KR20190109138A - Surveillance system and operation method thereof - Google Patents

Abstract

A monitoring system according to an embodiment for solving a problem to be solved by the present invention comprises: a communication interface which receives, from a client terminal, a first audio signal request for a first camera module connected to a microphone and a second audio signal request for a second camera module not connected to the microphone, transmits an actual audio signal request to the first camera module, receives an actual audio signal response from the first camera module, and transmits, to the client terminal, a first audio signal response to the first camera module and a second audio signal response to the second camera module; and a processor which distinguishes the first camera module from the second camera module while setting the first camera module and second camera module as a group, generates the actual audio signal request in response to the first audio signal request and second audio signal request, and generates the first audio signal response including the actual audio signal and the second audio signal response including the actual audio signal in response to the actual audio signal response.

Description

Surveillance system and its operation method {SURVEILLANCE SYSTEM AND OPERATION METHOD THEREOF}

The present invention relates to a surveillance system for providing an audio signal of a network camera including a plurality of camera modules and a method of operating the same.

When the surveillance system provides the image received from the camera capturing the surveillance area through the screen, the controller can detect the image visually through the user interface and adjust the rotation direction or zoom ratio of the camera.

In particular, the surveillance system may monitor one area in all directions through one camera equipped with a plurality of camera modules.

On the other hand, when a microphone is mounted only to some of the plurality of camera modules included in one camera, there is a problem in providing an audio signal to another part in which the microphone is not mounted.

KR 10-0551826 B1

SUMMARY OF THE INVENTION An object of the present invention is to provide a surveillance system and an operation method for providing an audio signal of all the plurality of camera modules even when a microphone is installed in only some of the plurality of camera modules included in the network camera. .

Surveillance system according to an embodiment to solve the problem to be solved by the present invention is the first audio signal request for the first camera module connected to the microphone from the client terminal and the second for the second camera module not connected to the microphone Receives an audio signal request, sends an actual audio signal request to the first camera module, receives an actual audio signal response from the first camera module, and transmits a first audio signal for the first camera module to the client terminal. A communication interface for transmitting a response and a second audio signal response to the second camera module, and setting the first camera module and the second camera module as a group, Distinguish the image signal according to the first audio signal request and the second audio signal request. And a processor for generating a real audio signal request and generating the first audio signal response including the real audio signal and the second audio signal response including the real audio signal in response to the real audio signal response. do.

In the present embodiment, the processor may distinguish between the first camera module and the second camera module based on whether the actual audio signal is received from the microphone.

In this embodiment, the communication interface receives a first audio configuration setting request for the first camera module from the client terminal, sends an actual audio configuration setting request to the first camera module, and the second camera module. The virtual audio configuration setting request may be transmitted to the processor, and the processor may generate the actual audio configuration setting request and the virtual audio configuration setting request in response to the first audio configuration setting request.

In this embodiment, the first camera module sets an actual audio configuration of the first camera module in response to the actual audio configuration setting request, and the second camera module sets the first audio module in response to the virtual audio configuration setting request. 2 You can set the virtual audio configuration of the camera module.

In this embodiment, the actual audio configuration may include at least one of an audio source configuration, an audio encoder configuration, and an audio output configuration.

Surveillance system according to an embodiment for solving the problem to be solved by the present invention receives the audio signal request for one camera module of a plurality of camera modules from the microphone, the client terminal to generate the actual audio signal, the client A communication interface for transmitting an audio signal response for the one camera module to a terminal, and a processor for generating the audio signal response for the one camera module including the actual audio signal in response to the audio signal request do.

