KR102129750B1 - Small cell base station based on 5g mobile communication - Google Patents

Abstract

The present invention relates to a small cell base station device based on 5th generation (5G) mobile communications capable of acquiring an image, which comprises: a base station body portion fixed to and installed on a column or a wall surface provided in a designated place indoors or outdoors; an image acquiring module for outputting image acquisition information data by acquiring an image of the vicinity of the base station body portion; a 5G data communications module for transmitting and receiving data to and from at least one of an external terminal, a server and a small cell base station by a 5G mobile communications method; a 5G cell control module for periodically collecting image acquisition information data output from the image acquiring module to combine and compress the same with pre-stored unique device identification information, and controlling operation of the 5G data communications module such that the image acquisition information data combined and compressed with the unique device identification information is loaded and transmitted together with data transmitted and received through the 5G data communications module; and a power supply module for supplying power required for each of the modules. Therefore, the present invention has effects of efficiently managing and monitoring an image of the vicinity of a small cell base station quickly and accurately through an external terminal and/or server by transmitting 5G data, as well as effectively performing a function as a surveillance camera for preventing crime instead of an existing CCTV system.

Description

SMALL CELL BASE STATION BASED ON 5G MOBILE COMMUNICATION on the basis of 5th generation mobile communication capable of image acquisition

The present invention relates to a small cell (Small Cell) base station device in the 5G (5Generation, 5G) mobile communication base capable of image acquisition.

In general, in a mobile communication terminal, G stands for'Generation', which means generation. Here, the generations are classified based on when the technology is significantly different. In general, generations are classified according to how advanced the technology capable of rapidly transmitting and receiving a large amount of data is.

That is, the first generation (1G) is an analog type mobile communication only capable of voice calls, and the second generation (2G) is a digital system that converts analog voice into digital signals or transmits or receives digital signals themselves. The third generation (3G) is a method in which both voice data and non-voice data (eg, data download, mail exchange, message transmission, etc.) can be transmitted. In the 4th generation (4G), all services such as voice, video phone, multimedia, Internet, voice mail, and instant messages are available in one terminal. LTE is the fourth generation (4G) mobile communication, and the biggest characteristic distinguished from the third generation (3G) is speed.

In addition, 5th generation (5G) mobile communication refers to a mobile communication technology capable of giga-class wireless Internet that is at least 13 times (1 Gbps) and up to 1,300 times (100 Gbps) faster than LTE (75 Mbps), which is 4th generation (4G) mobile communication.

The official term of this 5th generation (5G) mobile communication is IMT-2020, which refers to the Internet of Things (IoT) that targets objects such as objects and cars in addition to people, and the Giga-class Ubiquitous Network. ) Is a communication service that provides cost and energy efficiency to all users, including people and things, and devices are connected through a 5th generation (5G) network to enable ultra-fast, large-capacity, ultra-connected, and ultra-real-time services. Offers different new values.

In other words, in the future that will evolve into the evolution of 5G (5G) mobile communication, ultra-high-capacity video content (8K-UHD_160Mbps) will become common due to the significantly increased transmission speed, thereby expanding 3D video or hologram services and delaying network latency. A real-time two-way ultra-real-time service is realized in ms, enabling communication services between devices.

In addition, it provides AR (Augmented Reality) and VR (Virtual Reality) services that are difficult to distinguish from reality with ultra-real-time processing and high-speed transmission speed, and enables real-time services for various Internet of Things (IoT) devices. In other words, hyper-connectivity, ultra-high-speed, and ultra-real-time processing communication services will enable realistic augmented reality, telemedicine, and autonomous driving.

On the other hand, a small cell (Small Cell) refers to a low-power wireless access base station having an operating range of about several hundred meters (m), by positioning the mobile communication terminal close to the base station to reduce the operating range (cell size) or decrease the communication quality or It is a communication equipment that can solve problems such as occurrence of shaded areas.

Such a small cell also has the advantage of reducing the power consumption of the mobile communication terminal by placing the mobile communication terminal close to the base station, and the installation cost and maintenance cost are less than that of the existing base station.

In addition, the small cell may be classified into a metro cell, a micro cell, a pico cell, and a femto cell according to the use range and use, and the installation area and service Depending on the purpose, it can be divided into a hot spot installed in a home, an enterprise, and a store.

However, a conventional small cell has a function of simply connecting communication between a mobile communication terminal and a base station, and as the 5G (5G) mobile communication technology develops, a small cell having various functions is in demand.

Domestic patent registration No. 10-1602975

The present invention has been devised to solve the above-mentioned problems, and an object of the present invention is to provide an image acquisition module for acquiring peripheral images of a small cell base station device based on 5G (5G) mobile communication. By periodically collecting the image information data obtained through this By carrying data transmitted and received through the 5G data communication module together and transmitting it to an external terminal, server, and/or small cell base station, it can effectively perform a function as a surveillance camera for crime prevention instead of the existing CCTV system. In addition, the 5th generation (5G) data transmission enables fast and accurate image management to efficiently manage and monitor the surrounding images of small cell base station devices through external terminals and/or servers. It is intended to provide a small cell base station apparatus.

Another object of the present invention is to provide at least one LED lighting module on the inside/outside of the main body provided in the small cell base station device based on the 5th generation (5G) mobile communication base, and/or the operating state and/or By periodically collecting information data on lighting management It is loaded with data transmitted/received through the 5G data communication module and transmitted to an external terminal, server, and/or small cell base station, so that it can illuminate a dark place instead of the existing street light, as well as 5th generation (5G) data. A small cell base station device based on the 5th generation mobile communication capable of acquiring images to efficiently manage and monitor the operation status and/or lighting management of LED lights quickly and accurately through an external terminal and/or server by transmission. To provide.

Another object of the present invention is a variety of temperature, humidity, air pressure, ultraviolet rays, fine dust, ultra fine dust, radon concentration, etc., generated in the vicinity of a small cell base station device provided in the 5th generation (5G) mobile communication base. By collecting environmental information data, it is possible to quickly and accurately manage and monitor the surrounding environmental information efficiently through external terminals and/or servers by collecting a wide range of environmental information using a small cell base station device and transmitting 5th generation (5G) data. It is to provide a small cell base station device based on the 5th generation mobile communication capable of acquiring an image.

Another object of the present invention is to supply the necessary power through a separate solar power module when the supply power required for a small cell base station device installed in a designated place indoors and/or outdoors is cut off due to a power failure or an accident, An object of the present invention is to provide a small cell base station device based on a 5th generation mobile communication capable of acquiring an image so that power required for a small cell base station body can be continuously supplied without blocking.

Another object of the present invention is to provide a fire detection module for monitoring a fire occurring in the vicinity of a small cell base station device installed in a designated place indoors and/or outdoors, to quickly respond to a fire and spread into a large fire. It is to provide a small cell base station device based on the 5th generation mobile communication capable of acquiring an image so that it can be effectively prevented.

In order to achieve the above object, an aspect of the present invention comprises an entire body, the base station main body is fixed to the column or wall provided in a designated place indoors or outdoors; An image acquisition module which is provided on at least one of a pillar, a wall surface on which the base station main body is installed, or an outer surface of the base station main body, and acquires an image of the surroundings of the base station main body to output image acquisition information data; A 5G data communication module provided inside the main body of the base station and transmitting/receiving data with at least one of an external terminal, a server, or a small cell base station in a 5G mobile communication method; It is provided inside the main body of the base station, and periodically collects image acquisition information data output from the image acquisition module, combines and compresses it with unique device identification information stored in advance, and combines and compresses the unique device identification information. A 5G cell control module that controls the operation of the 5G data communication module so that the acquired information data is carried together with data transmitted and received through the 5G data communication module; And a small cell base station device based on the 5th generation mobile communication capable of acquiring an image, which is provided inside or outside the base station main body, and includes a power supply module that supplies power required for each module.

Here, the 5G cell control module periodically collects the image acquisition information data output from the image acquisition module, combines and compresses the unique device identification information stored in advance, and combines and compresses the unique device identification information. It is preferable to control the acquired information data to be transmitted to at least one of a preset terminal, server, or small cell base station through the 5G data communication module.

Preferably, the 5G cell control module performs a self-diagnosis test on an operation state of the image acquisition module at a preset self-diagnosis test time interval, and then performs self-diagnosis of normal or malfunction according to the operation state of the image acquisition module. The test result information data is generated and combined with unique device identification information stored in advance, and the self-diagnostic test result information data combined with the unique device identification information is loaded on the data transmitted and received through the 5G data communication module to be transmitted. It is possible to control the operation of the 5G data communication module or to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, a fire detection module may be further included to output a fire detection signal for a fire by using at least one wavelength sensor that detects a wavelength of flame generated around the base station main body.

Preferably, the 5G cell control module receives the fire detection signal output from the fire detection module, analyzes it, generates a predetermined fire detection level, and sets a predetermined fire warning image corresponding to the generated fire detection level and It generates a warning sound, combines the generated fire warning image and the warning sound with the captured image obtained from the image acquisition module, combines and compresses the unique device identification information previously stored together with the synthesized image information data to compress it. It is possible to control the operation of the 5G data communication module to be carried together with data transmitted and received through the 5G data communication module.

Preferably, the 5G cell control module performs a self-diagnostic test on the operation state of the fire detection module at a preset self-diagnosis test time interval, and then performs self-diagnosis of normal or malfunction according to the operation state of the fire detection module. The test result information data is generated and combined with unique device identification information stored in advance, and the self-diagnostic test result information data combined with the unique device identification information is loaded on the data transmitted and received through the 5G data communication module to be transmitted. It is possible to control the operation of the 5G data communication module or to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, the 5G cell control module receives the fire detection signal output from the fire detection module, analyzes it, generates a predetermined fire detection level, and sets a predetermined fire warning image corresponding to the generated fire detection level and It generates a warning sound, combines the generated fire warning image and the warning sound with the captured image obtained from the image acquisition module, combines and compresses the unique device identification information previously stored together with the synthesized image information data to compress it. It may be controlled to be transmitted to at least one of a preset terminal, server, or small cell base station through the 5G data communication module.

Preferably, a camera driving module for changing a position of a camera unit provided in the image acquisition module or performing a zoom operation may be further provided.

Preferably, the 5G cell control module is a fan of the camera unit according to the position change control signal of the camera unit transmitted from at least one of a preset terminal, server, or small cell base station through the 5G data communication module or a separate wireless communication module. (Pan) or tilt (Tilt) control to control the operation of the camera driving module so that the shooting target is changed or the camera according to the zoom control signal of the camera unit transmitted from at least one of a preset terminal, server or small cell base station By controlling the negative zoom operation, the operation of the camera driving module may be controlled such that the photographing object is enlarged or reduced.

Preferably, the 5G cell control module performs a self-diagnostic test on the operation status of the camera driving module at a preset self-diagnosis test time interval, and then performs self-diagnosis of normal or malfunction according to the operation status of the camera driving module. The test result information data is generated and combined with unique device identification information stored in advance, and the self-diagnostic test result information data combined with the unique device identification information is loaded on the data transmitted and received through the 5G data communication module to be transmitted. It is possible to control the operation of the 5G data communication module or to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, the LED lighting module is provided on the inside or outside of the base station main body, and includes at least one LED light emitting light; And it is provided on the inside or outside of the base station main body, the LED lighting driving module for applying a driving power to the LED lighting module may be further included.

