WO2018092926A1

WO2018092926A1 - Internet of things-based outdoor self-photography support camera system

Info

Publication number: WO2018092926A1
Application number: PCT/KR2016/013177
Authority: WO
Inventors: 지용주; 진소현
Original assignee: (주) 유에이썬
Priority date: 2016-11-15
Filing date: 2016-11-16
Publication date: 2018-05-24
Also published as: KR101839456B1

Abstract

An Internet of Things-based outdoor self-photography support camera system is configured to comprise: a self-photographing driving unit, which is disposed in each of a plurality of outdoor photographing stages, for receiving a user's personal information and displaying an image set to be shot in real time; an image capturing unit for capturing an image on the basis of position information transmitted from the self-photographing driving unit and the user's personal information when capturing an image with any one outdoor photographing stage selected from the plurality of outdoor photographing stages as the background; and a data server for storing image data transmitted from the image capturing unit and the user's personal information in a database and transmitting the image data using the user's personal information.

Description

IoT-based outdoor self-photographing camera system

The present invention relates to a camera system, and more particularly, to an outdoor self-photography photograph support camera system based on the Internet of Things.

Recently, portable terminals are basically equipped with a camera and support a photographing function using the camera. When the user takes a picture, the user presses a key of the portable terminal or touches a button on the screen to perform camera shooting.

On the other hand, when the user touches a button on the screen during shooting, since the user usually touches with the thumb, the hand holding the portable terminal may shake or the position of the hand may become unstable, and in particular, self-shooting (self-shooting). In this case, the portable terminal may shake more.

Therefore, in order to solve such a problem, Korean Patent Publication No. 10-2013-0054576, "Method and Apparatus for Self-Shooting Camera" has been proposed. In addition, it is difficult to automatically photograph by near, middle, and long forms, and it is difficult to provide a service that is processed and analyzed.

In addition, when the user proceeds to take a self-portrait using his portable terminal, even if using a selfie stick can only take a narrow range of background.

The present invention has been proposed to solve the above technical problem,

The present invention provides an IoT-based outdoor self-photographing photographic camera system capable of performing image capturing in the background of the outdoor photographing stage where the user is located and transmitting image data using the user's personal information.

According to an embodiment of the present invention, each of the self-shooting driving unit is disposed in the plurality of outdoor shooting stage, and receives the user's personal information and displays the scheduled image in real time; An image capturing unit for capturing an image in the background of any one of the plurality of outdoor photographing stages selected from the outdoor photographing stages, the image capturing unit photographing an image based on location information transmitted from the self-capturing driver and a user's personal information; And a data server for storing the image data transmitted from the image capturing unit and the user's personal information as a database, and transmitting the image data using the user's personal information. A support camera system is provided.

The self-imaging driving unit may receive personal information of the user from a portable terminal of the user through a wireless communication method.

In addition, when the self-shooting driver receives the user's personal information from the portable terminal of the user through a wireless communication method, the self-shooting driving unit or the image photographing unit transmits a scheduled image to the portable terminal in real time. It is done.

The personal information may include at least one of a phone number, an e-mail address, and a social network service account.

The image photographing unit may operate in any one of a self-shooting support mode and a crime prevention mode, and in the crime prevention mode, the image photographing unit may include sensing data of a pressure sensor disposed on a bottom surface of the plurality of outdoor photographing stages. Automatically determine the shooting direction based on the object recognition of the image, characterized in that for transmitting the captured security image to the data server in real time.

The data server may determine whether the user has visited the plurality of outdoor shooting stages based on the location information, the image data, and the personal information of the user. By transmitting the user's information to the real game server, when the user accesses the augmented reality game server to proceed with the game, the augmented reality game server is to place the augmented reality game items around the plurality of outdoor shooting stages It features.

According to an embodiment of the present invention, an IoT-based outdoor self-photographing photo support camera system includes:

Image taking is performed in the background of the outdoor shooting stage where the user is located, and image data can be conveniently transmitted using the user's personal information.