According to an aspect of the present invention, there is provided a method of operating a surveillance system, wherein the first camera module is connected to a microphone while a first camera module and a second camera module are set in a group by a processor. And classifying the second camera module not connected to the microphone, and receiving a first audio signal request for the first camera module from a client terminal by a communication interface, by the processor, the first audio signal. Generating an actual audio signal request in response to a signal request, transmitting, by the communication interface, the actual audio signal request to the first camera module, by the communication interface, actual audio from the first camera module Receiving a signal response, by the processor, the actual audio Generating a first audio signal response including the actual audio signal in response to a signal response, transmitting, by the communication interface, the first audio signal response to the first camera module to the client terminal; Receiving, by the communication interface, a second audio signal request for the second camera module from the client terminal, generating, by the processor, an actual audio signal request in response to the second audio signal request; Sending, by the communication interface, the actual audio signal request to the first camera module, receiving, by the communication interface, an actual audio signal response from the first camera module, by the processor, the actual The actual audio signal in response to an audio signal response By the step of generating a second audio signal comprising response, and the communication interface, and a step of transmitting the second audio signals in response to the second camera module in the client terminal.

In the present embodiment, the step of distinguishing the first camera module and the second camera module, distinguishing the first camera module and the second camera module based on whether to receive the actual audio signal from the microphone. It may be a step.

In the present embodiment, receiving, by the communication interface, a first audio configuration setting request for the first camera module from the client terminal, and by the processor, actual audio in response to the first audio configuration setting request. Generating a configuration setting request and a virtual audio configuration setting request, and transmitting, by the communication interface, the actual audio configuration setting request to the first camera module, and sending the virtual audio configuration setting request to the second camera module. The method may further include transmitting.

In this embodiment, setting, by the first camera module, an actual audio configuration of the first camera module in response to the actual audio configuration setting request, and by the second camera module, requesting the virtual audio configuration setting. The method may further include setting a virtual audio configuration of the second camera module correspondingly.

According to embodiments of the present invention, it is possible to provide a monitoring system conforming to the ONVIF standard and a method of operating the same.

1 is a diagram illustrating a monitoring system according to an exemplary embodiment.
2 is a diagram for describing a network camera, according to an exemplary embodiment.
3 is a diagram illustrating an audio signal providing, according to an exemplary embodiment.
4 to 7 are diagrams for describing providing an audio signal, according to an exemplary embodiment.
8 and 9 are diagrams for describing providing an audio signal, according to an exemplary embodiment.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

In the following embodiments, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the following embodiments, terms such as "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, one or more It is to be understood that it does not exclude in advance the possibility of the presence or addition of other features or numbers, steps, operations, components, components or combinations thereof.

Embodiments of the present invention can be represented by functional block configurations and various processing steps. Such functional blocks may be implemented in various numbers of hardware or / and software configurations that perform particular functions. For example, embodiments of the invention may be implemented directly, such as memory, processing, logic, look-up table, etc., capable of executing various functions by the control of one or more microprocessors or other control devices. Circuit configurations can be employed. Similar to the components of an embodiment of the present invention may be implemented in software programming or software elements, embodiments of the present invention include various algorithms implemented in combinations of data structures, processes, routines or other programming constructs. It may be implemented in a programming or scripting language such as C, C ++, Java, assembler, or the like. The functional aspects may be implemented with an algorithm running on one or more processors. In addition, embodiments of the present invention may employ the prior art for electronic configuration, signal processing, and / or data processing. Terms such as mechanism, element, means, configuration can be used broadly and are not limited to mechanical and physical configurations. The term may include the meaning of a series of routines of software in conjunction with a processor or the like.

Hereinafter, various embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

First, referring to Figures 1 and 2, the overall operation of the monitoring system 1 according to an embodiment will be described.

1 is a view for explaining a monitoring system 1 according to an embodiment.

2 is a diagram for describing a network camera 10 according to an exemplary embodiment.

1 and 2, a surveillance system 1 according to an embodiment may include a network camera 10, a network switch 20, a host device 30, a network 40, and a client terminal 50. Include.

The surveillance system 1 according to an exemplary embodiment may transmit the information of the network camera 10 collected from the host device 30 to the client terminal 50 through the network 40. It can provide a configuration to monitor the information sent.

The network camera 10 may capture a surveillance area in real time for the purpose of surveillance or security, and may be provided with one or more.

The network camera 10 may include a plurality of camera modules.

For example, the first camera module 11 to the fourth camera module 14 may be provided in one network camera 10. In this case, the network camera 10 may simultaneously acquire four image signals for the surveillance region by simultaneously photographing the surveillance region in four different directions.