Preferably, the 5G cell control module periodically collects information data on at least one operation state and lighting management of the LED lighting module or the LED lighting driving module, and combines it with unique device identification information stored in advance. The 5G data such that unique device identification information is combined, and information data on at least one operation state and lighting management of the LED lighting module or the LED lighting driving module is transmitted together with data transmitted and received through the 5G data communication module. You can control the operation of the communication module.

Preferably, the 5G cell control module may control the operation of the LED lighting driving module such that driving power is applied to the LED lighting module during a predetermined operation time.

Preferably, the 5G cell control module, so that the driving power is applied or blocked to the LED lighting module according to the operation control signal of the LED lighting module transmitted from the outside through the 5G data communication module or a separate wireless communication module The operation of the LED lighting driving module can be controlled.

Preferably, the 5G cell control module performs a self-diagnostic test on an operation state of at least one of the LED lighting module, the LED lighting driving module, or the 5G data communication module at a preset self-diagnosis test time interval. , Generates self-diagnosis test result information data of normal or failure according to the operation status of the corresponding module, combines it with unique device identification information stored in advance, and retrieves self-diagnosis test result information data combined with the unique device identification information. The operation of the 5G data communication module may be controlled to be carried together with data transmitted/received through the 5G data communication module, or may be controlled to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, an illuminance measurement sensor module that is provided inside or outside the base station main body portion and measures the amount of light that changes according to the ambient illumination environment of the base station main body portion may be further included.

Preferably, the 5G cell control module may control the operation of the LED lighting driving module so that the brightness of the LED lamp provided in the LED lighting module is adjusted according to the amount of light measured from the illuminance sensor module.

Preferably, the 5G cell control module, the LED lighting driving module so that the LED lamp provided in the LED lighting module is turned on when the light measured from the illuminance measurement sensor module is smaller than a preset first reference light quantity. In addition to controlling the operation of the LED lighting driving module, the LED lamp provided in the LED lighting module is turned off when the light measured from the illuminance measurement sensor module is larger than the preset second reference light quantity. Can be controlled.

Preferably, the first reference light quantity value and the second reference light quantity value may be set to be the same as or different from each other.

Preferably, the 5G cell control module, the LED lighting module, the LED lighting driving module, the illuminance measurement sensor module or the 5G data communication according to the amount of light measured from the illuminance measurement sensor module at a preset self-diagnosis test time interval After performing the self-diagnosis test on the operation status of at least one of the modules, the self-diagnosis test result information data of normal or failure is generated according to the operation status of the corresponding module and combined with the unique device identification information previously stored, Control the operation of the 5G data communication module to transmit the self-diagnosis test result information data combined with the unique device identification information to data transmitted/received through the 5G data communication module, or a preset terminal, server, or small cell base station It can be controlled to be transmitted to at least one of.

Preferably, the 5G cell control module, if the amount of light measured from the illuminance measurement sensor module during the ON operation of the LED lamp provided in the LED lighting module is less than a preset normal reference light value, the LED lighting module The self-diagnosis test result information data may be generated by determining an operation state of at least one of the LED lighting driving module or the illuminance measurement sensor module as a failure.

Preferably, it is provided on the inside or outside of the base station main body portion fixedly installed on a column or wall provided at a designated place indoors or outdoors, and may further include a solar power generation module that collects energy from sunlight to produce power. .

Preferably, the 5G cell control module may control the operation of the LED lighting driving module so that driving power is applied to the LED lighting module using power generated from the solar power generation module.

Preferably, the photovoltaic module is installed on at least one of a pillar, a wall surface on which the base station body portion is installed, or an outer surface of the base station body portion, and a plurality of solar cell cells are formed in series or in parallel to generate electrical energy from sunlight. Solar cell panel unit for collecting; A battery unit storing electrical energy collected from the solar panel unit; A charge detection unit detecting a state of charge of the battery unit; A power conversion unit for converting electric energy stored in the battery unit into power for driving the LED lighting module; And a control unit controlling an operation of the power conversion unit so that the power converted from the power conversion unit is applied to the driving power of the LED lighting module according to the charging state value of the battery unit sensed by the charge detection unit. .

Preferably, when the charging state value of the battery unit sensed by the charging sensing unit is greater than a preset reference charging state value, the control unit causes the power converted from the power converting unit to be applied to the driving power of the LED lighting module. The operation of the power conversion unit can be controlled.

Preferably, the control unit converts the power so that the power supplied from the outside is applied to the driving power of the LED lighting module when the charging state value of the battery unit sensed by the charging sensing unit is less than a preset reference charging state value. You can control negative behavior.

Preferably, the 5G cell control module performs a self-diagnostic test on the photovoltaic power generation module at a preset self-diagnosis test time interval, and according to an operation state on the photovoltaic power generation module, normal or malfunction Generates self-diagnosis test result information data, combines it with unique device identification information stored in advance, and transmits and receives the self-diagnosis test result information data combined with the unique device identification information through a 5G data communication module connected to the 5G cell control module The operation of the 5G data communication module may be controlled to be carried together with the data to be transmitted, or may be controlled to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, it is provided on the inside or outside of the base station main body portion, it may further include an environmental data measurement module for measuring the environmental information data on the periphery of the base station main body portion.

Preferably, the 5G cell control module periodically collects environmental information measured from the environmental data measurement module and combines it with unique device identification information stored in advance, and collects environmental information data combined with the unique device identification information. The operation of the 5G data communication module may be controlled to be carried together with data transmitted and received through the 5G data communication module.

Preferably, the 5G cell control module may control the environmental information data combined with the unique device identification information to be transmitted to at least one of a preset terminal, server, or small cell base station through the 5G data communication module.

Preferably, the 5G cell control module periodically collects and compresses environmental information measured from the environmental data measurement module and combines and compresses the unique device identification information stored in advance, and the unique device identification information is combined and compressed. It is possible to control the operation of the 5G data communication module so that the environmental information data is transmitted with data transmitted and received through the 5G data communication module.

Preferably, the 5G cell control module may control the unique device identification information to be transmitted to at least one of a preset terminal, a server, or a small cell base station through the 5G data communication module. .

Preferably, the 5G cell control module performs a self-diagnosis test on an operation state of the environmental data measurement module at a preset self-diagnosis test time interval, and then performs a normal or malfunctioning operation according to the operation state of the environmental data measurement module. Generates self-diagnosis test result information data, combines it with unique device identification information stored in advance, and transmits the self-diagnosis test result information data combined with the unique device identification information to data transmitted/received through the 5G data communication module. It is possible to control the operation of the 5G data communication module or to be transmitted to at least one of a preset terminal, server, or small cell base station.

Preferably, the environmental data measurement module includes: a temperature measurement sensor unit for measuring temperature environmental information data for the surroundings of the base station main body unit, a humidity measurement sensor unit for measuring humidity environmental information data for the surroundings of the base station main body unit, and the base station Atmospheric pressure measurement sensor unit for measuring atmospheric pressure environmental information data on the periphery of the body unit, an ultraviolet measurement sensor unit for measuring ultraviolet environment information data on the periphery of the base station body unit, and measuring fine dust environmental information data on the periphery of the base station body unit At least one of a fine dust measurement sensor unit, an ultra-fine dust measurement sensor unit for measuring ultra-fine dust environmental information data on the periphery of the base station body unit, or a radon measurement sensor unit for measuring radon concentration data for the surroundings of the base station body unit. It may include one environmental information measurement sensor unit.

Preferably, the 5G cell control module, temperature, humidity, air pressure, ultraviolet rays, fine dust, ultra fine dust with respect to the periphery of the body portion measured from at least one environmental information measuring sensor unit provided in the environmental data measuring module, Alternatively, at least one environmental information data among radon concentration data may be periodically collected and unique device identification information previously stored together may be combined.

Preferably, the fine dust measuring sensor unit is a sensor for measuring fine dust having a particle diameter of 10 μm or less, and at least one fine measuring at least one air pollutant among sulfur dioxide, nitrogen oxide, lead, ozone, or carbon monoxide. It can be made by including a dust sensor.

Preferably, the ultra-fine dust measuring sensor unit is a sensor for measuring ultra-fine dust having a particle diameter of 2.5 μm or less, and at least one ultra-fine dust measuring total carbon, organic carbon, and elemental carbon contained in the ultra-fine dust. It can be made by including a sensor.

Preferably, the environmental data measurement module may further include a position and altitude measurement sensor unit for measuring the current position and elevation above the body of the base station.

Preferably, the 5G cell control module, temperature, humidity, air pressure, ultraviolet light, fine dust, ultra fine dust, or radon concentration data, including current location and elevation information of the base station body part measured through the environmental data measurement module At least one of the environment information data may be collected to combine unique device identification information previously stored therewith.

Preferably, the position and altitude measurement sensor unit may include a GPS receiver for receiving latitude, longitude, and altitude information using a plurality of Global Positioning System (GPS) satellites and obtaining current location and elevation information. .

Preferably, it is provided on the inside or outside of the base station main body portion, it may further include a photovoltaic power generation module that collects energy from sunlight to produce power.

Preferably, when the power supplied from the power supply module is cut off, the 5G cell control module can control the power required for each module to be supplied using power generated from the solar power module.

Preferably, the unique device identification information includes a small cell base station name, a small cell base station password, a small cell base station serial number, a small cell base station type, a small cell base station manufacturer, and a small cell base station MAC (Media) Access Control (Address Control) address, the unique IP (Internet Protocol) address of the small cell base station, the model of the small cell base station and the version of the small cell base station, the authentication of the small cell base station, or the authentication of the small cell base station generated by the PKI-based private key It may include at least one piece of information.

According to the small cell base station apparatus based on the 5th generation mobile communication capable of acquiring the image of the present invention as described above, obtaining a peripheral image of a small cell base station apparatus based on the 5th generation (5G) mobile communication It is equipped with an image acquisition module for and periodically collects image information data acquired through it. By carrying data transmitted and received through the 5G data communication module together and transmitting it to an external terminal, server, and/or small cell base station, it can effectively perform a function as a surveillance camera for crime prevention instead of the existing CCTV system. In addition, there is an advantage of efficiently managing and monitoring the surrounding image of the small cell base station device quickly and accurately through an external terminal and/or server through 5G data transmission.

In addition, according to the present invention, the operating state of the LED lighting by providing at least one LED lighting module on the inside / outside of the main body provided in the small cell (Small Cell) base station device in the 5G (5G) mobile communication base and / Or by periodically collecting information data on lighting management It is loaded with data transmitted/received through the 5G data communication module and transmitted to an external terminal, server, and/or small cell base station, so that it can illuminate a dark place instead of the existing street light, as well as 5th generation (5G) data. It has the advantage of efficiently managing and monitoring the operating status and/or lighting management of the LED lights quickly and accurately through an external terminal and/or server by transmission.