In addition, the IoT-based outdoor self-portrait photography support camera system support camera system 1 according to an embodiment of the present invention, not only can solve the situation that the desired image can not be obtained at a limited angle of view, but also the image of the user with a simple operation It automatically takes pictures of short, medium, and long distances such as the surrounding environment, sends photos by email or text via network transmission, and makes a database of your own photo data so that you can request additional past photo data in future visits. Can be. In addition, it is possible to obtain a desired picture by real-time driving the image capturing unit 200, which is already installed in the near, middle and long distance to the self-photographed picture difficult to obtain by manipulating by his own hand.

1 is a configuration diagram of an IoT-based outdoor self-photographing photo support camera system 1 according to an embodiment of the present invention.

FIG. 2 is a layout diagram of an outdoor self-photographing photo support camera system 1 based on the IoT.

FIG. 3 is image data photographed using the IoT-based outdoor self-photographing photographic support camera system 1 of FIG. 1.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention.

1 is a block diagram of an IoT-based outdoor self-photographing picture support camera system 1 according to an embodiment of the present invention.

The IoT-based outdoor self-photographing photo support camera system 1 according to the present embodiment includes only a brief configuration for clearly describing the technical idea to be proposed.

Referring to FIG. 1, the IoT-based outdoor self-photographing photographic camera system 1 includes a plurality of self-imaging driving units 100, an image capturing unit 200, a data server 300, and a portable terminal. And 400.

Here, the self-photographing driver 100, the image capturing unit 200, and the data server 300 are configured to exchange data and control signals with each other using a wired or wireless communication method. That is, the IoT-based outdoor self-photographing photographic camera system is configured to exchange data with each other using a communication environment or communication system called M2M (machine-to-machine) communication or Internet of Things (IoT). do.

The detailed configuration and main operations of the IoT-based outdoor self-photographing photographic camera system 1 constructed as described above are as follows.

The self-capturing driver 100 is disposed in each of the plurality of outdoor photographing stages STAGE, and receives the personal information of the user and displays the photographed image in real time. In addition, the self-shot driver 100 is configured to proceed with the payment for taking a picture. The self-imaging driving unit 100 is defined as a fixed control terminal that allows a user to perform a self-portrait in the background of a natural landscape in a current outdoor photographing stage.

That is, in this embodiment, the outdoor shooting stage (STAGE) refers to a designated location for taking a picture in the background of tourist attractions, famous natural scenery, etc., each of the outdoor shooting stage (STAGE) self-shooting driving unit 100 ) Is installed.

The self-photographing driving unit 100 is a touch screen type information transfer device, and is equipped with a control device and a display screen, and is configured to display tourist information of the surroundings using the display unit.

The pressure sensor is disposed on the bottom surface of the plurality of outdoor shooting stages, and the self-shooting driving unit 100 detects the user's position based on the detection result of the pressure sensor, and then displays the corresponding information. ) Can be sent. Therefore, the image capturing unit 200 may perform image capturing based on the point where the user is located.

When a user inputs at least one personal information of a phone number, an e-mail address, and a social network service (SNS) account into the self-taking driver 100, and proceeds with payment, the self-taking driver 100 displays an image. By controlling the photographing unit 200, the user is able to take a self-photographed picture while displaying a scheduled video in real time against a background of a predetermined natural landscape.

In this case, the image photographed by the image capturing unit 200 is transmitted to the data server 300, and the data server 300 transmits the photographed image using the input personal information. That is, the data server 300 transmits a photograph taken using a phone number, an email address, and a social network service account.

The image capturing unit 200 is installed at a position at which a picture can be taken against a natural landscape of each outdoor shooting stage.

If the outdoor shooting stage (STAGE) is a mountainous terrain, the image photographing unit 200 is installed in a position that can optimally capture the natural landscape, such as the mountain slopes, when the outdoor shooting stage (STAGE) is a beach, rock of the coast It may be supported by a zone or an underwater structure and installed in a protruding form on the sea.

According to the control of the self-capturing driver 100, the photographing direction and the zoom magnification of the image capturing unit 200 are adjusted, and the scheduled image is displayed on the display unit of the self-capturing driver 100 in real time, so that the user self-captures. It makes it easy to take pictures.

That is, the image capturing unit 200 captures an image on the background of any one of the plurality of outdoor photographing stages selected from the outdoor photographing stages STAGE, and the position information transmitted from the self-capturing driving unit 100 and the user's location information. Shoot images based on personal information.

Since the image includes both a moving image and a still image, the image capturing unit 200 may selectively capture a moving image and a still image (photo) by a user's selection.