The network camera 10 captures a surveillance area to obtain an image signal for the surveillance area.

The network camera 10 may acquire an image signal through an image sensor such as a charge-coupled device (CCD) sensor, a complementary metal-oxide-semiconductor (CMOS) sensor, or the like.

The video signal may be a real time video signal and / or a recorded video signal.

The video signal may be a video signal and / or a still video signal.

Meanwhile, the network camera 10 obtains an audio signal generated in the surveillance area.

The network camera 10 may be electrically connected to an externally installed microphone or may have a microphone mounted therein.

Meanwhile, a plurality of camera modules included in the network camera 10 may be connected to microphones, respectively. In this case, the microphone may acquire an audio signal detected in the direction in which the corresponding camera module is photographed. That is, the network camera 10 may obtain a plurality of audio signals.

Meanwhile, the network camera 10 including the plurality of camera modules may be connected to one microphone. That is, the network camera 10 may acquire one audio signal. A case in which the network camera 10 is connected to one microphone will be described later with reference to FIG. 3.

Meanwhile, only one camera module among the plurality of camera modules included in the network camera 10 may be connected to one microphone. In this case, the microphone may acquire an audio signal detected in a direction in which one connected camera module is photographed. That is, the network camera 10 may acquire one audio signal. A case in which only one camera module among the plurality of camera modules included in the network camera 10 is connected to one microphone will be described below with reference to FIGS. 4 to 7.

The network camera 10 may be a battery powered low power camera.

The low power camera maintains its normal sleep mode and periodically checks to see if an event has occurred. The low power camera enters the active mode when an event occurs, and returns to the sleep mode when the event does not occur. As such, the low power camera may reduce power consumption by maintaining the active mode only when an event occurs.

The network camera 10 may be a PTZ camera that is capable of panning and tilting and whose zoom magnification of the lens is adjustable.

The network camera 10 encodes at least one of the video signal and the audio signal, and transmits at least one of the encoded video signal and the audio signal to the network 40 through the network switch 20 and the host device 30. It may be transmitted to the connected client terminal 50.

The network switch 20 provides a path to access the network camera 10.

For example, the network switch 20 may provide one Internet Protocol (IP) address indicating an access path to one network camera 10. Accordingly, the first camera module 11 to the fourth camera module 14 may share one IP address. In other words, the network switch 20 can operate as an IP router.

The host device 30 receives at least one of a plurality of video signals and one or more audio signals obtained by the plurality of camera modules from the network switch 20, and sends the request to the client terminal 50 at the user's request. At least one of the plurality of image signals and one or more audio signals are transmitted.

Meanwhile, the host device 30 may be connected to one microphone. In this case, the host device 30 obtains one audio signal by one microphone, receives a plurality of video signals obtained by the plurality of camera modules from the network switch 20, and requests the client according to the user's request. At least one of a plurality of video signals and one audio signal may be transmitted to the terminal 50. A case in which the host device 30 other than the network camera 10 is connected to one microphone will be described later with reference to FIGS. 8 and 9.

Network 40 may include a wired network or a wireless network. The wireless network may be 2G (Generation) or 3G cellular communication system, 3rd Generation Partnership Project (3GPP), 4G communication system, Long-Term Evolution (LTE), World Interoperability for Microwave Access (WiMAX), or the like.

The client terminal 50 may display or store at least one of an image signal and an audio signal transmitted from the host device 30. The client terminal 50 may transmit the received user input to the host device 30.

The client terminal 50 may include at least one processor. The client terminal 50 may be driven in a form included in other hardware devices such as microprocessors or general purpose computer systems. The client terminal 50 may be a personal computer or a mobile terminal.

The operation of the monitoring system 1 when the network camera 10 is connected to one microphone will be described below with reference to FIG. 3.

3 is a diagram illustrating an audio signal providing, according to an exemplary embodiment.

Referring to FIG. 3, the network camera 10 including the first camera module 11 to the fourth camera module 14 may acquire an audio signal generated by the microphone 60 through the audio separator 70. Can be.

The microphone 60 may acquire an audio signal in a predetermined direction or a direction determined according to a user input. The microphone 60 may be installed integrally with the network camera 10 or may be installed separately from the network camera 10.

