KR101856742B1 - A security system and method for managing intergrated video information and sensor data - Google Patents

Abstract

A security system and method for integrally managing image information and sensor data are disclosed. According to the present invention, the image information and the sensor data are matched with multiple channels for integration and integrally managed, thereby improving convenience in management. To this end, the security system comprises: a camera unit for photographing a surrounding environment to generate a first image; a sensor unit for sensing environmental information of the surrounding environment to generate a sensor data value; and a control unit for receiving the first image from the camera unit, receiving the sensor data value from the sensor unit, generating a second image by overlaying the first image with the sensor data value, and transmitting the second image to a user terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a security system and a security system for managing integrated image information and sensor data,

The present invention relates to a security system and method, and more particularly, to a security system and method for integrating and managing image information and sensor data by matching and integrating image information and sensor data in multiple channels.

It has developed rapidly due to the increasing demand for video security solutions since the 9/11 attacks in the United States and has been one of the most technologically and socially interested fields such as the US government has chosen to be one of the four technology fields to focus on.

Image security is an image analysis solution for building intelligent surveillance environment that is more intelligent and autonomous than the labor-intensive surveillance environment based on simple monitoring. The technology is continuously growing, and it is combined with remote human identification The development of a variety of new services has been under way, and the combination of IoT technology is a recent technology trend.

Along with the growth of technology of HW, SW, and solutions such as cameras, technologies for intelligent image analysis and image security are also growing.

In the case of these security industries, the number of CCTV installations in the United States reaches 15 million, and in the UK, it is reported that it reaches 4.4 million. In addition, Korea has installed about 4 million CCTVs, and the frequency of terrorist and violent crimes is increasing worldwide, and demand for CCTV is expected to continue to increase. Demand for natural disasters is expected to steadily increase. The physical security market is estimated to have reached $ 50.8 billion in 2007, and the market is expected to reach $ 83.9 billion in 2018. The domestic physical security market is expected to grow from 1,482.4 billion won in 2007 to 4,281.4 billion won in 2018 It is expected to form a scale.

Various security-related technologies have been developed in response to this trend, and Korean Patent Laid-Open Publication No. 10-2012-0050073 (published May 18, 2012) discloses a real-time fire monitoring system using a closed-circuit television camera and a method thereof have.

However, in the conventional technology, it is possible to easily detect whether or not a fire has occurred by judging in real time whether an image photographed by a CCTV camera is a flame (flame) image, and to easily integrate with various peripheral devices such as sensors, There is no disclosure of the method of communicating with the sensor, and there is a problem that no method of reducing the malfunction can be presented.

Korean Patent Publication No. 10-2012-0050073 (published May 18, 2012)

Accordingly, a first object of the present invention to solve such a problem is to improve management convenience by managing image information and sensor data in an integrated manner, and to reduce malfunction of devices by using Z-wave communication technology And a security system that integrates and manages image information and sensor data that can enhance security by activating a security system when a user departs from a specific point using a WiFi as a trigger.

In addition, the second purpose of the present invention is to improve the convenience of management by integrating and managing the image information and the sensor data, and it is possible to reduce the malfunction of the device by using the Z-WAVE communication technology, The present invention provides a security method for integrating and managing image information and sensor data that can enhance security by activating a security system when departing from a specific point.

According to an aspect of the present invention, there is provided a security system comprising: a camera unit for capturing a surrounding environment and generating a first image; a sensor unit for sensing environmental information of a surrounding environment to generate sensor data; Receives the first image from the sensor unit, receives the sensor data value from the sensor unit, generates a second image by overlaying the sensor data value on the first image, and transmits the second image to the user terminal And a control unit.

The control unit may include a communication module that receives a first image captured by the camera unit and receives sensor data values sensed by the sensor unit, and an overlay module that overlays the first image and the sensor data values .

The camera unit may include a photographing module for photographing the surrounding environment and a malfunction determination module for determining whether the photographing module is operating normally.

The overlay module sets a plurality of first images received from a plurality of camera units as separate channels for each first image, overlays sensor data values on a plurality of first images using a set separate channel, 2 images, and the plurality of second images may be managed as separate channels.

According to another aspect of the present invention, there is provided a security method, comprising: generating a first image by photographing a surrounding environment of a camera unit; generating a sensor data value by sensing environmental information of a surrounding environment; Receiving a first image from the camera unit, receiving the sensor data value from the sensor unit, and the controller overlaying the sensor data value on the first image to generate a second image And transmitting the second image to the user terminal by the control unit.