In addition, according to the present invention, a variety of temperature, humidity, air pressure, ultraviolet rays, fine dust, ultrafine dust, radon concentration, etc. generated in the vicinity of a small cell base station device provided in the 5th generation (5G) mobile communication base By collecting environmental information data and carrying it together on the data transmitted and received through the 5G data communication module, a wide range of environmental information is collected using a small cell base station device and the fifth generation (5G) data is transmitted through an external terminal and/or server. And it has the advantage of efficiently managing and monitoring the surrounding environment information accurately.

In addition, according to the present invention, by supplying the required power through a separate solar power module when the supply power required for a small cell base station device installed in a designated place indoors and/or outdoors is cut off due to a power failure or an accident, There is an advantage in that power required for the small cell base station body can be continuously supplied without interruption.

In addition, according to the present invention, by providing a fire detection module for monitoring a fire occurring in the vicinity of a small cell base station device installed in a designated place indoors and/or outdoors, it quickly responds to a fire and spreads to a large fire. There is an advantage that can effectively prevent things.

1 is a perspective view for explaining a small cell base station apparatus based on a 5th generation mobile communication capable of obtaining an image according to an embodiment of the present invention.
FIG. 2 is a view showing a state in which a small cell base station device is installed in a 5th generation mobile communication base capable of acquiring images according to an embodiment of the present invention.
3 is an overall block diagram for explaining a small cell base station device based on a 5th generation mobile communication capable of acquiring images according to an embodiment of the present invention.
4 is a detailed block configuration diagram for explaining an environmental data measurement module applied to an embodiment of the present invention.
5 is a detailed block diagram for explaining a solar power module applied to an embodiment of the present invention.
6 is a detailed block diagram illustrating a user terminal applied to an embodiment of the present invention.

The above-described objects, features, and advantages will be described in detail below with reference to the accompanying drawings, and accordingly, a person skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. In the description of the present invention, when it is determined that detailed descriptions of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, detailed descriptions will be omitted.

Terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may be referred to as a first component. The terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

The terminology used in the present invention has been selected from the general terms that are currently widely used as possible while considering the functions in the present invention, but this may vary depending on the intention or precedent of a person skilled in the art or the appearance of new technologies. In addition, in certain cases, some terms are arbitrarily selected by the applicant, and in this case, their meanings will be described in detail in the description of the applicable invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the entire contents of the present invention, not a simple term name.

When a certain part of the specification "includes" a certain component, this means that other components may be further included rather than excluding other components unless otherwise specified. In addition, terms such as “... unit” and “module” described in the specification mean a unit that processes at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention illustrated below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

Combinations of each block in the accompanying block diagrams and steps of the flow charts may be performed by computer program instructions (execution engines), which are executed by a general purpose computer, special purpose computer, or other programmable data processing equipment processor. Since it can be mounted, the instructions executed through a processor of a computer or other programmable data processing equipment create a means to perform the functions described in each block of the block diagram or in each step of the flowchart. These computer program instructions can also be stored in computer readable or computer readable memory that can be oriented to a computer or other programmable data processing equipment to implement functionality in a particular way, so that computer readable or computer readable memory The instructions stored in it are also possible to produce an article of manufacture containing instructions means for performing the functions described in each block of the block diagram or in each step of the flowchart.

In addition, since computer program instructions may be mounted on a computer or other programmable data processing equipment, a series of operation steps are performed on a computer or other programmable data processing equipment to create a process executed by the computer to generate a computer or other program. It is also possible for instructions to perform possible data processing equipment to provide steps for executing the functions described in each block of the block diagram and in each step of the flowchart.

In addition, each block or each step can represent a module, segment, or portion of code that includes one or more executable instructions for executing specified logical functions, and in some alternative embodiments referred to in blocks or steps It should be noted that it is possible for functions to occur out of sequence. For example, two blocks or steps shown in succession may in fact be executed substantially simultaneously, and it is also possible that the blocks or steps are performed in the reverse order of the corresponding function as necessary.

1 is a perspective view for explaining a small cell base station device based on a 5th generation mobile communication capable of acquiring images according to an embodiment of the present invention, and FIG. 2 is a 5th generation capable of acquiring images according to an embodiment of the present invention A diagram showing a state in which a small cell base station device in a mobile communication base is installed, and FIG. 3 is an overall block for explaining a small cell base station device in a 5th generation mobile communication base capable of image acquisition according to an embodiment of the present invention Configuration diagram, Figure 4 is a specific block diagram for explaining the environmental data measurement module applied to an embodiment of the present invention, Figure 5 is a specific block for explaining a solar power module applied to an embodiment of the present invention 6 is a detailed block diagram illustrating a user terminal applied to an embodiment of the present invention.

1 to 6, the small cell base station apparatus based on the 5th generation mobile communication capable of acquiring images according to an embodiment of the present invention is largely composed of a base station main body 100, an image acquisition module 150, and 5G. It comprises a data communication module 200, a 5G cell control module 250, and a power supply module 300. In addition, the small cell base station device based on the 5th generation mobile communication capable of obtaining an image according to an embodiment of the present invention includes a camera driving module 350, a fire detection module 400, an LED lighting module 450, and an LED lighting driving It may further include a module 500, an illuminance sensor module 550, an environmental data measurement module 600, a solar power module 650, and the like. Meanwhile, since the components shown in FIGS. 1 to 6 are not essential, the small cell base station apparatus in the 5th generation mobile communication base capable of obtaining an image according to an embodiment of the present invention has more components or more It may have fewer components.

Hereinafter, the components of the small cell base station device based on the 5th generation mobile communication capable of acquiring images according to an embodiment of the present invention will be described in detail as follows.

The base station main body 100 forms an overall body, and is fixedly installed on a column A and/or a wall B provided in a designated place indoors and/or outdoors.

The base station main body 100 is preferably made of a flat hexahedron, a cylinder or a square column, but is not limited thereto, and may be formed in various forms such as an elliptical column, a polygonal column, and the like. In addition, the base station main body 100 may be made of a conventional streetlight (streetlight) shape.

The image acquisition module 150 is provided on at least one of the pillars (A), the wall (B), and/or the outer surface of the base station body (100) where the base station main body (100) is installed, and the 5G cell control module It is connected to (250), and obtains an image of the surroundings of the base station main body 100 under the control of the 5G cell control module 250, and outputs image acquisition information data to the 5G cell control module 250. Perform.

The image acquisition module 150 is preferably made of an infrared (IR) camera or a CCD camera capable of taking pictures even in a dark place, but is not limited thereto, and is a device capable of taking an image of a specific place (for example, CCTV). Either is possible.

On the other hand, although not shown in the drawing, the image acquisition module 150 typically includes an image sensor, an image signal processor (ISP), and a back end chip (Back_End Chip).

The image sensor outputs an imaging signal formed by light incident from the lens as raw Bayer RGB format data. The image signal processor (ISP) converts the Bayer RGB format data into RGB format data, and converts the Bayer RGB format data into YUV format data required for screen output of the display device and outputs the converted data.

The back-end chip is responsible for controlling the camera module including processing the YUV format data output from the image signal processor (ISP) and outputting an image captured through a screen of a display device. A mobile switching modem (MSM) or a digital signal processor (DSP) may be used. Meanwhile, the image signal processor (ISP) and/or the back end chip may be configured by being included in the 5G cell control module 250 to be described later.

In other words, when the image is captured using the image acquisition module 150, Bayer RGB format data processed by the image sensor according to an imaging signal formed by light incident from the lens communicates with IIC (Inter Integrated Circuit). The image signal processor (ISP) that outputs it and receives it, converts it to actual RGB format data, and converts this RGB format data to the YUV format required by the display screen output, that is, the back end chip for image processing. Convert to data and output using IIC (Inter Integrated Circuit) type communication. Then, the back-end chip processes the received YUV format data and outputs an image captured through the screen of the display device.

In addition, the image acquisition module 150, at least one microphone (Mic) and / or for performing input and output of the voice to enable real-time conversation with a home-pad (Home-Pad) installed inside the building, such as a normal interphone It is preferable that a speaker or the like is included.

The 5G data communication module 200 is connected to the 5G cell control module 250, and is an external terminal 20 (eg, a user) using a 5G mobile communication method under the control of the 5G cell control module 250. A terminal, an administrator terminal, a client terminal, etc.), a server (not shown), and/or a function of transmitting and receiving data with at least one of an adjacent small cell base station.

The 5G cell control module 250 performs overall control of the small cell base station device based on the 5th generation mobile communication capable of acquiring images according to an embodiment of the present invention, in particular, the image output from the image acquisition module 150 Acquisition information data is periodically collected, combined and compressed with unique device identification information stored in advance, and the image acquisition information data obtained by combining and compressing the unique device identification information is transmitted to data transmitted/received through the 5G data communication module 200. It can perform a function of controlling the operation of the 5G data communication module 200 to be carried together.

In this case, the unique device identification information includes, for example, the name of the small cell base station, the password of the small cell base station, the serial number of the small cell base station, the type of the small cell base station, the manufacturer of the small cell base station, the MAC (Media of the small cell base station) Access Control (Address Control) address, the unique IP (Internet Protocol) address of the small cell base station, the model of the small cell base station and the version of the small cell base station, the authentication of the small cell base station, or the authentication of the small cell base station generated by the PKI-based private key It is preferable to include at least one piece of information.

In addition, the 5G cell control module 250 periodically collects image acquisition information data output from the image acquisition module 150 and combines and compresses the previously stored unique device identification information, and the unique device identification information is combined and Performs a function to control the compressed image acquisition information data to be transmitted to at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station through the 5G data communication module 200 and the communication network 10 can do.

At this time, the communication network 10 is preferably made of, for example, a 5G network, which is a next-generation mobile communication network, but is not limited thereto, and may be formed of Ethernet or an existing mobile communication network, and is capable of large-capacity, long-range voice and data services. It may be a communication network that is a high-speed period network of a large communication network, or may be a next-generation wireless network including Wi-Fi, Wibro, Wimax, etc. for providing high-speed multimedia services.

The Internet is a TCP/IP protocol and various services existing in the upper layer, such as Hyper Text Transfer Protocol (HTTP), Telnet, File Transfer Protocol (FTP), Domain Name System (DNS), Simple Mail Transfer Protocol (SMTP), Refers to a worldwide open computer network structure that provides Simple Network Management Protocol (SNMP), Network File Service (NFS), Network Information Service (NIS), and the like, and user terminal 20, server, and/or adjacent small It provides an environment that allows at least one of the cell base stations to be connected to the 5G data communication module 200. Meanwhile, the Internet may be a wired or wireless Internet, or may be a core network integrated with a wired public network, a wireless mobile communication network, or a portable Internet.

If the communication network 10 is an existing mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network. An example of the asynchronous mobile communication network is a wideband code division multiple access (WCDMA) communication network. In this case, although not shown in the drawings, the mobile communication network may include, for example, a radio network controller (RNC). Meanwhile, although the WCDMA network is taken as an example, it may be a mobile communication network such as a 3G LTE network or a 4G network, or an IP network based on other IPs. The communication network 10 serves to mutually transmit signals and data between at least one of the user terminal 20, the server, and/or the adjacent small cell base station and the 5G data communication module 200.