The audio separator 70 may separate one audio signal into four audio signals and transmit the four audio signals to the first camera module 11 to the fourth camera module 14. In this case, each of the first camera module 11 to the fourth camera module 14 may receive one audio signal.

According to the present embodiment, even when one microphone 60 is connected to the network camera 10, audio of each of the first camera module 11 to the fourth camera module 14 included in the network camera 10 is audio. Since the signal can be provided, it is possible to provide the surveillance system 1 according to the Open Network Video Interface Forum (ONVIF) standard.

Hereinafter, an operation of the surveillance system 1 when only one camera module of the plurality of camera modules included in the network camera 10 is connected to one microphone 60 will be described with reference to FIGS. 4 to 7. Explain.

4 to 7 are diagrams for describing providing an audio signal, according to an exemplary embodiment.

4, the first camera module 11 of the first camera module 11 to the fourth camera module 14 included in the network camera 10 is connected to the microphone 60, the second camera module 12 to the fourth camera module 14 is not connected to the microphone 60.

In this case, the microphone 60 may acquire an audio signal detected in the photographing direction of the first camera module 11.

The host device 30 may receive and provide at least one of an image signal and an audio signal of each of the first camera module 11 to the fourth camera module 14 to the client terminal 50 through the network switch 20. have.

The host device 30 includes a communication interface 31 and a processor 32.

According to an embodiment, the communication interface 31 may request a first audio signal from the client terminal 50 to the first camera module 11 connected to the microphone 60 and the second camera module not connected to the microphone 60. Receive a second audio signal request for 12. Hereinafter, the description of the second camera module 12 may be equally applied to the third camera module 13 and the fourth camera module 14, respectively.

The first audio signal request may mean a request for an audio signal of the first camera module 11. The second audio signal request may mean a request for an audio signal of the second camera module 12.

The communication interface 31 according to an embodiment transmits an actual audio signal request to the first camera module 11 and receives an actual audio signal response from the first camera module 11.

The actual audio signal request may be a request for the actual audio signal obtained by the microphone 60. The actual audio signal response may be a response including the actual audio signal obtained by the microphone 60.

The communication interface 31 according to an exemplary embodiment transmits a first audio signal response to the first camera module 11 and a second audio signal response to the second camera module 12 to the client terminal 50.

The first audio signal response corresponds to the first audio signal request and may include an actual audio signal. The second audio signal response corresponds to the second audio signal request and may include an actual audio signal.

Accordingly, even if the network camera 10 is connected to one microphone 60, the client terminal 50 may receive a plurality of audio signals corresponding to the plurality of camera modules, respectively. That is, the monitoring system 1 according to one embodiment may satisfy the ONVIF standard.

The communication interface 31 according to an exemplary embodiment receives a first audio configuration setting request for the first camera module 11 from the client terminal 50, and sends an actual audio configuration setting request to the first camera module 11. And a virtual audio configuration setting request to the second camera module 12.

According to the ONVIF standard, the Media Profile is divided into Video Encoder Configuration, Video Source Configuration, Audio Encoder Configuration, Audio Source Configuration, Audio Decoder Configuration, Audio Output Configuration, Audio Output Configuration, PTZ Configuration, PTZ Configuration, Analytics Configuration, and Metadata Configuration.

The audio configuration may include at least one of an audio source configuration, an audio encoder configuration, and an audio output configuration.

The audio source configuration may include a reference to the audio source.

The audio encoder configuration may include an encoding, a bitrate, and a sample rate. The audio encoder configuration may further include a codec and a gain.

The audio output configuration may include a source token, an output level, and a send primacy.

The first audio configuration setting request may be a request generated according to a user input for setting the audio configuration of the first camera module 11. That is, the first audio configuration setting request may include content about an audio configuration that a user wants to set.

The processor 32 according to an embodiment sets the first camera module 11 and the second camera module 12 into one group, and distinguishes the first camera module 11 from the second camera module 12. do.

The processor 32 may set a plurality of camera modules having at least one common point as one group.