The step of photographing the environment of the camera and generating the first image may include determining whether the malfunction determination module operates normally.

Wherein the control unit generates a second image by overlaying the sensor data value on the first image, the control unit receiving a plurality of first images from the plurality of camera units, And generating a plurality of second images by overlaying the sensor data values on the plurality of first images using the separate channels set by the controller.

According to the security system and method of managing the video information and the sensor data of the present invention, the convenience of management can be improved by integrating and managing the video information and the sensor data, and the Z-WAVE communication technology Thereby reducing the malfunction of the device, and when the user leaves the specific point by using WiFi as a trigger, the security system can be operated to enhance the security.

1 is a diagram showing a schematic configuration of a security system according to an embodiment of the present invention.
2 is a diagram showing a schematic configuration of a control unit as one configuration of the present invention.
3 is a diagram showing a schematic configuration of a camera unit as one configuration of the present invention.
4 is a diagram showing a schematic flow of a security method according to an embodiment of the present invention.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to best describe the user's invention And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Throughout the specification, when an element is referred to as " comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. In addition, the term " "... "," ... Unit, "" module, "" device, "and the like refer to a unit that processes at least one function or operation, which may be implemented as a combination of hardware and / or software.

The terms used in the embodiments of the present invention will be briefly described, and these embodiments will be described in detail.

Although the terms used in the embodiments of the present invention have been selected in consideration of the functions of the present invention, the present invention is not limited thereto and can be varied depending on the intention or the precedent of the artisan skilled in the art, . Also, in certain cases, some terms are arbitrarily selected by the applicant, and in this case, the meaning thereof will be described in detail in the description of the corresponding embodiments. Therefore, the terms used in the embodiments should be defined based on the meaning of the terms, not on the names of simple terms, and on the contents of the embodiments throughout.

In an embodiment of the present invention, terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Further, in the embodiments of the present invention, the singular expressions include plural expressions unless the context clearly indicates otherwise.

Furthermore, in the embodiments of the present invention, terms such as "comprises" or "having ", etc. are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, Steps, operations, elements, components, or combinations of elements, numbers, steps, operations, components, parts, or combinations thereof.

Also, in the embodiments of the present invention, 'module' or 'sub' performs at least one function or operation, and may be implemented in hardware or software, or a combination of hardware and software. In addition, a plurality of 'modules' or a plurality of 'parts' may be integrated into at least one module except for 'module' or 'module' which needs to be implemented by specific hardware, and may be implemented by at least one processor.

Further, in the embodiment of the present invention, when a part is referred to as being "connected" with another part, it is not limited to a case where it is " directly connected " And the like.

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

1 is a diagram showing a schematic configuration of a security system according to an embodiment of the present invention.

Referring to FIG. 1, the security system includes a control unit 100, a sensor unit 10, a camera unit 20, and a user terminal 30.

Communication can be performed between the sensor unit 10, the control unit 100, the camera unit 20, and the user terminal 30, and such communication can be performed using wired or wireless communication.

In the case of wireless communication, various communication chips such as a Wi-Fi chip, a Bluetooth chip, an NFC chip, and a wireless communication chip can be used. At this time, the Wi-Fi chip, the Bluetooth chip, and the NFC chip communicate with each other using the WiFi method, the Bluetooth method, and the NFC method. Among these, the NFC chip refers to a chip operating in an NFC (Near Field Communication) system using 13.56 MHz band among various RF-ID frequency bands such as 135 kHz, 13.56 MHz, 433 MHz, 860 to 960 MHz and 2.45 GHz. When a Wi-Fi chip or a Bluetooth chip is used, various connection information such as an SSID and a session key may be transmitted and received first, and communication information may be used to transmit and receive various information. The wireless communication chip refers to a chip that performs communication according to various communication standards such as IEEE, ZigBee, 3G (3rd Generation), 3rd Generation Partnership Project (3GPP), LTE (Long Term Evolution)

The camera unit 20 photographs the surrounding environment to generate a first image.

The camera unit 20 may include various cameras such as a CCTV Camera PTZ, an IP Network Camera, an IP Network & Speed Dome Camera, a Megapixel / HD Network Camera, and an LPR (License Plate Recognition) IP camera.

The first image includes not only the surrounding environment but also the shooting date. Time, and the like.

The sensor unit 10 senses environmental information of the surrounding environment and generates a sensor data value.