According to an exemplary embodiment, one image capturing unit 200 may be configured to cover one outdoor photographing stage, and a plurality of image capturing units 200 are pre-assigned by adjusting a photographing direction and a zoom magnification. It may be configured to take charge of each of the outdoor shooting stage (STAGE).

As the image capturing unit 200, a PTZ camera may be used. The PTZ camera is generally referred to as a camera capable of adjusting horizontal / vertical rotation (PAN), tilt (TILT), and zoom (ZOOM) using a motor. Accordingly, since the PTZ camera can be rotated at a specific angle and direction by the control of the self-photographing driver 100, the area where the image can be taken can be adjusted.

The image capturing unit 200 is composed of materials and forms suitable for the surrounding environment, and is composed of poles, steel towers, artificial trees, poles, etc., but is equipped with emotional LEDs for night identification. Auxiliary floodlights are installed to enable the camera, and the search headlights are illuminated to the outdoor stage to facilitate image acquisition.

The image capturing unit 200 basically selects a camera having a resolution of megapixel or more, and divides it into near, middle, and long forms. The camera uses an IP network camera or a DSLR digital camera (zoom lens mounted type). The acquisition method is a zoom lens driving method to automatically take a plurality of pictures by distance, and a method of acquiring a single high resolution picture showing the entire background and automatically increasing the weight of the taken picture so that the pictures at different distances can be displayed. Operate separately.

In addition, the image capturing unit 200 uses renewable energy (solar heat) capable of supplying self-power in a terrain (mountainous terrain, lake, etc.) where it is difficult to install the photographic assistant in the outskirts, and the communication method uses a wireless mesh network method.

That is, when a plurality of image capturing unit 200 is provided, each image capturing unit wirelessly relays data to each other, thereby limiting the data exchange limit distance between the self-capturing driver 100, the portable terminal 400, and the data server 300. Will be able to extend.

For reference, the microphone may be disposed at an angle of 90 degrees in the image capturing unit 200 so that a total of four microphones may collect sound in each direction. In this case, a partition is installed between the four microphones to assist in identifying the source of the sound. The microphone is preferably a directional microphone. When the directional microphone is provided as described above, the image capturing unit 200 may detect the user's voice to detect the moving direction in advance.

For example, when the image capturing unit 200 is responsible for photographing two stages of the first outdoor shooting stage STAGE1 and the second outdoor shooting stage STAGE2,

The image capturing unit 200 may detect a sound generated when the user moves from the first outdoor shooting stage STAGE1 to the second outdoor shooting stage STAGE2, and may automatically photograph the moving process.

In this case, the image capturing unit 200 may capture an image by detecting a preset voice. For example, when the user says "shooting after 5 seconds", the image capturing unit 200 determines the shooting direction by tracking the user's voice direction, and recognizes the voice after recognizing the voice of "shooting after 5 seconds". The image can be taken 5 seconds after the point in time.

In addition, the image capturing unit 200 may recognize a voice command of "movie recording for 5 seconds", "5 still image shooting at 1 second interval after 5 seconds", and proceed with image recording according to the voice command. .

At this time, a voice command such as "shooting a video for 5 seconds", "5 still images taken every 1 second after 5 seconds" is recognized by the self-taking driving unit 100 and transmitted to the image capturing unit 200, the image The photographing unit 200 may be configured to track only the direction of the voice.

The data server 300 stores a database of the image data transmitted from the image capturing unit 200 and the user's personal information, and uses personal information, such as a phone number, an e-mail address, a social network service account, and the like previously input by the user. Image data to the user.

Therefore, the user may take a self-shoot at each outdoor shooting stage, and then receive a video photographed by a phone number, an e-mail address, and a social network service account input in advance.

Meanwhile, the self-photographing driver 100 may receive personal information of the user such as a phone number, an e-mail address, a social network service account, and the like from the user's portable terminal 400 through a wireless communication method.

At this time, since the self-shooting driving unit 100 and the portable terminal 400 are configured to exchange data through a wireless communication method such as Bluetooth and Near Field Communication (NFC), the user simply photographs the portable terminal 400. Personal information may be transmitted through a tagging method to the driving unit 100.

In addition, when the user tags the portable terminal 400 on the self-capturing driver 100, a link for downloading the photo capturing application is displayed.