For example, the processor 32 may set the first camera module 11 and the second camera module 12 constituting one network camera 10 into one group.

The processor 32 may distinguish the plurality of camera modules based on whether the audio signal is received from the microphone 60.

For example, the processor 32 may distinguish the first camera module 11 connected to the microphone 60 and the second camera module 12 not connected to the microphone 60. The first camera module 11 may obtain an actual audio signal through the microphone 60. The second camera module 12 does not acquire the actual audio signal.

The processor 32 generates a real audio signal request in response to the first audio signal request and the second audio signal request, and generates a first audio signal response and a real audio signal including the real audio signal in response to the real audio signal response. Generate a second audio signal response that includes.

The actual audio signal request may be a request for the first camera module 11 connected to the microphone 60. The actual audio signal response may be a response transmitted from the first camera module 11 connected to the microphone 60. In other words, the actual audio signal request is independent of the second camera module 12 not connected to the microphone 60, and the second camera module 12 not connected to the microphone 60 does not transmit the actual audio signal response. Do not.

The processor 32 transmits a first audio signal response transmitted to the first camera module 11 connected to the microphone 60 and a second camera signal 12 transmitted to the second camera module 12 not connected to the microphone 60. In the audio signal response, each may include an actual audio signal.

Accordingly, the client terminal 50 may receive audio signals for each of the first camera module 11 and the second camera module 12 even when the microphone 60 is connected only to the first camera module 11. Can be. This is because the first camera module 11 and the second camera module 12 constituting one network camera 10 share one real audio signal, and the audio signal of the first camera module 11 is actual audio. While the signal is an audio signal of the second camera module 12 may be referred to as a virtual audio signal.

The processor 32 according to an embodiment may generate an actual audio configuration setting request and a virtual audio configuration setting request in response to the first audio configuration setting request.

The actual audio configuration setting request may include content of an audio configuration of the first camera module 11 that obtains the actual audio signal that the user wants to set.

The virtual audio configuration setting request may include content of an audio configuration of the second camera module 12 that acquires the virtual audio signal. The audio configuration of the second camera module 12 that acquires the virtual audio signal may be the same as the audio configuration of the first camera module 11 that acquires the actual audio signal.

Meanwhile, the first camera module 11 may set the actual audio configuration of the first camera module 11 in response to the actual audio configuration setting request. The second camera module 12 may set the virtual audio configuration of the second camera module 12 in response to the virtual audio configuration setting request.

Accordingly, the first camera module 11 may reset the default audio configuration or the existing audio configuration to the audio configuration newly selected by the user. The second camera module 12 may share settings for the audio configuration of the first camera module 11.

Referring to FIG. 5, the host device 30 sets the first camera module 11 to the second camera module 12 while setting the first camera module 11 to the fourth camera module 14 as a group. And the fourth camera module 14 (S101).

The first camera module 11 to the fourth camera module 14 may constitute one network camera 10, and the first camera module 11 may include the second camera module 12 to the fourth camera module ( Unlike 14) may be connected to the microphone (60).

On the other hand, the client terminal 50 receives a user input for setting the audio configuration of the first camera module 11 (S103). The user input for setting the audio configuration of the first camera module 11 may be a user input for changing the audio configuration of the first camera module 11.

Subsequently, the client terminal 50 transmits a first audio configuration setting request for the first camera module 11 to the host device 30 (S105).

The host device 30 generates an actual audio configuration setting request in response to the first audio configuration setting request (S107), and transmits an actual audio configuration setting request to the first camera module 11 (S109).

The first camera module 11 sets the actual audio configuration of the first camera module 11 in response to the actual audio configuration setting request (S111).

Meanwhile, the host device 30 generates a virtual audio configuration setting request in response to the first audio configuration setting request (S113), and transmits a virtual audio configuration setting request to the second camera module 12 (S115).

For example, upon receiving the first audio configuration setting request, the host device 30 may simultaneously generate an actual audio configuration setting request and a virtual audio configuration setting request. That is, the host device 30 responds to the first audio configuration setting request, as well as the actual audio configuration setting request for the first camera module 11 connected to the microphone 60, as well as the second device not connected to the microphone 60. The virtual audio configuration setting request for the camera module 12 may be automatically generated.