In addition, the 5G cell control module 250 performs a self-diagnosis test on the operation status of the image acquisition module 150 at a preset self-diagnosis test time interval, and according to the operation status of the image acquisition module 150 / Or generate the self-diagnosis test result information data of the failure and combine it with the unique device identification information stored in advance, and transmit and receive the self-diagnosis test result information data combined with the unique device identification information through the 5G data communication module 200 It is possible to perform the function of controlling the operation of the 5G data communication module 200 to be carried together with the data to be transmitted or to be transmitted to at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station. have.

In addition, the 5G cell control module 250 includes a communication network 10 and a 5G data communication module 200 and/or separate wireless communication modules (for example, short-range wireless communication or wireless communication modules other than 5G) (not shown). A fan of the camera unit according to a position change control signal of a camera unit (not shown) of the image acquisition module 150 transmitted from at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station. The function of controlling the operation of the camera driving module 350 may be performed by controlling the (Pan) and/or the Tilt operation so that the photographing target is changed.

In addition, the 5G cell control module 250 includes a communication network 10 and a 5G data communication module 200 and/or separate wireless communication modules (for example, short-range wireless communication or wireless communication modules other than 5G) (not shown). Zooming of the camera unit according to a zoom control signal of a camera unit (not shown) of the image acquisition module 150 transmitted from at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station. Zoom) can be controlled to control the operation of the camera driving module 350 so that the subject is enlarged and/or reduced.

In addition, the 5G cell control module 250 performs a self-diagnosis test on the operation state of the camera driving module 350 at a preset self-diagnosis test time interval, and then performs normal and normal operation according to the operation state of the camera driving module 350. / Or generate the self-diagnosis test result information data of the failure and combine with the unique device identification information stored in advance, and transmit and receive the self-diagnosis test result information data combined with the unique device identification information through the 5G data communication module 200 It can perform the function of controlling the operation of the 5G data communication module 200 to be carried with the data to be transmitted, or to be transmitted to at least one of a preset user terminal 20, a server (Server) and/or an adjacent small cell base station. have.

In addition, the 5G cell control module 250 receives the fire detection signal output from the fire detection module 400 and analyzes it to generate a predetermined fire detection level, and a preset fire warning corresponding to the generated fire detection level It can perform the function of generating video and warning sound.

In addition, the 5G cell control module 250 synthesizes the captured image obtained from the image acquisition module 150 together with the generated fire warning image and warning sound, and then unique device identification previously stored together with the synthesized image information data. By combining and compressing the information, it is possible to perform a function of controlling the operation of the 5G data communication module 200 so that it is carried on the data transmitted and received through the 5G data communication module 200.

In addition, the 5G cell control module 250 combines and compresses the unique device identification information previously stored together with the synthesized image information data, and sets it through the 5G data communication module 200 and the communication network 10 to set a user terminal ( 20), it may perform a function of controlling to be transmitted to at least one of a server and/or an adjacent small cell base station.

In addition, the 5G cell control module 250 performs a self-diagnostic test on the operation state of the fire detection module 400 at a preset self-diagnosis test time interval, and according to the operation state of the fire detection module 400, the normal and / Or generate the self-diagnosis test result information data of the failure and combine with the unique device identification information stored in advance, and transmit and receive the self-diagnosis test result information data combined with the unique device identification information through the 5G data communication module 200 It can perform the function of controlling the operation of the 5G data communication module 200 to be carried with the data to be transmitted, or to be transmitted to at least one of a preset user terminal 20, a server (Server) and/or an adjacent small cell base station. have.

In addition, the 5G cell control module 250 may operate at least one of the LED lighting module 450 and/or the LED lighting driving module 500 (eg, normal, malfunction, etc.) and/or information data on lighting management ( For example, it periodically collects the brightness, contrast, color, operating time, installation date, etc. of the LED lights) and combines them with unique device identification information stored in advance.

In addition, the 5G cell control module 250 is at least one of the LED lighting module 450 and/or the LED lighting driving module 500 to which the unique device identification information is combined, and/or information data on lighting management. The 5G data communication module 200 performs a function of controlling the operation of the 5G data communication module 200 so as to be carried together with data transmitted and received through the data communication module 200.

In addition, the 5G cell control module 250 is at least one of the LED lighting module 450 and/or the LED lighting driving module 500 to which the unique device identification information is combined, and/or information data on lighting management. The 5G data communication module 200 and the communication network 10 and / or a separate wireless communication module (for example, short-range wireless communication or a wireless communication module other than 5G, etc.) (not shown), the preset user terminal 20, A function of controlling to be transmitted to at least one of a server and/or an adjacent small cell base station may be performed.

In addition, the 5G cell control module 250 may perform a function of controlling the operation of the LED lighting driving module 500 so that driving power is applied to the LED lighting module 450 during a preset operation time.

In addition, the 5G cell control module 250 may be external (eg, a user) through a 5G data communication module 200 and/or a separate wireless communication module (eg, short-range wireless communication or a wireless communication module other than 5G) (not shown). LED lighting driving so that the driving power is applied and/or blocked to the LED lighting module 450 according to the operation control signal of the LED lighting module 450 transmitted from the terminal 20, the server, and the adjacent small cell base station) A function for controlling the operation of the module 500 may be performed.

In addition, the 5G cell control module 250 operates on at least one of the LED lighting module 450, the LED lighting driving module 500, and/or the 5G data communication module 200 at a preset self-diagnosis test time interval. After performing the self-diagnosis test, the self-diagnosis test result information data of normal and/or failure is generated according to the operation state of the corresponding module, combined with the unique device identification information stored in advance, and the unique device identification information is Controls the operation of the 5G data communication module 200 or transmits the combined self-diagnosis test result information data to data transmitted/received through the 5G data communication module 200, or a preset user terminal 20, server And/or control to be transmitted to at least one of the adjacent small cell base stations.

In addition, the 5G cell control module 250 is an LED lighting driving module so that the brightness of at least one LED light (not shown) provided in the LED lighting module 450 is adjusted according to the amount of light measured from the illuminance measurement sensor module 550. A function for controlling the operation of the 500 may be performed.

In addition, when the light amount measured from the 5G cell control module 250 is smaller than the first reference light amount set in advance, the at least one LED light provided in the LED lighting module 450 is turned on ( ON) so as to perform the function of controlling the operation of the LED light driving module 500.

In addition, when the light amount measured from the 5G cell control module 250 is greater than the preset second reference light amount, the at least one LED light provided in the LED lighting module 450 is turned off ( OFF) so as to perform the function of controlling the operation of the LED lighting driving module 500.

In this case, it is preferable that the first reference light amount and the second reference light amount are set to be the same or different from each other.

In addition, the 5G cell control module 250 is an LED lighting module 450, an LED lighting driving module 500, and a 5G data communication module according to the amount of light measured from the illuminance measurement sensor module 550 at a preset self-diagnosis test time interval. After performing the self-diagnosis test on the operation status of at least one of the (200) and/or the illuminance measurement sensor module 550, the self-diagnosis test result information data of normal and/or failure according to the operation status of the corresponding module 5G data communication so as to be combined with the unique device identification information stored in advance, and the self-diagnosis test result information data combined with the unique device identification information is carried on the data transmitted/received through the 5G data communication module 200 and transmitted. The operation of the module 200 may be controlled or a function of controlling to be transmitted to at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station may be performed.

In addition, when the 5G cell control module 250 is turned on (ON) operation of the LED light provided in the LED lighting module 450, the amount of light measured from the illuminance measurement sensor module 550 is smaller than a preset normal reference light amount, Perform the function of generating the self-diagnosis test result information data by determining the operation state of at least one of the LED lighting module 450, the LED lighting driving module 500, and/or the illumination measurement sensor module 550 as a failure. Can be.

In addition, the 5G cell control module 250 controls the operation of the LED lighting driving module 500 so that driving power is applied to the LED lighting module 450 using the power generated from the solar power module 650. It can be done.

In addition, the 5G cell control module 250 performs a self-diagnosis test on the operation state of the photovoltaic module 650 at a preset self-diagnosis test time interval, and according to the operation state of the photovoltaic module 650. Generates self-diagnostic test result information data of normal and/or faults, combines it with unique device identification information stored in advance, and uses the 5G data communication module 200 for self-diagnosis test result information data combined with the unique device identification information. Controls the operation of the 5G data communication module 200 so that it is carried on the data transmitted/received through it or performs a function of controlling to be transmitted to at least one of a preset user terminal 20, a server, and/or an adjacent small cell base station. can do.

In addition, the 5G cell control module 250 periodically collects environmental information measured from the environmental data measurement module 600 and combines it with unique device identification information stored in advance, and environmental information combined with the unique device identification information. It performs the function of controlling the operation of the 5G data communication module 200 so that the data is transmitted on the data transmitted and received through the 5G data communication module 200 together.

In addition, the 5G cell control module 250 is a user terminal 20, a server (Server) and a preset user information through the 5G data communication module 200 and the communication network 10, the environmental information data combined with the unique device identification information. And/or may perform a function of controlling to be transmitted to at least one of the adjacent small cell base stations.

In addition, the 5G cell control module 250 periodically collects environmental information measured from the environmental data measurement module 600 and combines and compresses the unique device identification information stored in advance, and the unique device identification information is combined and A function of controlling the operation of the 5G data communication module 200 may be performed so that the compressed environment information data is carried together with data transmitted and received through the 5G data communication module 200.

In addition, the 5G cell control module 250 is a user terminal 20, a server (Server) that is preset through the 5G data communication module 200 and the communication network 10, the environment information data combined and compressed with the unique device identification information. ) And/or control to be transmitted to at least one of the adjacent small cell base stations.

In addition, the 5G cell control module 250, the temperature, humidity of the surroundings of the base station main body 100 measured from at least one environmental information measurement sensor unit (601 to 608) provided in the environmental data measurement module 600, At least one environmental information data of atmospheric pressure, ultraviolet rays, fine dust, ultrafine dust, radon concentration, location, and/or altitude data may be periodically collected to combine unique device identification information previously stored therewith. .

In addition, the 5G cell control module 250 performs a self-diagnostic test on the operation status of at least one of the environmental data measurement module 600 and/or the 5G data communication module 200 at a preset self-diagnosis test time interval. Thereafter, according to the operation status of the corresponding module, normal and/or self-diagnosis test result information data of the failure is generated and combined with unique device identification information stored in advance, and self-diagnosis test result information combined with the unique device identification information is generated. Control the operation of the 5G data communication module 200 or transmit the data to/from the data transmitted/received through the 5G data communication module 200, or a preset user terminal 20, a server, and/or an adjacent small cell base station It may perform a function of controlling to be transmitted to at least one of.

In addition, when the power supplied from the power supply module 300 is cut off, the 5G cell control module 250 uses power generated from the solar power generation module 650, that is, each module, that is, the image acquisition module 150. , 5G data communication module 200, 5G cell control module 250, camera driving module 350, fire detection module 400, LED lighting module 450, LED lighting driving module 500, illuminance measurement sensor module A control function may be performed so that power required for the 550 and/or environmental data measurement module 600 is supplied.