When the user installs the photographing application in the portable terminal 400, the user may control the image photographing unit 200 for a predetermined time by using the photographing application installed in the portable terminal 400 as well as the self-photographing driving unit 100. Can be.

That is, the portable terminal 400 may display the scheduled image to be captured in real time, and transmit a control signal to the image capturing unit 200 instructing to perform the photographing at a specific time. In addition, it may be configured to pay the amount for taking the image through the photo taking application of the portable terminal 400.

As described above, when the self-capturing driver 100 receives the user's personal information from the portable terminal 400 of the user through a wireless communication method, the self-capturing driver 100 or the image capturing unit 200 is to be photographed. The image may be configured to be transmitted to the portable terminal 400 in real time.

At this time, the self-shooting driver 100, the image capturing unit 200, the data server 300 and the portable terminal 400 is preferably configured to exchange data between each other through a wireless communication method, the wireless communication method is a high capacity A short-range wireless LAN method or a 3G and LTE wireless broadband method that can quickly transmit data may be used.

Referring to FIG. 2, the self-taking driver 100 displays a scheduled image in real time against a background of a predetermined natural landscape, so that a user can easily take a self-photographed picture. That is, the image capturing unit 200 is installed at a position where the photograph can be taken against the background of the natural scenery of each outdoor photographing stage.

When the outdoor shooting stage (STAGE) is a mountainous terrain, the image photographing unit 200 is installed at a position capable of optimally photographing the natural landscape, such as the mountainside, and when the outdoor shooting stage (STAGE) is the coast, rock of the coast It may be supported by a zone or an underwater structure and installed in a protruding form on the sea.

For reference, when the image capturing unit 200 is installed outdoors, the image capturing unit 200 is provided with a solar panel to produce electricity using solar energy, and then configured to operate using stored electrical energy. desirable.

According to the control of the portable terminal 400 or the self-capturing driver 100, the photographing direction and the zoom magnification of the image capturing unit 200 are adjusted, and the scheduled photographed image is displayed on the display unit of the self-capturing driver 100 or portable. Displayed on the terminal 400, the user can easily take a self-portrait picture.

That is, the image capturing unit 200 captures an image on the background of any one of the plurality of outdoor photographing stages selected from the outdoor photographing stages STAGE, and the position information transmitted from the self-capturing driving unit 100 and the user's location information. Shoot images based on personal information. Since the image includes both a moving image and a still image, the image capturing unit 200 may selectively capture a moving image and a still image (photo) by a user's selection.

According to an exemplary embodiment, one image capturing unit 200 may be configured to cover one outdoor photographing stage, and a plurality of image capturing units 200 are pre-assigned by adjusting a photographing direction and a zoom magnification. It may be configured to take charge of each of the outdoor shooting stage (STAGE). For example, as shown in FIG. 2, the image capturing unit on the left is responsible for the first and third outdoor photographing stages STAGE1 and 3, and the image capturing unit on the right has the second and fourth outdoor photographing stages STAGE2, 4) can be configured to take charge.

As the image capturing unit 200, a PTZ camera may be used. The PTZ camera is generally referred to as a camera capable of adjusting horizontal / vertical rotation (PAN), tilt (TILT), and zoom (ZOOM) using a motor. Therefore, the self-capturing driver 100 may rotate the PTZ camera at a specific angle and direction by a user's manipulation, and thus may adjust an area in which the self-capturing driver 100 can be photographed.

3 is image data photographed using the IoT-based outdoor self-photographing photographic support camera system 1 of FIG. 1.

Referring to FIG. 3, the image capturing unit 200 may be a PTZ camera. The PTZ camera may be a camera capable of adjusting left / right, up / down rotation, tilt, and zoom using a motor. Collectively. Therefore, the self-capturing driver 100 may rotate the PTZ camera at a specific angle and direction by a user's manipulation, and thus may adjust an area in which the self-capturing driver 100 can be photographed.

The image capturing unit 200 may enlarge and photograph the user by adjusting the zoom, or may capture the image in high quality, and then enlarge the specific part of the image to generate the final image. That is, when the aspect ratio of the self-photographing user to be photographed is enlarged or reduced in a small, medium, or large form in the entire photograph, the photograph can be taken. Here, the cow is a picture taken with the background most visible, the middle is a picture taken in consideration of both the background and the person, and the cow is defined as a picture focused on the person.