Although not shown, for example, when the host device 30 receives the second audio configuration setting request for the second camera module 12 from the client terminal 50, the host device 30 may generate a virtual audio configuration setting request. That is, the host device 30 may generate a virtual audio configuration setting request separately from the actual audio configuration setting request, but is not limited thereto.

The second camera module 12 sets the virtual audio configuration of the second camera module 12 in response to the virtual audio configuration setting request (S117). In this case, the virtual audio configuration may be the same as the actual audio configuration set in S111.

Referring to FIG. 6, the first camera module 11 may set the audio source configuration to the actual audio configuration in response to the actual audio configuration setting request. The actual audio configuration may include a first audio source configuration, a first audio encoder configuration, and a first audio output configuration.

Meanwhile, the second camera module 12 may set the audio source configuration as the virtual audio configuration in response to the virtual audio configuration setting request. The virtual audio configuration may include a second audio source configuration, a second audio encoder configuration, and a second audio output configuration. In this case, the second audio source configuration, the second audio encoder configuration, and the second audio output configuration may be the same as the first audio source configuration, the first audio encoder configuration, and the first audio output configuration.

Meanwhile, the third camera module 13 may set the audio source configuration as the virtual audio configuration in response to the virtual audio configuration setting request. The virtual audio configuration may include a third audio source configuration, a third audio encoder configuration, and a third audio output configuration. In this case, the third audio source configuration, the third audio encoder configuration, and the third audio output configuration may be the same as the first audio source configuration, the first audio encoder configuration, and the first audio output configuration.

Meanwhile, the fourth camera module 14 may set the audio source configuration as the virtual audio configuration in response to the virtual audio configuration setting request. The virtual audio configuration may include a fourth audio source configuration, a fourth audio encoder configuration, and a fourth audio output configuration. In this case, the fourth audio source configuration, the fourth audio encoder configuration, and the fourth audio output configuration may be the same as the first audio source configuration, the first audio encoder configuration, and the first audio output configuration.

Referring to FIG. 7, the host apparatus 30 sets the first camera module 11 to the second camera module 12 while setting the first camera module 11 to the fourth camera module 14 as a group. And the fourth camera module 14 (S301).

In this case, the host device 30 may distinguish the first camera module 11 from the second camera module 12 to the fourth camera module 14 based on whether the actual audio signal is received from the microphone 60. .

On the other hand, the client terminal 50 receives a user input for requesting an audio signal of the first camera module 11 (S303).

Subsequently, the client terminal 50 transmits a first audio signal request for the first camera module 11 to the host device 30 (S305).

The host device 30 generates an actual audio signal request in response to the first audio signal request (S307), and transmits an actual audio signal request to the first camera module 11 (S309).

Meanwhile, the first camera module 11 obtains an actual audio signal through the microphone 60 electrically connected (S311).

Subsequently, the first camera module 11 transmits an actual audio signal response including the actual audio signal to the host device 30 in response to the actual audio signal request (S313).

The host device 30 generates a first audio signal response including an actual audio signal in response to the actual audio signal response (S315), and transmits first audio to the first camera module 11 to the client terminal 50. The signal response is transmitted (S317). That is, the host device 30 may transmit a first audio signal response to the client terminal 50 in response to the first audio signal request of the client terminal 50.

Although not shown, the host device 30 according to an embodiment may transmit the actual audio signal to the first camera module 11 in response to the actual audio signal response. Subsequently, the first camera module 11 generates a first audio signal response including the actual audio signal, and transmits the first audio signal response to the client terminal 50 through the network switch 20 and the host device 30. Can transmit

On the other hand, the client terminal 50 receives a user input for requesting an audio signal of the second camera module 12 (S319).

Subsequently, the client terminal 50 transmits a second audio signal request for the second camera module 12 to the host device 30 (S321).

The host device 30 generates an actual audio signal request in response to the second audio signal request in operation S323, and transmits an actual audio signal request to the first camera module 11 in operation S325. As such, the second camera module 12 not connected to the microphone 60 does not receive the actual audio signal or generate the actual audio signal, but by sharing the actual audio signal generated by the first camera module 11. In addition, a monitoring system 1 conforming to the ONVIF standard can be provided.