In addition, the power supply module 300 includes the aforementioned modules, that is, the image acquisition module 150, the 5G data communication module 200, the 5G cell control module 250, the camera driving module 350, and the fire detection module ( 400), the LED lighting module 450, the LED lighting driving module 500, the illuminance measurement sensor module 550 and / or environmental data measurement module 600 to perform the function of supplying the necessary power, continuous power For supply, it is desirable to implement commercial AC (AC) power (for example, AC 220V) to be converted to DC (DC) and/or AC (AC) power, but is not limited thereto, and is used as a conventional portable battery (Battery). You can also implement

In addition, the power supply module 300 may include a power management unit (not shown) that functions to protect parts from external power shock and output a constant voltage. The power management unit may include an ESD (Electro Static Damage) protector, a power detector, a rectifier, and a power breaker.

Here, the ESD protector is configured to protect the electric components from static electricity or sudden power shock. The power detector is configured to send a cut-off signal to the power breaker when a voltage outside the allowable voltage range flows, and transmit a boost or step-down signal to the rectifier according to a voltage change within the allowable voltage range. The rectifier is configured to perform a step-up or step-down rectification operation according to the signal of the power detector so that a constant voltage is supplied by minimizing the variation of the input voltage. The power breaker is configured to cut off power supplied from a battery according to a cutoff signal transmitted from the power detector.

Additionally, the camera driving module 350 is connected to the 5G cell control module 250 and changes the position of the camera unit (not shown) provided in the image acquisition device 150 under the control of the 5G cell control module 250. And/or perform a zoom operation function.

In addition, the fire detection module 400 is provided on at least one of the pillars (A), the wall (B), and/or the inside/outside of the base station main body 100, on which the base station main body 100 is installed, Is connected to the 5G cell control module 250, under the control of the 5G cell control module 250, at least one wavelength sensor (not shown) for detecting the wavelength of the flame generated around the base station main body 100 Use it to output the fire detection signal for the fire to the 5G cell control module 250.

In addition, the LED lighting module 450 is provided inside and/or outside of the base station main body 100, and is connected to the LED lighting driving module 500 and the 5G cell control module 250, respectively, and the base station main body. It functions to emit light in the vicinity of (100).

The LED lighting module 450 may be provided with at least one white, green, and/or yellow LED lighting, and the color of the LED lighting is appropriately changed according to a user's request. Can be.

In addition, the LED lighting driving module 500 is provided inside and/or outside of the base station main body 100, is connected to the LED lighting module 450 and the 5G cell control module 250, respectively, and controls the 5G cell. Under the control of the module 250, it performs a function of applying driving power to the LED lighting module 450.

The LED lighting driving module 500 is preferably mounted in the 5G cell control module 250, but is not limited thereto, and may be separately provided or mounted in the base station main body 100.

The illuminance measurement sensor module 550 is provided inside and/or outside of the base station main body 100, is connected to the 5G cell control module 250, and is controlled by the 5G cell control module 250. The unit 100 measures the amount of light that changes according to the ambient light environment and transmits it to the 5G cell control module 250.

That is, the illuminance measurement sensor module 550 is preferably installed in the vicinity of the base station main body 100, and the amount of light that changes depending on the ambient illumination environment of the external surrounding environment (eg day/night, cloudy/clear, etc.) , It performs the function of periodically measuring the illuminance (Lux).

In addition, the environmental data measurement module 600 is provided inside and/or outside of the base station main body 100, is connected to the 5G cell control module 250, and under the control of the 5G cell control module 250. It performs the function of measuring environmental information data about the periphery of the base station main body 100 and transmitting it to the 5G cell control module 250.

The environmental data measurement module 600 performs a function of measuring environmental information data about the surroundings of the base station main body 100. As shown in FIG. 4, the temperature of the surroundings of the base station main body 100 is measured. A temperature measurement sensor unit 601 for measuring environmental information data, a humidity measurement sensor unit 602 for measuring humidity environment information data about the surroundings of the base station body unit 100, and a base station body unit 100 for surroundings. Air pressure measurement sensor unit 603 for measuring a change in air pressure (or air pressure), UV measurement sensor unit 604 for measuring ultraviolet environment information data on the surroundings of the base station body unit 100, a base station body unit ( 100) the fine dust measurement sensor unit 605 for measuring the fine dust environment information data for the surroundings, and the ultra fine dust measurement sensor unit for measuring the ultra fine dust environment information data for the surroundings of the base station body part 100 ( 606), and at least one environment information measurement sensor unit (601 to 607) of the radon measurement sensor unit 607 for measuring the radon concentration data for the periphery of the base station main body 100.

Here, the temperature measurement sensor unit 601 is a sensor unit for measuring the temperature in the air, and a thermistor element whose internal resistance value changes according to a change in ambient temperature may be used. The thermistor element may be a negative characteristic thermistor (NTC thermister), a positive characteristic thermistor (PTC thermistor), or a critical characteristic thermistor (CRT).

The temperature measurement sensor unit 601 is preferably configured as a contact temperature sensor using a thermistor element, but is not limited thereto, and may be, for example, a thermocouple sensor, a bimetal, an IC temperature sensor, and a non-contact infrared sensor. .

The humidity measurement sensor unit 602 is a sensor unit for measuring humidity in the air, and usually measures humidity using a change in electrical properties of a moisture-sensitive material due to moisture.

The humidity measurement sensor unit 602 can be largely divided into a resistance type humidity sensor and a capacitive type humidity sensor, and it makes not only home appliances and mobiles, but also automobiles and medical devices, air purification systems, and automatic heating and cooling systems in optimal conditions. Has been widely applied.

The resistance-type humidity sensor measures humidity using a change in resistance caused by humidity. This resistive humidity sensor has been used a lot because it has a relatively competitive price compared to a capacitive humidity sensor.

However, in recent years, as the capacitive humidity sensor can be manufactured in the form of a one chip on a semiconductor substrate, it is possible to secure a price competitive advantage over the resistive humidity sensor, and thus the usage is increasing. In particular, the capacitive humidity sensor has the advantage of being superior in reliability compared to the resistive humidity sensor, but having a linear sensor characteristic and little influence of temperature.

Such a capacitive humidity sensor is a sensor using a principle in which the capacitance changes according to the molecular weight of water adsorbed on a moisture absorbing film, and absorbs moisture such as polyimide or ceramic, whose dielectric constant changes when moisture is absorbed. It operates in the form of a capacitor made of dielectric material. In other words, there is a moisture-sensitive layer that detects humidity, and it is a principle that detects that the dielectric constant changes and the capacitance changes accordingly as moisture enters through the moisture-sensitive layer.

The air pressure measurement sensor unit 603 is a sensor unit for measuring a change in air pressure (or air pressure degree) with respect to the periphery of the base station main body 100, and is typically a resistance, current or voltage according to atmospheric pressure such as a piezoelectric element (Piezo) It is composed of this changing element and outputs the atmospheric pressure measurement value to an appropriate voltage value.

The ultraviolet measurement sensor unit 604 is a sensor unit for measuring an ultraviolet illuminance value (or ultraviolet index) of the surroundings of the base station main unit 100, a discharge tube using a photoelectric effect may be used, and a wavelength range of about 185 to 260 um is used. It can be detected in response to the corresponding ultraviolet rays.

In addition, the ultraviolet measurement sensor unit 604 can measure the amount of light by detecting the amount of electricity generated by varying the charge value according to the amount of light, and in the range of about 0 to 1800 W/m ^{2 in} the form of a solar radiation sensor. It is measured and has an accuracy of about 5%.

The fine dust measurement sensor unit 605 is a sensor unit for measuring fine dust having a particle diameter of about 10 μm or less, for example, at least measuring at least one air pollutant among sulfur dioxide, nitrogen oxide, lead, ozone, or carbon monoxide. It can be made by including a single fine dust sensor.

The ultra-fine dust measurement sensor unit 606 is a sensor unit for measuring ultra-fine dust having a particle diameter of about 2.5 μm or less, for example, at least one measuring total carbon, organic carbon, and elemental carbon contained in the ultra-fine dust. It may be made, including ultra-fine dust sensor.

The radon measurement sensor unit 607 is a sensor unit for measuring radon concentration data for the periphery of the base station main unit 100, and is preferably made of, for example, an ionization chamber type radon measurement sensor, but is not limited thereto. , As a device for detecting alpha particles, a surface barrier type, a high purity semiconductor detector (pure Ge), a scintillation detector, and a solid state junction counter may be applied.

That is, the radon measurement sensor of the ionized chamber (pulsed ionization chamber) is a structure in which a probe-shaped electrode is installed in the center of a metal cylindrical box and a bias voltage is applied between the metal cylinder and the inner probe to form an electric field.

When the alpha decay occurs inside the ionization chamber and the alpha particles are released, the alpha particles are extinguished due to collision with the air, but ionic charge is generated, so that they can be absorbed through the central probe and amplify the signal to detect the alpha particles. The sensor itself is composed of a metal cylinder and a probe, so it is very inexpensive, durable, and irrespective of light.

Looking at the surface barrier type detector, the surface of the semiconductor is formed with a depletion layer such as a p-n junction due to a surface level or an oxide film, so that the vicinity of the surface is an obstacle to charge transfer. As a practical matter, gold is deposited on the surface of the n-type si at about 100 µm/cm 2 to make it an electrode and radiation is incident on the back surface. Here, the thickness of the depletion layer is about 50 to 500 μm, and there are various types, and since energy loss on the surface is small, it is mainly used for detection of charged particles generated by alpha radiation and has good energy resolution.

The high purity semiconductor detector is also generally referred to as a pure Ge detector. It is a high-purity Ge crystal with very little impurity concentration or defects. It has a very high electrical resistance at low temperatures and a high bias voltage. The difference from Ge(Li) is that it can be stored at room temperature and cooled down with liquid nitrogen only for measurement, so it is easy to maintain and its energy resolution is inferior to Ge(Li).

Looking at the scintillation detector, a phenomenon in which charged particles emit light when they hit a certain material has been known for a long time, but emission by alpha radiation of zinc emulsion (ZnS) or NaI coating is particularly strong, and detection and counting with a magnifier is possible in a dark room.

Such luminescence is called scintillation, and a substance exhibiting this phenomenon is called scintillator. The combination of a photomultiplier tube with a scintillator is called a scintillation detector, but a method used for counting as a pulse output is called a scintillation counter.

On the other hand, the method that reads the output in direct current is mainly used for dosimetry, and since it uses a scintillator, it is called a scintillation dosimeter, and any solid, liquid, or gas is used for the scintillator. It says.

The solid junction counter is a solid reverse-biased p-n junction semiconductor that can be manufactured in a compact and mobile form with a counter designed to collect ionic charges from alpha particles passing through a depletion layer.