In this case, when the image capturing unit 200 transmits the final image to the self-imaging driving unit 100 or the portable terminal 400, a time, a specific picture or specific data may be inserted into the final image.

On the other hand, the data server 300 determines whether the user visited all the plurality of outdoor shooting stage (STAGE) based on the location information, the image data and the user's personal information,

If you visit all of the plurality of outdoor shooting stages (STAGE), by sending the user's information to the preset AR game server,

When the user accesses the augmented reality game server and proceeds with the game, the augmented reality game server may be linked to operate the augmented reality game items around the plurality of outdoor shooting stage (STAGE).

At this time, the data server 300 analyzes the photographed image of the user, grasps the visit time of each outdoor shooting stage and the user's moving line, and transmits the corresponding information to the augmented reality game server. The augmented reality game server determines the placement position of the augmented reality game item based on the user's copper wire information transmitted from the data server (300).

In addition, the image capturing unit 200 operates in one of a self-shooting support mode and a security mode. In the self-shooting support mode, as described above, the image capturing unit 200 supports a user to take a self-photographed picture.

The manager may switch to the security mode by controlling the self-photographing driving unit 100 or may switch to the security mode using the manager's portable terminal. In addition, the self-shooting support mode and the security mode may be automatically switched according to a preset time.

That is, in the security mode, the image capturing unit 200 automatically determines the photographing direction based on the sensing data of the pressure sensor disposed on the floor of the plurality of outdoor photographing stages or the object recognition of the image, and the photographed crime prevention image. Real time transmission to the data server 300.

That is, the image capturing unit 200 basically photographs the preset area while rotating up, down, left, and right, and when the sensing data of the pressure sensor disposed on the bottom surface of the plurality of outdoor photographing stages is transmitted, that is, the intruder is outdoors. When approaching the shooting stage (STAGE), focus on the area.

In addition, while the image capturing unit 200 recognizes the captured image, when the intruder is recognized, such as a person, the image capturing unit 200 continues to photograph the object.

At this time, when determining the intruder through the object recognition in the security mode, the method for the image capturing unit 200 to distinguish the manager or patrol may be made as follows.

When the patrolman proceeds a predetermined specific gesture for a predetermined time at a predetermined place, the image capturing unit 200 may be configured to recognize the patrol person as an authorized person.

In addition, when the patrol wears a certain color of clothes, the image capturing unit 200 may recognize that the person wearing the clothes of the color as an authorized person. At this time, it is preferable that the allowed color for each time zone is set differently.

In addition, when the patrol is attached to clothes or attachments printed with a specific QR code or mark, the image capturing unit 200 may recognize the person as an authorized person according to the recognized value after recognizing the code or mark. .

For reference, in order to more clearly recognize the object in the image capturing unit 200, the QR code or mark attached to the clothes of the patrol may be coated with an infrared reflecting material reflecting a specific infrared wavelength. In addition, the image capturing unit 200 may be equipped with a spectroscopic filter for adjusting the infrared transmission wavelength. Since the spectroscopic filter is mounted on the image capturing unit 200, identification of codes and marks coated with an infrared reflecting paint may be performed more smoothly.

In addition, a camera for photographing an infrared wavelength region and a camera for photographing a visible light region may be disposed in a pair by mounting a spectroscopic filter for adjusting the infrared transmission wavelength. As described above, when a pair of cameras are allocated to each outdoor shooting stage and the infrared reflecting paint reflecting a specific infrared wavelength is coated on the QR code or mark attached to the patrolman's clothes, the imaging unit 200 or The data server 300 may perform the object recognition operation more accurately by comparing the captured image of the infrared region and the captured image of the visible light region. That is, by mounting the spectroscopic filter on the image capturing unit 200, identification of codes and marks coated with an infrared reflecting paint may be performed more smoothly.

In addition, when the patrol is wearing a patrol clothes coated with an infrared reflecting paint or gloves coated with an infrared reflecting paint on the hand, the image capturing unit 200 may perform even smoother operation of the patrol.

That is, the image capturing unit 200 may be configured to capture both a still image and a video in the visible light band and a still image and a video in the infrared band.