Subsequently, the first camera module 11 transmits an actual audio signal response including the actual audio signal to the host device 30 in response to the actual audio signal request (S327).

The host device 30 generates a second audio signal response including the actual audio signal in response to the actual audio signal response (S329), and transmits the second audio to the client terminal 50 to the second camera module 12. The signal response is transmitted (S331). That is, the host device 30 may transmit a second audio signal response to the client terminal 50 in response to the second audio signal request of the client terminal 50.

Although not shown, the host device 30 according to an embodiment may transmit the actual audio signal to the second camera module 12 in response to the actual audio signal response. Subsequently, the second camera module 12 generates a second audio signal response including the actual audio signal, and transmits the second audio signal response to the client terminal 50 through the network switch 20 and the host device 30. Can transmit

Hereinafter, the operation of the monitoring system 1 when the host device 30 other than the network camera 10 is connected to one microphone will be described with reference to FIGS. 8 and 9.

8 and 9 are diagrams for describing providing an audio signal, according to an exemplary embodiment.

Referring to FIG. 8, the network camera 10 is not connected to the microphone 60, and the host device 30 is connected to the microphone 60.

The microphone 60 receives the actual audio and generates the actual audio signal. In this case, the microphone 60 may acquire an actual audio signal detected in a predetermined direction or a direction according to a user selection.

The host device 30 receives at least one of an image signal of each of the first camera module 11 to the fourth camera module 14 received through the network switch 20 and an audio signal obtained through the microphone 60. It may be provided to the terminal 50. Hereinafter, the description of the first camera module 11 may be equally applied to the second camera module 12 to the fourth camera module 14, respectively.

The host device 30 includes a communication interface 31 and a processor 32.

The communication interface 31 according to an exemplary embodiment receives an audio signal request for one camera module of the plurality of camera modules from the client terminal 50.

For example, the communication interface 31 may receive an audio signal request for the first camera module 11 from the client terminal 50.

The communication interface 31 transmits an audio signal response for one camera module to the client terminal 50.

For example, the communication interface 31 may transmit an audio signal response to the first camera module 11 to the client terminal 50.

The processor 32 generates an audio signal response to one camera module containing the actual audio signal in response to the audio signal request.

For example, the processor 32 may generate an audio signal response to the first camera module 11 including the actual audio signal in response to the audio signal request.

Accordingly, the client terminal 50 may receive a plurality of audio signals corresponding to the plurality of camera modules, even when the network camera 10 is not connected to the microphone 60. That is, the monitoring system 1 according to one embodiment may satisfy the ONVIF standard.

Referring to FIG. 9, the host device 30 obtains an actual audio signal through the microphone 60 electrically connected (S501).

On the other hand, the client terminal 50 receives a user input for requesting an audio signal of the first camera module 11 (S503).

Subsequently, the client terminal 50 transmits a first audio signal request for the first camera module 11 to the host device 30 (S505).

The host device 30 generates a first audio signal response including an actual audio signal in response to the first audio signal request (S507), and transmits the first audio signal response to the client terminal 50 (S509).

Although not shown, the host device 30 according to an embodiment may transmit the actual audio signal to the first camera module 11 in response to the first audio signal request. Subsequently, the first camera module 11 generates a first audio signal response including the actual audio signal, and transmits the first audio signal response to the client terminal 50 through the network switch 20 and the host device 30. Can transmit

Meanwhile, the client terminal 50 receives a user input for requesting an audio signal of the second camera module 12 (S511).

Subsequently, the client terminal 50 transmits a second audio signal request for the second camera module 12 to the host device 30 (S513).

The host device 30 generates a second audio signal response including an actual audio signal in response to the second audio signal request (S515), and transmits a second audio signal response to the client terminal 50 (S517).