More specifically, the sensor unit 10 measures the temperature, humidity, illuminance, heat, smoke, NO ₂ (nitrogen dioxide) It is possible to detect various environmental information such as CO (carbon monoxide) and CO ₂ (carbon dioxide), and generate sensor data values using the sensed environment information.

In addition, the sensor unit 10 may include a door sensor for sensing the movement of the door, or a door lock sensor for sensing whether the door lock is locked or unlocked.

Accordingly, the sensor unit 10 can sense the movement of the door, or detect whether the door lock is locked or unlocked.

When the sensor unit 10 senses the movement of the door, or detects whether the door lock is locked or unlocked, the sensor unit 10 can transmit the contents to the controller 100.

The content may be door door motion detection, door lock detection, or door lock release.

The sensor unit 10 may be controlled by a control signal received from the user terminal 30. [

This control signal may be, for example, a door lock signal or a door lock release signal.

That is, the sensor unit 10 can be controlled by the control signal transmitted from the user terminal 30 through the communication between the user terminal 30 and the sensor unit 10.

The control unit 100 receives the first image from the camera unit 20, receives the sensor data value from the sensor unit 10, overlaid the sensor data value on the first image to generate a second image, And transmits the image to the user terminal 30.

The second image may include the event generation contents, the date and time of sensing environmental information of the surrounding environment, and the like.

Accordingly, when the controller 100 overlays the sensor data value on the first image, the controller 100 can overlay the first image sensing time and date and the time and date of sensing the environmental information of the sensor data value in synchronization with each other.

2 is a diagram showing a schematic configuration of a control section 100 as one configuration of the present invention.

2, the control unit 100 may include a communication module 110, an overlay module 120, a storage module 130, a control module 140, and an event determination module 150.

The communication module 110 can receive the first image photographed from the camera unit 20 and receive the sensor data value sensed by the sensor unit 10. [

More specifically, when the communication module 110 receives the first image from the camera unit 20, wired or wireless communication may be used.

In the case of wireless communication, various communication chips such as a Wi-Fi chip, a Bluetooth chip, an NFC chip, and a wireless communication chip can be used. At this time, the Wi-Fi chip, the Bluetooth chip, and the NFC chip communicate with each other using the WiFi method, the Bluetooth method, and the NFC method. Among these, the NFC chip refers to a chip operating in an NFC (Near Field Communication) system using 13.56 MHz band among various RF-ID frequency bands such as 135 kHz, 13.56 MHz, 433 MHz, 860 to 960 MHz and 2.45 GHz. When a Wi-Fi chip or a Bluetooth chip is used, various connection information such as an SSID and a session key may be transmitted and received first, and communication information may be used to transmit and receive various information. The wireless communication chip refers to a chip that performs communication according to various communication standards such as IEEE, ZigBee, 3G (3rd Generation), 3rd Generation Partnership Project (3GPP), LTE (Long Term Evolution)

In this case, the communication module 110 may use a universal asynchronous receiver / transmitter (UART) or an SPI (Universal Asynchronous Receiver / Transmitter) Serial Programming Interface).

As described above, the communication module 110 receives the sensor data value from the sensor unit 10 using the Z-wave chip, so that the communication module 110 does not receive interference from radio waves.

That is, when the communication module 110 receives the sensor data value using the Wifi or the Bluetooth method from the sensor unit 10, the radio wave interference may occur because the frequency of the Wifi or the Bluetooth is the same.

When the radio wave interference occurs, it may be difficult to receive the sensor data value. Therefore, when the communication module 110 receives the sensor data value from the sensor unit 10, the Z-Wave chip is used and the UART Universal asynchronous receiver / transmitter) or SPI (Serial Programming Interface).

The overlay module 120 may overlay the first image and sensor data values.

More specifically, the overlay module 120 may overlay the first image and the sensor data value to generate a second image.

At this time, the second image may be generated by encoding the sensor data values to be integrated with the first image.

In addition, the overlay module 120 may set a plurality of first images received by the communication module 110 from the plurality of camera units 20 as separate channels for each first image.

The overlay module 120 may generate a plurality of second images by overlaying the sensor data values on the plurality of first images using the set separate channels.

The overlay module 120 can set and manage a plurality of second images as separate channels.

In addition, when the overlay module 120 overlays the sensor data value on the first image, the overlay module 120 can overlay the first image pickup time and date and the time and date of sensing the environmental information of the sensor data value.

The sensing time and date of the sensor data value generated by sensing the environmental information of the surrounding environment by the sensor unit 10 and the shooting time and date of the first image generated by photographing the surrounding environment of the camera unit 20 So that it is possible to prevent errors in the second image generation process.