Meanwhile, the temperature measurement sensor unit 601, the humidity measurement sensor unit 602, the air pressure measurement sensor unit 603, the ultraviolet measurement sensor unit 604 of the environmental data measurement module 600 applied to an embodiment of the present invention, The temperature, humidity, air pressure, ultraviolet rays, ultraviolet rays, fine dust, ultra fine dust, and the like respectively measured from the fine dust measurement sensor unit 605, the ultra fine dust measurement sensor unit 606, and/or the radon measurement sensor unit 607, and / Or environmental information data such as radon concentration is obtained, but is not limited to this, for example, a location and altitude through a location and altitude measurement sensor unit 608 that measures the current location and elevation above the base station body 100 Environmental information data such as may be obtained.

The position and altitude measurement sensor unit 608 receives a latitude, longitude and altitude information using a plurality of Global Positioning System (GPS) satellites (not shown), and a GPS receiver for obtaining current location and elevation information ( It is preferred to include).

On the other hand, in an embodiment of the present invention, the signal from the GPS satellite is received through the GPS receiver (not shown) of the position and altitude measurement sensor unit 608, and the distance from the satellite due to the difference between the reference time and the signal transmission time. It is desirable to obtain the altitude information of the current location by calculating, but is not limited to this, for example, a barometric altimeter displaying the altitude calculated by comparing the current air pressure with the standard atmospheric pressure, and reflecting sound by firing sound on the ground It is also possible to measure the time it takes to return, and to measure the current altitude by using an altimeter to find altitude at the speed of the sound, an altimeter using electromagnetic pulses, and the like.

On the other hand, the temperature measurement sensor unit 601, humidity measurement sensor unit 602, air pressure measurement sensor unit 603, ultraviolet measurement sensor unit 604 of the environmental data measurement module 600 applied to an embodiment of the present invention , Fine dust measurement sensor unit 605, ultra-fine dust measurement sensor unit 606, radon measurement sensor unit 607, position and altitude measurement sensor unit 608, respectively measured temperature, humidity, air pressure, ultraviolet, Environmental information data such as fine dust, ultrafine dust, radon concentration, location, and altitude was obtained, but is not limited thereto. For example, environmental information data such as precipitation, wind speed, wind direction, solar radiation, and fog can be obtained through a number of measurement sensors. It can also be obtained.

In addition, the photovoltaic module 650 is provided inside and/or outside of the base station main body 100 fixedly installed on the pillar A and/or the wall B provided in a designated place indoors and/or outdoors. It performs the function of collecting power from sunlight and generating power.

As illustrated in FIG. 5, the solar power module 650 may include at least one of a pillar (A), a wall surface (B), and/or an outer surface of the base station body portion 100 on which the base station body portion 100 is installed. It is installed in a part, a plurality of solar cells are made in series and / or parallel to the solar panel portion 651 for collecting electrical energy from sunlight, and to store the electrical energy collected from the solar panel portion 651 The battery unit 652, the charge detection unit 653 for detecting the charge state of the battery unit 652, and the electric energy stored in the battery unit 652, the image acquisition module 150, 5G data communication module 200 , 5G cell control module 250, camera driving module 350, fire detection module 400, LED lighting module 450, LED lighting driving module 500, illuminance measurement sensor module 550 and/or environmental data Power conversion unit 654 for converting power to driving power of at least one of the measurement modules 600, and a power conversion unit 654 according to the state of charge of the battery unit 652 detected from the charge detection unit 653 ) The power converted from the image acquisition module 150, 5G data communication module 200, 5G cell control module 250, camera driving module 350, fire detection module 400, LED lighting module 450, A control unit 655 for controlling the operation of the power conversion unit 654 to be applied as the driving power of at least one of the LED lighting driving module 500, the illuminance measurement sensor module 550, and/or the environmental data measurement module 600 It is preferably made to include.

Here, the control unit 655 performs overall control of the photovoltaic module 650 applied to an embodiment of the present invention, and the charging state value of the battery unit 652 detected from the charge detection unit 653 is determined. When it is larger than the set reference charging state value (for example, about 80%), the power converted from the power converter 654 is the image acquisition module 150, the 5G data communication module 200, the 5G cell control module 250 , Camera driving module 350, fire detection module 400, LED lighting module 450, LED lighting driving module 500, at least one of the illuminance measurement sensor module 550 and/or environmental data measurement module 600 A function of controlling the operation of the power converter 654 to be applied to the driving power of the module may be performed.

In addition, when the charge state value of the battery unit 652 sensed by the charge detection unit 653 is smaller than a preset reference charge state value (for example, about 80%), the control unit 655 may supply power supplied from the outside. , Power supply module 300 is an image acquisition module 150, 5G data communication module 200, 5G cell control module 250, camera driving module 350, fire detection module 400, LED lighting module 450 ), a function of controlling the operation of the power conversion unit 654 to be applied as the driving power of at least one of the LED lighting driving module 500, the illuminance measurement sensor module 550, and/or the environmental data measurement module 600 You can do

The core of the solar power module 650 is a solar cell having a PN junction structure. When light is irradiated to the solar cell and photons are absorbed from the outside into the inside of the solar cell, a pair of electrons and holes is generated inside the solar cell by the energy of the photon. do.

At this time, the generated electron-hole pairs move to the N-type semiconductor by the electric field generated by the PN junction, and the holes move to the P-type semiconductor, and are collected at the electrodes on each surface. The charge collected at each electrode is a current flowing through the load when a load is connected to an external circuit, and is a source of energy that operates the load.

On the other hand, the user terminal 20 applied to an embodiment of the present invention is at least one of a smart phone (Smart Phone), smart pad (Smart Pad) or smart note (Smart Note) to communicate through the wireless Internet or the mobile Internet It is preferably made of a mobile terminal device, in addition to a personal PC, notebook PC, Palm (PC), mobile game machine (Mobile play-station), DMB (Digital Multimedia Broadcasting) phone with a communication function, tablet PC, iPad (iPad ), etc. may refer to all wired/wireless home appliances/communication devices having a user interface for accessing the 5G data communication module 200.

6, the user terminal 20 includes a wireless communication module 21, an audio/video (A/V) input module 22, a user input module 23, a sensing module 24, and outputs. It may include a module 25, a storage module 26, an interface module 27, a terminal control module 28 and a power module 29. On the other hand, since the components shown in FIG. 6 are not essential, the user terminal 20 may have more components or fewer components.

Hereinafter, the components of the user terminal 20 will be described in detail.

The wireless communication module 21 may include one or more modules that enable wireless communication between the user terminal 20 and the 5G data communication module 200. For example, the wireless communication module 21 may include a broadcast reception module 21a, a mobile communication module 21b, a wireless Internet module 21c, a short-range communication module 21d, and a location information module 21e.

The broadcast receiving module 21a broadcasts broadcast signals (eg, TV broadcast signals, radio broadcast signals, data broadcast signals, etc.) and/or broadcasts from external broadcast management servers through various broadcast channels (eg, satellite channels, terrestrial channels, etc.). Receive relevant information.

The mobile communication module 21b transmits and receives a radio signal to and from at least one of a base station, an external terminal, and a server on a mobile communication network. The wireless signal may include various types of data according to transmission and reception of a voice call signal, a video call signal, or a text/multimedia message.

The wireless Internet module 21c is a module for wireless Internet access, and may be built in or external to the user terminal 20. For example, WLAN (Wi-Fi), Wibro, Wimax, HSDPA, LTE, etc. may be used as the wireless Internet technology.

The short-range communication module 21d is a module for short-range communication, for example, Bluetooth communication, ZigBee communication, UWB (Ultra Wideband) communication, RFID (Radio Frequency Identification) communication, or infrared (IrDA, infrared data association) ) Communication can be used.

The location information module 21e is a module for confirming or obtaining the location of the user terminal 20, and may acquire current location information of the user terminal 20 using a Global Position System (GPS) or the like.

On the other hand, under the control of the terminal control module 28, the 5G data communication module using the specific application program stored in the storage module 26 through the aforementioned wireless communication module 21 and/or wired communication module (not shown) ( 200) and data transmission and reception.

The A/V input module 22 is a module for inputting an audio signal or a video signal, and basically may include a camera unit 22a and a microphone unit 22b. The camera unit 22a processes image frames such as still images or moving images obtained by an image sensor in a video call mode or a shooting mode. The microphone unit 22b receives an external sound signal by a microphone in a call mode, a recording mode, a voice recognition mode, etc., and processes it as electrical voice data.

The user input module 23 is a module that generates input data for controlling the operation of the user terminal 20, in particular, for any one of the data management information displayed through the display unit 25a of the output module 25 Performs a function of inputting a selection signal, for example, using a touch panel (static pressure/electrostatic) type input by a user's touch or using a separate input device (eg, keypad dome switch, jog wheel, jog switch, etc.) Can be entered.

The sensing module 24 is the open/closed state of the user terminal 20, the location of the user terminal 20, the presence or absence of user contact, the user's touch action on a specific part, the orientation of the user terminal 20, the user terminal 20 Detects the current state of the user terminal 20, such as acceleration/deceleration, and generates a sensing signal for controlling the operation of the user terminal 20. The sensing signal is transmitted to the terminal control module 28, so that the terminal control module 28 may be a basis for performing a specific function.

The output module 25 is a module for generating output related to vision, hearing, or tactile sense, and basically includes a display unit 25a, an audio output unit 25b, an alarm unit 25c, and a haptic unit 25d. Can.

The display unit 25a is for displaying and outputting information processed by the user terminal 20. For example, when the user terminal 20 is in a call mode, a user interface (UI) or a graphical user interface (GUI) related to a call is displayed. In the case of a video call mode or a photographing mode, the photographed and/or received image or UI or GUI is displayed.

The audio output unit 25b may output audio data received from the wireless communication module 21 or stored in the storage module 26 in a call signal reception, a call mode or a recording mode, a voice recognition mode, a broadcast reception mode, for example. .

The alarm unit 25c may output a signal for notifying the occurrence of an event of the user terminal 20. Examples of events generated in the user terminal 20 include call signal reception, message reception, key signal input, and touch input.

The haptic portion 25d generates various tactile effects that the user can feel. Vibration is a typical example of the tactile effect generated by the haptic portion 25d. The intensity and pattern of vibration generated by the haptic portion 25d can be controlled.

The storage module 26 may store a program for the operation of the terminal control module 28, and may temporarily store input/output data (eg, a phone book, message, still image, video, etc.).

In addition, the storage module 26 may store data related to various patterns of vibration and sound output when a touch is input on the touch screen, and may store a 5G small cell base station related application program.

In addition, since the storage module 26 may store source data for forming 5G small cell base station related information, 5G small cell base station related data may be configured in the form of video and sound, and the 5G small cell base station may be configured. The process and results of generating related data can also be stored.

The storage module 26 is a flash memory type, hard disk type, multimedia card micro type, card type memory (for example, SD or XD memory, etc.), RAM (RAM), SRAM, ROM (ROM), EEPROM, PROM , A storage medium of at least one type of a magnetic memory, a magnetic disk, or an optical disk.

The interface module 27 serves as a passage with all external devices connected to the user terminal 20. The interface module 27 receives data from an external device or receives power and transmits it to each component inside the user terminal 20 or allows data inside the user terminal 20 to be transmitted to the external device.