The image capturing unit 200 transmits the data to the data server 300 after recognizing the situation as an attention condition even if the licensed patrol is recognized as an object that additionally possesses a specific object during the patrol. In other words, by monitoring the patrol's behavior can improve the reliability of the security.

According to an embodiment of the present invention, an IoT-based outdoor self-photographing photographic camera system 1 may include:

In addition, the IoT-based outdoor self-photographing photo support camera system 1 according to an embodiment of the present invention can not only solve a situation in which a desired image can not be obtained at a limited angle of view, but also display a user's image in a simple environment. Like this, you can take pictures by short, medium and long distances automatically, send photos by email or text via network transmission, and make a database of your own photo data so that you can ask for past photo data in future visits. That is, when the user requests a photo taken in the past at the current place by using the portable terminal or the self-photographing driver, the corresponding past picture may be displayed on the portable terminal or the self-photographing driver. In addition, it is possible to obtain a desired picture by real-time driving the image capturing unit 200, which is already installed in the near, middle and long distance to the self-photographed picture difficult to obtain by manipulating by his own hand.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Claims

A self-capturing driver disposed on the outdoor photographing stage and configured to receive a user's personal information and display a photographed image in real time;

In taking an image in the background of the outdoor shooting stage, the image capturing unit for capturing an image based on the location information transmitted from the self-shooting driver and the user's personal information; And

A data server for storing the image data transmitted from the image capturing unit and the user's personal information as a database, and transmitting the image data using the user's personal information;

Internet-based outdoor self-portrait photographic support camera system comprising a.
A self-shooting driving unit disposed on each of the plurality of outdoor shooting stages and configured to receive a user's personal information and display a capturing image in real time;

An image capturing unit for capturing an image in the background of any one of the plurality of outdoor photographing stages selected from the outdoor photographing stages, the image capturing unit photographing an image based on location information transmitted from the self-capturing driver and a user's personal information; And

A data server for storing the image data transmitted from the image capturing unit and the user's personal information as a database, and transmitting the image data using the user's personal information;

Internet-based outdoor self-portrait photographic support camera system comprising a.
The method of claim 2,

The self-photographing drive unit,

The IoT based outdoor self-photographing photographic camera system of claim 1, wherein the user's personal information is received from a user's portable terminal through a wireless communication method.
The method of claim 2,

When the self-capturing driver receives the user's personal information from the portable terminal of the user through a wireless communication method, the self-capturing driver or the image capturing unit transmits a scheduled image to the portable terminal in real time. IoT based outdoor self-photographing camera system.
The method of claim 2,

The personal information includes a phone number, an e-mail address, a social network service account, the IoT-based outdoor self-portrait photographic camera system, characterized in that at least one.
The method of claim 2,

The image capturing unit,

It operates in one of self-shooting support mode and security mode,

In the security mode, the image photographing unit automatically determines a photographing direction based on the sensing data of the pressure sensors disposed on the floors of the plurality of outdoor photographing stages and the object recognition of the image, and real-time the photographed crime prevention image to the data server. An IoT based outdoor self-photographing photographic camera system, characterized in that for transmitting.
The method of claim 2,

The image capturing unit,

It operates in one of self-shooting support mode and security mode,

The IoT based outdoor self-photographing photographic camera system, characterized in that the self-shooting support mode and the security mode is automatically switched according to a preset time.
The method of claim 2,

The data server,

It is determined whether the user visited the plurality of outdoor shooting stages based on the location information, the image data, and the personal information of the user.

When all of the plurality of outdoor shooting stages visited, by transmitting the information of the user to a preset augmented reality game server,

When the user accesses the augmented reality game server and proceeds with the game, the augmented reality game server is a IoT based outdoor self-portrait picture, characterized in that to place the augmented reality game items around the plurality of outdoor shooting stages Support camera system.
The method of claim 2,

The image capturing unit,

Zoom in to zoom in on the user, or capture the image in high quality, and then zoom in on a specific part of the image to create the final image. The IoT based outdoor self-photographing photographic camera system, characterized in that the automatic shooting.
The method of claim 2,

When the user requests a photo taken in the past at the current place by using the portable terminal or the self-shooting driver, the past photograph is displayed on the portable terminal or the self-shooting driving unit. Support camera system.