user authentication QR code disappears (step S921). That is, in step S919, the surveillance camera 1a performs the setting and resetting operation by the user authentication QR code displayed on the cellular phone 501. Step S919 will be described in detail with reference to FIG. 12.

11 shows the detailed operation of step S913 of FIG. A detailed operation of step S913 of FIG. 9 will be described with reference to FIGS. 11, 5G, and 10 as follows.

First, the surveillance camera 1a decrypts the code of the decryption result by using the stored public key Ppub of the stored mobile phone, thereby generating a user OTP (step S1101).

Next, the surveillance camera 1a generates its own OTP using the OTP seed values OTPs (step S1103).

Next, the monitoring camera 1a judges whether the user OTP and the own OTP are the same (step S1105).

If the user OTP and the own OTP are the same in step S1105, the surveillance camera 1a determines that the decrypted user authentication QR code is valid (step S1107).

If the user OTP and its own OTP are not the same in step S1105, the monitoring camera 1a determines that the decrypted user authentication QR code is not valid (step S1109).

12 shows the detailed operation of step S919 of FIG. A detailed operation of step S919 will be described with reference to FIGS. 12 and 10 as follows.

First, the surveillance camera 1a performs tracking shooting so that the user authentication QR code is always located at the center (step S1201).

Therefore, when the user 801 places his mobile phone 501 at the center position of the surveillance area, the surveillance cameras 1a, 1b, ..., or 1n can accurately and precisely reset the center position of the surveillance area. have.

On the other hand, when the moving path of the mobile phone 501, that is, the moving path of the QR code for user authentication displayed on the mobile phone 501 has a set shape (step S1203), the surveillance camera 1a is in the set shape area. Is set to the privacy area (step S1205).

Therefore, the user can directly set the privacy area by moving the mobile phone 501 such that the movement path of the mobile phone 501 is a set shape, for example, a quadrangle.

As described above, according to the control method of the surveillance camera of the embodiment of the present invention, if it is determined that the user authentication QR code displayed on the cellular phone of the user is valid, the surveillance camera operates under the control of the cellular phone of the user. do.

Accordingly, the user can safely and accurately control the surveillance camera by using a mobile phone in front of the surveillance camera without going through a communication network. That is, the control method of the surveillance camera of the embodiment of the present invention has the following effects.

First, while the authentication of the user is performed, the authentication information of the user is not leaked by the hacker.

Second, since the user controls directly in front of the monitoring camera of the control object, the precision or accuracy of the control is improved. For example, the surveillance camera may perform tracking shooting so that a user authentication QR code is always located at the center. In this case, when the user places his mobile phone at the center position of the surveillance area, the surveillance camera can accurately and precisely reset the center position of the surveillance area.

In addition, the surveillance camera and the user's mobile phone generate an One Time Password (OTP) using the same One Time Password (OTP) seed value. In addition, the user's mobile phone encrypts the generated OTP, and displays the encrypted OTP as a Quick Response (QR) code for user authentication. Accordingly, user authentication can be performed more securely.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will understand that the present invention can be embodied in a modified form without departing from the essential characteristics of the present invention.

Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown not in the above description but in the claims, and the invention claimed by the claims and the inventions equivalent to the claims should be construed as being included in the present invention.

It is likely to be used in general communication network systems rather than surveillance systems.

1a, 1b, ..., 1n: surveillance cameras, 2: network video recorder,
3a, 3b, ..., 3n: client devices, 301: hacker,
501: user's mobile phone,
Cpub: the camera's public key,
Cpriv: camera's private key,
OTPs: OTP seed values,
Ppub: public key of the user's mobile phone,
Ppriv: your phone's private key,
Cpub (Ppub): the public key of the user's mobile phone encrypted with the camera's public key,
OTPn: current OTP,
Ppriv (OTPn): OTP encrypted with the secret key of the user's mobile phone,
801: user, 801f: user's face.

Claims (1)

In the control method of the surveillance camera:
Photographing an identification code for user authentication displayed on an external mobile phone;
Generating user identification data according to the photographed user authentication identification code; And
And operating under control of the cellular phone when the verification of the user identification data is passed.

Images