The terminal control module 28 is to control the overall operation of the user terminal 20, for example, performs related control and processing for voice calls, data communication, video calls, execution of various applications, and the like.

That is, the terminal control module 28 controls to execute the 5G small cell base station related application program stored in the storage module 26, and generates 5G small cell base station related data through execution of the 5G small cell base station related application program. It performs the function of requesting and controlling to receive 5G small cell base station related data for it.

Further, the terminal control module 28 displays the auxiliary elements including at least one of video, audio, or sound in the process of generating 5G small cell base station related data desired by the user through execution of the 5G small cell base station related application program. 25a and other output devices (e.g., sound output unit 25b, alarm unit 25c, haptic unit 25d, etc.) to perform output control through at least one of the functions.

In addition, the terminal control module 28 may constantly monitor the charging current and charging voltage of the battery unit 29a and temporarily store the monitoring values in the storage module 26. At this time, it is preferable that the storage module 26 stores battery specification information (product code, rating, etc.) as well as battery charging status information such as monitored charging current and charging voltage.

The power module 29 receives external power and internal power by the control of the terminal control module 28 and supplies power required for the operation of each component. The power module 29 operates by supplying power of the built-in battery unit 29a to each component, and charging of the battery is possible using a charging terminal (not shown).

The various embodiments described herein can be implemented in a computer- or similar device-readable recording medium using, for example, software, hardware, or a combination thereof.

According to a hardware implementation, the embodiments described herein include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs) , It can be implemented using at least one of processors, controllers, micro-controllers, microprocessors, and electrical units for performing functions. In some cases, such embodiments may be implemented by the terminal control module 28.

According to a software implementation, embodiments such as procedures or functions can be implemented with separate software modules that perform at least one function or operation. The software code can be implemented by software applications written in the appropriate programming language. Also, the software code is stored in the storage module 26 and can be executed by the terminal control module 28.

If, when the user terminal 20 is made of a smart phone, the smart phone can download and use and delete various application programs desired by the user, unlike a general mobile phone (aka feature phone). As a phone based on the open operating system, not only functions such as commonly used voice/video calls and Internet data communication, but also all mobile phones equipped with a mobile office function or all voice-capable internet phones are available. Or it is preferable to understand as a communication device including a tablet PC (Tablet PC).

Such a smart phone may be implemented as a smart phone equipped with a variety of open operating systems, and the open operating system includes, for example, Symbian of Nokia (NOKIA), Blackberry of RIMS, Apple's iPhone, and Microsoft. (MS)'s Windows Mobile, Google's Android, Samsung Electronics' Sea, etc.

As described above, since a smart phone uses an open operating system, unlike a mobile phone having a closed operating system, a user can arbitrarily install and manage various application programs.

That is, the aforementioned smart phone basically includes a control unit, a memory unit, a screen output unit, a key input unit, a sound output unit, a sound input unit, a camera unit, a wireless network communication module, a short-range wireless communication module, and a battery for supplying power. do.

The control unit is a generic term for a functional configuration that controls the operation of a smartphone, and includes at least one processor and an execution memory, and is connected to each functional component provided in the smartphone through a bus.

The controller controls the operation of the smartphone by loading and calculating at least one program code provided in the smartphone through the processor into the execution memory, and passing the result to at least one functional component through the bus. .

The memory unit is a generic term for a non-volatile memory provided in a smartphone, and stores and maintains at least one program code executed through the controller and at least one data set used by the program code. The memory unit basically stores a system program code and a system data set corresponding to the operating system of the smartphone, a communication program code and communication data set for processing a wireless communication connection of the smartphone, and at least one application program code and application data set. In addition, program codes and data sets for implementing the present invention are also stored in the memory unit.

The screen output unit is composed of a screen output device (for example, a liquid crystal display (LCD) device) and an output module driving the same, and is connected to the controller and a bus to calculate calculation results corresponding to screen output among various calculation results of the control unit Output to the screen output device.

The key input unit is composed of a key input device (or a touch screen device interworking with the screen output unit) having at least one key button and an input module that drives the key input unit. Enter a command to command, or input data necessary for the operation of the control unit.

The sound output unit is composed of a speaker that outputs a sound signal and a sound module that drives the speaker, and is connected to the controller and a bus to output a calculation result corresponding to sound output among various calculation results of the control unit through the speaker. . The sound module decodes sound data to be output through the speaker and converts the sound data into a sound signal.

The sound input unit is composed of a microphone that receives a sound signal and a sound module that drives the microphone, and transmits sound data input through the microphone to the control unit. The sound module encodes and encodes a sound signal input through the microphone.

The camera unit is composed of an optical unit and a CCD (Charge Coupled Device) and a camera module driving the same, and acquires bitmap data input to the CCD through the optical unit. The bitmap data may include both image data and video data of a still image.

The wireless network communication module is a generic term for a communication configuration for connecting wireless communication, and includes at least one antenna, an RF module, a baseband module, and a signal processing module that transmit and receive radio frequency signals in a specific frequency band. It is connected to a bus and transmits calculation results corresponding to wireless communication among various calculation results of the control unit through wireless communication, or receives and transmits data to the control unit through wireless communication, and simultaneously connects and registers the wireless communication. Maintain the procedures of communication, handoff, and so on.

In addition, the wireless network communication module includes a mobile communication configuration that performs at least one of access, location registration, call processing, call connection, data communication, and handoff to a mobile communication network according to CDMA/WCDMA standards. Meanwhile, according to the intention of a person skilled in the art, the wireless network communication module may further include a portable Internet communication configuration that performs at least one of access, location registration, data communication, and handoff according to the IEEE 802.16 standard. It is apparent that the present invention is not limited by the wireless communication configuration provided by the communication module.

The short-range wireless communication module is composed of a short-range wireless communication module that connects a communication session by using a radio frequency signal as a communication medium within a certain distance, preferably RFID communication, Bluetooth communication, Wi-Fi communication, air of the ISO 180000 series standard It may include at least one of wireless communication. In addition, the short-range wireless communication module may be integrated with the wireless network communication module.

The smart phone configured as described above refers to a terminal capable of wireless communication, and any device that can transmit and receive data through a network including the Internet in addition to the smart phone may be applied to any device. That is, the smart phone may include at least one portable terminal capable of being carried and moved in addition to a notebook PC, a tablet PC having a short message transmission function and a network connection function.

Although the preferred embodiment of the small cell base station apparatus based on the 5th generation mobile communication capable of obtaining the image according to the present invention has been described, the present invention is not limited thereto, and the detailed description of the claims and the invention and attached It is possible to carry out various modifications within the scope of the drawings and this also belongs to the present invention.

100: base station main body,
150: image acquisition module,
200: 5G data communication module,
250: 5G cell control module,
300: power supply module,
350: camera driving module,
400: fire detection module,
450: LED lighting module,
500: LED light driving module,
550: roughness measurement sensor module,
600: environmental data measurement module,
650: solar power module

Claims (20)