The storage module 130 may store at least one of the first image and the second image, and the storage module 130 may store at least one of the first image and the second image by dividing the first image and the second image into separate channels.

In addition, the storage module 130 may store sensor data values, which may be stored separately for different channels.

The external server (not shown) may receive and store at least one of the first image, the second image, and the sensor data value from the communication module 110.

Also, the external server (not shown) may store at least one of the first image, the second image, and the sensor data values separately for each of the channels, as in the storage module 130.

And the control module 140 may perform Wifi triggering.

More specifically, the communication module 110 can communicate with the user terminal 30 using a Wi-Fi chip in a Wifi manner.

In this case, when the user terminal 30 can not perform the Wifi communication between the communication module 110 and the user terminal 30 due to the deviation from the first zone, the control module 140 controls the communication module 110 ) To transmit the second image to the user terminal 30.

At this time, various communication methods including a Wifi method can be used as a method for the communication module 110 to transmit the second image.

The reason for including the Wifi method is that the user terminal 30 can perform Wifi communication with the communication module 110 in the second area even if the user terminal 30 moves out of the first area.

If the user terminal 30 is unable to perform Wifi communication between the communication module 110 and the user terminal 30 due to the user terminal 30 deviating from the first zone in which the boiler is installed, The user having the user terminal 30 can directly communicate with the communication module 110 in the second zone in which the valve is located, It is possible to identify the valve and confirm the situation of the first zone where the boiler is installed through the second image displayed by the user terminal 30, even in the second zone with the gas valve. Also, even though the first zone in which the boiler is installed and the second zone in which the gas valve is installed are located in the third zone out of the possession of the owner of the user terminal 30, The second image can be received and confirmed. This is because each second image is stored and managed on each channel.

The event determination module 150 may determine whether an event has occurred based on the previously stored scenario.

Pre-stored scenarios may refer to gas leaks and the like.

That is, NO ₂ (nitrogen dioxide) that can judge gas leakage, When the communication module 110 receives sensor data values for CO (carbon monoxide), CO ₂ (carbon dioxide), etc. from the sensor unit 10, NO ₂ (nitrogen dioxide) If the sensor data value for CO (carbon monoxide), CO ₂ (carbon dioxide), etc. is a value corresponding to the pre-stored gas leakage scenario, the event determination module 150 may determine that an event of gas leakage has occurred.

In addition, the event determination module 150 may determine that an event has occurred if the change in the sensor data value is greater than a preset change.

For example, if the sensor data value for temperature and humidity is kept constant and a change in the sensor data value is greater than a preset change, the event determination module 150 may determine that an event of fire occurrence has occurred.

Here, the sensor data value may be stored in the storage module 130 or may be stored in an external server (not shown).

If the event determination module 150 determines that an event has occurred, the control module 140 may control the communication module 110 to transmit the event occurrence content to the user terminal 30. [

Using the contents received from the sensor unit 10 by the communication module 110, the control module 140 transmits the first image captured by the camera unit 20 adjacent to the door or door lock sensor to the user terminal 30 ). ≪ / RTI >

3 is a diagram showing a schematic configuration of a camera section 20 as one configuration of the present invention.

Referring to FIG. 3, the camera unit 20 may include an imaging module 21 and a malfunction determination module 22.

The photographing module 21 can photograph the surrounding environment.

That is, the photographing module 21 may be composed of various cameras such as CCTV Camera PTZ, IP Network Camera, IP Network & Speed Dome Camera, Megapixel / HD Network Camera, License Plate Recognition (LPR) .

The malfunction determination module 22 can determine whether the imaging module 21 is operating normally.

More specifically, the malfunction determination module 22 can determine whether or not the photographing module 21 is operating normally by determining the presence or absence of an electrical signal abnormality of the photographing module 21.

If the malfunction determination module 22 determines that the imaging module 21 is malfunctioning, the malfunction determination module 22 can control to restart the imaging module 21 and transmit the malfunction content of the imaging module 21 to the user terminal 30. [

Accordingly, the owner of the user terminal 30 can check whether the photographing module 21 is operating normally.

4 is a diagram showing a schematic flow of a security method according to an embodiment of the present invention.

Referring to FIG. 4, the camera unit 20 may generate a first image by photographing the surrounding environment (S430)

Then, the malfunction determination module 22 can determine whether the photographing module 21 is operating normally.