Although not shown, the host device 30 according to an embodiment may transmit the actual audio signal to the second camera module 12 in response to the second audio signal request. Subsequently, the second camera module 12 generates a second audio signal response including the actual audio signal, and transmits the second audio signal response to the client terminal 50 through the network switch 20 and the host device 30. Can transmit

That is, the host device 30 may satisfy the ONVIF standard by transmitting an audio signal obtained through the microphone 60 in response to an audio signal request for a plurality of camera modules included in the connected network camera 10. have.

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.

10: network camera
11: first camera module
12: second camera module
13: third camera module
14: fourth camera module
20: network switch
30: host device
40: network
50: client terminal

Claims (10)

Receive a first audio signal request for the first camera module connected to the microphone and a second audio signal request for the second camera module not connected to the microphone from the client terminal, and transmit the actual audio signal request to the first camera module. A communication interface for receiving an actual audio signal response from the first camera module and transmitting a first audio signal response for the first camera module and a second audio signal response for the second camera module to the client terminal. ; And
The first camera module and the second camera module may be distinguished from each other by setting the first camera module and the second camera module as a group, and the first and second camera modules may be distinguished from each other. A processor that generates a real audio signal request and generates a first audio signal response that includes the real audio signal and a second audio signal response that includes the real audio signal in response to the real audio signal response Surveillance system. The method according to claim 1,
And the processor distinguishes the first camera module from the second camera module based on whether the microphone receives the actual audio signal. The method according to claim 1,
The communication interface receives a first audio configuration setting request for the first camera module from the client terminal, transmits an actual audio configuration setting request to the first camera module, and sets a virtual audio configuration for the second camera module. Send a request,
And the processor generates the actual audio configuration setting request and the virtual audio configuration setting request in response to the first audio configuration setting request. The method according to claim 3,
The first camera module sets an actual audio configuration of the first camera module in response to the actual audio configuration setting request.
And the second camera module sets the virtual audio configuration of the second camera module in response to the virtual audio configuration setting request. The method according to claim 4,
And the actual audio configuration comprises at least one of an audio source configuration, an audio encoder configuration, and an audio output configuration. A microphone for producing an actual audio signal;
A communication interface for receiving an audio signal request for one camera module of a plurality of camera modules from a client terminal and transmitting an audio signal response for the one camera module to the client terminal; And
And a processor for generating the audio signal response to the one camera module including the actual audio signal in response to the audio signal request. Distinguishing, by a processor, the first camera module connected to a microphone and the second camera module not connected to a microphone while setting the first camera module and the second camera module as a group;
Receiving, by a communication interface, a first audio signal request for the first camera module from a client terminal;
Generating, by the processor, an actual audio signal request in response to the first audio signal request;
Sending, by the communication interface, the actual audio signal request to the first camera module;
Receiving, by the communication interface, an actual audio signal response from the first camera module;
Generating, by the processor, a first audio signal response comprising the actual audio signal in response to the actual audio signal response;
Sending, by the communication interface, the first audio signal response to the first camera module to the client terminal;
Receiving, by the communication interface, a second audio signal request for the second camera module from the client terminal;
Generating, by the processor, an actual audio signal request in response to the second audio signal request;
Sending, by the communication interface, the actual audio signal request to the first camera module;
Receiving, by the communication interface, an actual audio signal response from the first camera module;
Generating, by the processor, a second audio signal response comprising the actual audio signal in response to the actual audio signal response; And
And transmitting, by the communication interface, the second audio signal response to the second camera module to the client terminal. The method according to claim 7,
The step of distinguishing the first camera module and the second camera module,
And dividing the first camera module from the second camera module based on whether the actual audio signal is received from the microphone. The method according to claim 7,
Receiving, by the communication interface, a first audio configuration setting request for the first camera module from the client terminal;
Generating, by the processor, an actual audio configuration setting request and a virtual audio configuration setting request in response to the first audio configuration setting request; And
Sending, by the communication interface, the actual audio configuration setting request to the first camera module and sending the virtual audio configuration setting request to the second camera module. The method according to claim 9,
Setting, by the first camera module, an actual audio configuration of the first camera module in response to the actual audio configuration setting request; And
Setting, by the second camera module, a virtual audio configuration of the second camera module in response to the virtual audio configuration setting request.

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