A base station main body that is formed in an overall body and is fixedly installed on a column or wall provided in a designated place indoors or outdoors;
An image acquisition module which is provided on at least one of a pillar, a wall surface on which the base station main body is installed, or an outer surface of the base station main body, and acquires an image of the surroundings of the base station main body to output image acquisition information data;
A 5G data communication module provided inside the main body of the base station and transmitting/receiving data with at least one of an external terminal, a server, or a small cell base station in a 5G mobile communication method;
It is provided inside the main body of the base station, and periodically collects image acquisition information data output from the image acquisition module, combines and compresses it with unique device identification information stored in advance, and combines and compresses the unique device identification information. A 5G cell control module that controls the operation of the 5G data communication module so that the acquired information data is carried together with data transmitted and received through the 5G data communication module; And
It is provided on the inside or outside of the base station main body, and includes a power supply module for supplying the power required for each module,
The 5G cell control module performs a self-diagnostic test on an operation state of the image acquisition module at a preset self-diagnosis test time interval, and then results of a self-diagnosis test result of normal or failure according to an operation state of the image acquisition module. The 5G data communication is generated so as to generate data, combine it with unique device identification information stored in advance, and carry the self-diagnosis test result information data combined with the unique device identification information on data transmitted/received through the 5G data communication module to be transmitted together. A small cell base station apparatus based on a 5th generation mobile communication capable of acquiring an image, wherein the operation of the module is controlled or controlled to be transmitted to at least one of a preset terminal, server, or small cell base station.
According to claim 1,
The 5G cell control module periodically collects image acquisition information data output from the image acquisition module, combines and compresses the previously stored unique device identification information, and combines and compresses the unique device identification information. Small cell base station apparatus in the 5th generation mobile communication base capable of image acquisition, characterized in that the data is transmitted to at least one of a predetermined terminal, server or small cell base station through the 5G data communication module.
delete According to claim 1,
Further comprising a fire detection module for outputting a fire detection signal for a fire using at least one wavelength sensor for detecting the wavelength of the flame generated in the vicinity of the base station main body portion,
The 5G cell control module receives the fire detection signal output from the fire detection module, analyzes it to generate a predetermined fire detection level, and generates a predetermined fire alarm image and warning sound corresponding to the generated fire detection level. In addition, after combining the generated fire warning image and the warning sound with the captured image obtained from the image acquisition module, the combined device identification information stored in advance with the synthesized image information data is combined and compressed to communicate the 5G data. After controlling the operation of the 5G data communication module so that it is carried on the data transmitted and received through the module, and after performing the self-diagnosis test on the operation state of the fire detection module at a preset self-diagnosis test time interval, the fire detection module Generates self-diagnosis test result information data of normal or failure according to the operation status of the device, combines it with unique device identification information stored in advance, and communicates the self-diagnosis test result information data combined with the unique device identification information to the 5G data Controlling the operation of the 5G data communication module to be transmitted with data transmitted/received through a module, or to be transmitted to at least one of a preset terminal, server, or small cell base station. Small cell base station device in.
According to claim 1,
Further comprising a fire detection module for outputting a fire detection signal for a fire by using at least one wavelength sensor for detecting the wavelength of the spark generated around the body portion,
The 5G cell control module receives the fire detection signal output from the fire detection module, analyzes it to generate a predetermined fire detection level, and generates a predetermined fire alarm image and warning sound corresponding to the generated fire detection level. In addition, after combining the generated fire warning image and the warning sound with the captured image obtained from the image acquisition module, the combined device identification information stored in advance with the synthesized image information data is combined and compressed to communicate the 5G data. Small cell base station apparatus in the 5th generation mobile communication base capable of image acquisition, characterized in that it is controlled to be transmitted to at least one of a predetermined terminal, server, or small cell base station through a module.
According to claim 1,
A camera driving module for changing the position of the camera unit provided in the image acquisition module or performing a zoom operation is further provided.
The 5G cell control module, according to the position change control signal of the camera unit transmitted from at least one of a terminal, a server or a small cell base station set through the 5G data communication module or a separate wireless communication module, the camera unit fan (Pan) Alternatively, the operation of the camera driving module is controlled so that the object to be photographed is changed by controlling a tilt operation or the zoom of the camera unit according to the zoom control signal of the camera unit transmitted from at least one of a preset terminal, server, or small cell base station ( Zoom) Controls the operation to control the operation of the camera driving module so that the shooting object is enlarged or reduced. After performing the self-diagnosis test on the operation state of the camera driving module at a preset self-diagnosis test time interval, the camera is driven. Generates self-diagnosis test result information data of normal or failure according to the operation state of the module, combines it with unique device identification information stored in advance, and the self-diagnosis test result information data combined with the unique device identification information is the 5G data. Controlling the operation of the 5G data communication module to be carried with data transmitted/received through a communication module or to be transmitted to at least one of a preset terminal, server, or small cell base station. Small cell base station device in the base.
According to claim 1,
An LED lighting module provided inside or outside the base station main body, and including at least one LED light emitting light; And
It is provided inside or outside the main body of the base station, and further includes an LED lighting driving module that applies driving power to the LED lighting module.
The 5G cell control module periodically collects information data on at least one operation state and lighting management of the LED lighting module or the LED lighting driving module, combines it with unique device identification information stored in advance, and the unique device The 5G data communication module of the 5G data communication module is configured to transmit information data of at least one operation state and lighting management of the LED lighting module or the LED lighting driving module combined with identification information to data transmitted and received through the 5G data communication module. Control the operation, and control the operation of the LED lighting driving module so that the driving power is applied to the LED lighting module during a predetermined operating time, and the LED lighting module, the LED lighting driving module or at a preset self-diagnosis test time interval. After performing the self-diagnosis test on the operation status of at least one of the 5G data communication modules, the self-diagnosis test result information data of normal or failure is generated according to the operation status of the corresponding module, and unique device identification information stored in advance In combination with, the operation of the 5G data communication module to control the operation of the 5G data communication module or a predetermined terminal, server so that the self-diagnosis test result information data combined with the unique device identification information is carried on the data transmitted and received through the 5G data communication module Alternatively, the small cell base station apparatus based on the 5th generation mobile communication capable of acquiring an image, characterized in that it is controlled to be transmitted to at least one of the small cell base stations.
The method of claim 7,
The 5G cell control module drives the LED lighting so that driving power is applied or blocked to the LED lighting module according to the operation control signal of the LED lighting module transmitted from the outside through the 5G data communication module or a separate wireless communication module. Small cell base station apparatus based on 5th generation mobile communication capable of image acquisition, characterized by controlling the operation of the module.
The method of claim 7,
It is provided inside or outside the body portion of the base station, and further includes an illuminance measurement sensor module for measuring the amount of light that changes depending on the ambient illumination environment of the base station body portion,
The 5G cell control module may include at least one of the LED lighting module, the LED lighting driving module, the illuminance measuring sensor module, or the 5G data communication module according to the amount of light measured from the illuminance measuring sensor module at a preset self-diagnosis test time interval. After performing the self-diagnosis test on the operation status of one module, the self-diagnosis test result information data of normal or failure is generated according to the operation status of the corresponding module, combined with the unique device identification information stored in advance, and the unique Control the operation of the 5G data communication module to transmit the self-diagnosis test result information data combined with device identification information to data transmitted/received through the 5G data communication module, or at least one of a preset terminal, server, or small cell base station. Controlled to be transmitted, and controls the operation of the LED lighting driving module so that the brightness of the LED lamp provided in the LED lighting module is adjusted according to the amount of light measured from the illuminance sensor module, and the amount of light measured from the illuminance sensor module When it is smaller than the preset first reference light quantity, the operation of the LED lighting driving module is controlled so that the LED lighting provided in the LED lighting module is ON, and the light quantity measured from the illuminance measurement sensor module is preset. When it is larger than the second reference light quantity, the operation of the LED lighting driving module is controlled so that the LED lighting provided in the LED lighting module is turned off,
The first reference light quantity value and the second reference light quantity value are set to be the same or different from each other.
The method of claim 9,
The 5G cell control module, if the amount of light measured from the illuminance measurement sensor module during the ON operation of the LED lighting provided in the LED lighting module is less than a predetermined normal reference light value, the LED lighting module, the LED Small cell base station device based on 5th generation mobile communication capable of image acquisition, characterized in that the operation state of at least one of the illumination driving module or the illuminance measurement sensor module is determined as a failure to generate self-diagnosis test result information data. .
The method of claim 7,
It is provided on the inside or outside of the base station main body portion fixedly installed on a column or wall provided at a designated place indoors or outdoors, and further includes a solar power generation module that collects energy from sunlight and produces power.
The solar power generation module is installed on at least one of a pillar, a wall surface on which the base station main body is installed, or an outer surface of the base station main body, and a plurality of solar cell cells are formed in series or in parallel to collect electric energy from the sunlight. The solar cell panel unit, a battery unit for storing electrical energy collected from the solar panel unit, a charge sensing unit for sensing the charging state of the battery unit, and driving of the LED lighting module to store electrical energy stored in the battery unit The power conversion unit converts power to power, and the power conversion unit operates such that the power converted from the power conversion unit is applied to the driving power of the LED lighting module according to the charging state value of the battery unit sensed by the charge detection unit. It comprises a control unit to control,
The 5G cell control module controls the operation of the LED lighting driving module so that driving power is applied to the LED lighting module by using the power generated from the solar power generation module, and the sun is set at a preset self-diagnosis test time interval. After performing the self-diagnostic test on the operation status of the photovoltaic module, generate the self-diagnosis test result information data of normal or failure according to the operation status of the photovoltaic module, and combine it with unique device identification information previously stored, Control the operation of the 5G data communication module or set a predetermined terminal so that the self-diagnosis test result information data combined with the unique device identification information is carried on the data transmitted and received through the 5G data communication module connected to the 5G cell control module. , Small cell base station device based on the 5th generation mobile communication capable of obtaining an image, characterized in that it is controlled to be transmitted to at least one of a server or a small cell base station.
The method of claim 11,
The controller converts the power so that the power converted from the power converter is applied to the driving power of the LED lighting module when the charge state value of the battery part sensed by the charge detector is greater than a preset reference charge state value. Controls the behavior of wealth,
When the charge state value of the battery unit sensed by the charge detection unit is smaller than a preset reference charge state value, the operation of the power conversion unit is controlled such that power supplied from the outside is applied as driving power of the LED lighting module. Small cell base station device based on 5th generation mobile communication capable of acquiring images.
According to claim 1,
It is provided inside or outside the main body of the base station, and further includes an environmental data measurement module for measuring environmental information data about the periphery of the base station main body,
The 5G cell control module periodically collects environmental information measured from the environmental data measurement module and combines it with unique device identification information stored in advance, and the environmental information data combined with the unique device identification information is the 5G data. A small cell base station device based on a 5th generation mobile communication capable of acquiring an image, wherein the operation of the 5G data communication module is controlled to be carried together with data transmitted and received through a communication module.
The method of claim 13,
The 5G cell control module is configured to control the environment information data combined with the unique device identification information to be transmitted to at least one of a preset terminal, server, or small cell base station through the 5G data communication module. Small cell base station device based on possible 5th generation mobile communication.
The method of claim 13,
The 5G cell control module periodically collects and compresses environmental information measured from the environmental data measurement module and combines and compresses the unique device identification information stored in advance, and the environmental information data in which the unique device identification information is combined and compressed. Small cell base station device in the 5th generation mobile communication base capable of image acquisition, characterized in that to control the operation of the 5G data communication module to be carried together with the data transmitted and received through the 5G data communication module.
The method of claim 15,
The 5G cell control module is to control the unique device identification information is combined and compressed environmental information data to be transmitted to at least one of a predetermined terminal, server or small cell base station through the 5G data communication module Small cell base station device based on 5G mobile communication that can be acquired.
The method of claim 13,
The 5G cell control module performs a self-diagnostic test on the operation state of the environmental data measurement module at a preset self-diagnosis test time interval, and then performs a self-diagnosis test of normal or malfunction according to the operation state of the environment data measurement module. Generates result information data, combines it with unique device identification information stored in advance, and loads the self-diagnosis test result information data combined with the unique device identification information on data transmitted and received through the 5G data communication module to be transmitted together. A small cell base station device based on a 5th generation mobile communication capable of acquiring an image, wherein the operation of the data communication module is controlled or controlled to be transmitted to at least one of a preset terminal, server, or small cell base station.
The method of claim 13,
The environmental data measurement module includes a temperature measurement sensor unit for measuring temperature environmental information data about the periphery of the base station body unit, a humidity measurement sensor unit for measuring humidity environmental information data for the periphery of the base station body unit, and a periphery of the base station body unit Air pressure measurement sensor unit for measuring atmospheric pressure environmental information data, UV measurement sensor unit for measuring ultraviolet environment information data for the surroundings of the base station main body, fine dust for measuring fine dust environmental information data for the surroundings of the base station main body At least one environment of the measurement sensor unit, the ultra-fine dust measurement sensor unit for measuring the ultra-fine dust environment information data about the periphery of the base station body unit, or the radon measurement sensor unit for measuring the radon concentration data for the surroundings of the base station body unit Includes information measurement sensor unit,
The fine dust measurement sensor unit is a sensor for measuring fine dust having a particle diameter of 10 μm or less, and includes at least one fine dust sensor for measuring at least one air pollutant among sulfur dioxide, nitrogen oxide, lead, ozone, or carbon monoxide. Including,
The ultrafine dust measurement sensor unit is a sensor for measuring ultrafine dust having a particle diameter of 2.5 µm or less, and includes at least one ultrafine dust sensor for measuring total carbon, organic carbon, and elemental carbon contained in the ultrafine dust. Is done by
The 5G cell control module, temperature, humidity, air pressure, ultraviolet rays, fine dust, ultra fine dust, or radon concentration for the periphery of the main body part measured from at least one environmental information measurement sensor unit provided in the environmental data measurement module A small cell base station device based on a 5th generation mobile communication capable of acquiring an image, characterized by periodically collecting at least one environment information data among data and combining unique device identification information previously stored therewith.
The method of claim 18,
The environmental data measurement module further includes a location and altitude measurement sensor unit for measuring the current location and elevation above the base station body portion,
The position and altitude measurement sensor unit includes a GPS receiver for receiving latitude, longitude, and altitude information using a plurality of Global Positioning System (GPS) satellites and obtaining current location and elevation information,
The 5G cell control module includes at least one of temperature, humidity, air pressure, ultraviolet light, fine dust, ultrafine dust, or radon concentration data, including current location and elevation information of the base station body part measured through the environmental data measurement module. Small cell base station device based on the 5th generation mobile communication capable of acquiring an image, characterized in that it collects environmental information data of and combines unique device identification information previously stored therewith.
According to claim 1,
It is provided inside or outside the body portion of the base station, and further includes a photovoltaic power generation module that collects energy from sunlight to produce power.
The 5G cell control module, when the power supplied from the power supply module is cut off, by using the power produced by the photovoltaic module to control the power required for each module is supplied so that the image acquisition is possible Small cell base station device based on 5th generation mobile communication.

Images