In addition, the sensor unit 10 may sense the environmental information of the surrounding environment to generate the sensor data value (S431)

In addition, the control unit 100 may receive the first image from the camera unit 20 (S432)

Then, the controller 100 may receive the sensor data value from the sensor unit 10 (S433)

In addition, the controller 100 may generate a second image by overlaying the sensor data value on the first image (S434)

The control unit 100 can receive a plurality of first images from the plurality of camera units 20 and the control unit 100 can set a separate channel for each first image. A plurality of second images can be generated by overlaying sensor data values on a plurality of first images using channels.

Then, the control unit 100 may transmit the second image to the user terminal 30 (S435)

As described above, the security system for managing the image information and the sensor data according to the embodiment of the present invention and the method and operation of the security method can be performed. While the present invention has been described with respect to specific embodiments thereof, May be practiced without departing from the scope of the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and that various modifications and changes may be made by those skilled in the art.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, disclosure methods should be considered from an illustrative point of view, not from a restrictive point of view. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

10: sensor unit 20: camera unit
21: photographing module 22: malfunction determination module
30: User terminal 100:
110: communication module 120: overlay module
130: storage module 140: control module
150: Event determination module

Claims (7)

A security system comprising:
A camera unit for photographing the surrounding environment to generate a first image;
A sensor unit for sensing environmental information of a surrounding environment and generating a sensor data value;
Receiving the first image from the camera unit, receiving the sensor data value from the sensor unit, overlaying the sensor data value on the first image to generate a second image, ;
Lt; / RTI >
The control unit
A communication module for receiving a first image photographed from the camera unit and receiving sensor data values sensed by the sensor unit;
An overlay module for overlaying the first image and the sensor data value;
A control module for controlling the communication module to transmit the first image to a user terminal;
/ RTI >
The sensor unit
A door sensor for detecting a movement of a door or a door lock sensor for detecting whether or not a door lock and unlock is detected to detect movement of a door and to detect whether door lock is locked or unlocked,
The communication module
And performing a Wifi communication using the Wi-Fi chip with the user terminal,
The control module
Wherein the control unit controls the communication module to transmit the first image captured by the camera unit adjacent to the door or the door lock sensor to the user terminal using the corresponding content received from the sensor unit, The communication module controls the second module to transmit the second image captured by the first module to the user terminal when the communication module can not perform the Wifi communication between the communication module and the user terminal. system.
delete The method according to claim 1,
The camera unit
A photographing module for photographing the surrounding environment; and
A malfunction determination module for determining whether the photographing module is operating normally;
.
The method according to claim 1,
The overlay module
A plurality of first images received from a plurality of camera units are set as separate channels for each first image and a plurality of second images are generated by overlaying sensor data values on a plurality of first images using the set separate channels And the plurality of second images are managed as separate channels.
In a security method,
Generating a first image by photographing a surrounding environment of a camera unit;
Generating a sensor data value by sensing environmental information of a surrounding environment;
The control unit receiving the first image from the camera unit;
The control unit receiving the sensor data value from the sensor unit;
The control unit overlaying the sensor data value on the first image to generate a second image;
The control unit transmitting the second video to a user terminal;
, ≪ / RTI &
The step of the controller transmitting the second image to the user terminal
Sensing the movement of the door or detecting whether the door lock is locked or unlocked using a door sensor for detecting movement of the door of the sensor unit or a door lock sensor for detecting whether the door lock is locked or unlocked;
Transmitting the contents to the communication module when the sensor unit senses the movement of the door or detects whether the door lock is locked or unlocked;
Controlling the communication module to transmit to the user terminal a first image captured by the camera unit adjacent to the door or the door lock sensor using the corresponding content received from the sensor unit by the control module;
Determining whether the communication module is unable to perform Wifi communication between the communication module and the user terminal by leaving the user terminal out of the first zone;
When the user terminal is out of the first zone and can not perform Wifi communication between the communication module and the user terminal, the control module causes the communication module to transmit the second image, Controlling to transmit to the user terminal;
/ RTI >
The step of photographing the surrounding environment of the camera unit and generating a first image
Determining whether the malfunction determination module operates normally or not;
≪ / RTI >
delete 6. The method of claim 5,
Wherein the step of the controller overlaying the sensor data value on the first image to generate the second image
The control unit receiving a plurality of first images from a plurality of camera units;
The control unit setting a separate channel for each first image;
Generating a plurality of second images by overlaying sensor data values on the plurality of first images using separate channels set by the controller;
≪ / RTI >

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