WO2023177004A1

WO2023177004A1 - System and method for providing selfies combined with nft technology

Info

Publication number: WO2023177004A1
Application number: PCT/KR2022/004136
Authority: WO
Inventors: 지용주; 이선미; 진소현
Original assignee: (주) 유에이썬
Priority date: 2022-03-16
Filing date: 2022-03-24
Publication date: 2023-09-21
Also published as: KR20230135704A

Abstract

A system for providing selfies comprises an image acquisition unit, a control terminal, and a server. The image acquisition unit includes a first camera, a second camera, and a third camera. A user can capture selfie images by controlling the image acquisition unit by means of a control terminal. The focal lengths of the first, second, and third cameras are different from each other, and thus the image acquisition unit can acquire various kinds of photos at the same time. The server is connected to a Mainnet. In addition, the server can store data in a blockchain shared between a plurality of Mainnet nodes, or retrieve data from the blockchain. That is, the server can upload the images acquired by the image acquisition unit and make a non-fungible token (NFT) issuance platform issue NFTs.

Description

Selfie provision system and method incorporating NFT technology

The present invention relates to a system and method for providing selfies by taking a self-portrait and distributing ownership of the self-portrait using a non-fungible token (NFT), and specifically, at different focal lengths. Multiple videos can be shot at the same time using multiple cameras with a It relates to a system and method for providing selfies.

Digital works are easy to copy and redistribute, and the copies and originals are substantially identical, making it difficult to identify the original among multiple copies or confirm the attribution of original ownership. For this reason, there was a problem that ownership claims and the exercise of property rights for digital works were limited after they were made public and copied and redistributed.

However, with the commercialization of blockchain technology, the technology to prove ownership of digital works by issuing non-fungible tokens (NFTs) corresponding to digital works on the blockchain is widely available. It is being utilized. In other words, it is possible to promote stable trading of digital works by issuing non-fungible tokens (NFTs, Non Fungible Tokens) to digital works to confirm ownership.

The present invention is intended to solve the problem of limited ownership verification of digital works as described above, and is intended to provide a user's ownership of the user's digital works by issuing a non-fungible token (NFT) to the selfie video taken by the user. The purpose is to provide a selfie provision system and method that protects rights and enables stable transactions.

In addition, the purpose of the present invention is to provide a system and method for providing selfies with improved usability because various photos can be taken at once using a plurality of cameras with different focal lengths.

A selfie providing system according to an embodiment of the present invention may include an image acquisition unit, a control terminal, and a server. The image acquisition unit can generate a selfie image by photographing the user's appearance and background. The image acquisition unit includes a first camera having a first focal length and acquiring a first image, a second camera having a second focal length longer than the first focal length and acquiring a second image, and the second It may have a third focal length longer than the focal length and may include a third camera that acquires a third image. The selfie image may include at least one of the first image, the second image, and the third image. The control terminal can control the image acquisition unit and display the selfie image. The server may receive the selfie video and be managed by the operator. The server uploads the selfie video to a non-fungible token (NFT, Non Fungible Token) issuing platform, so that the non-fungible token (NFT, Non Fungible Token) issuing platform issues at least one non-fungible token (NFT, Non Fungible Token). can be issued.

The server of the selfie providing system according to an embodiment of the present invention may transmit a signal to the control terminal to confirm whether the user is willing to share ownership of the selfie video with the operator. If the user is not willing to share the ownership with the operator, the server may transmit a signal to the control terminal requesting the user to pay a predetermined fee. When payment of the predetermined fee is confirmed, the server can transfer the non-fungible token (NFT) to the user's electronic wallet. If the user is willing to share the ownership with the operator, the server may transmit a signal to the control terminal requesting the user to input the user's share ratio for the selfie video. The server may transmit a signal to the control terminal requesting the user to pay a fee corresponding to the stake ratio. When the payment of the fee is confirmed, the server reminds the server of a plurality of non-fungible tokens (NFT, Non Fungible Token) in an amount proportional to the stake ratio of the user. You can send money to your electronic wallet.

The server of the selfie providing system according to an embodiment of the present invention may transmit a signal to the control terminal to confirm whether the user owns an electronic wallet. If the user does not own an electronic wallet, the control terminal can guide the user to access the electronic wallet platform and create an electronic wallet. If the user owns an electronic wallet, the control terminal can guide the user to input the electronic wallet address.

The control terminal of the selfie providing system according to an embodiment of the present invention may be placed closer to the user than the image acquisition unit.

The selfie providing system according to an embodiment of the present invention may further include an illuminance sensor and a lighting unit. The shooting stage may be defined as a designated place where the user can shoot the selfie image. The illuminance sensor and the lighting unit may be disposed adjacent to the filming stage. The illuminance sensor and the lighting unit may be controlled by the control terminal. The brightness of light emitted from the lighting unit may be controlled based on the sensing data value of the illuminance sensor.

The image acquisition unit of the selfie providing system according to an embodiment of the present invention may include a first motor, a second motor, and a third motor. The first motor moves the first camera and can be controlled by the control terminal. The second motor moves the second camera and can be controlled by the control terminal. A third motor moves the third camera and may be controlled by the control terminal.

The selfie providing system according to an embodiment of the present invention may further include at least one proximity sensor disposed on the bottom of the filming stage. The focus of the first camera, the second camera, and the third camera may be controlled based on the sensing data of the proximity sensor and the previously stored distance between the proximity sensor and the image acquisition unit.

The selfie providing system according to an embodiment of the present invention may further include a location detection plate. The position detection plate corresponds to the proximity sensor and may include a metal component. It can be detached and attached to the bottom of the filming stage. The proximity sensor may be an inductive proximity sensor.

In the selfie providing system according to an embodiment of the present invention, a first distance from the center of the shooting stage to the first camera, a second distance from the center of the shooting stage to the second camera, and The third distance from the center to the third camera may be equal to each other.

The control terminal of the selfie providing system according to an embodiment of the present invention may be a personal communication device possessed by the user.

In a method of providing a selfie according to an embodiment of the present invention, a first camera having a first focal length, a second camera having a second focal length longer than the first focal length, and a second camera having a second focal length longer than the first focal length. An image acquisition unit including a third camera having a third focal length, a server that communicates with the image acquisition unit and is managed by an operator, and a control terminal that controls the image acquisition unit may be used. The method of providing a selfie according to an embodiment of the present invention may include a selfie taking step, a token issuance step, a sharing intention confirmation step, a fee charging step, and a token remittance step.

The selfie shooting step may be a step in which the user takes a selfie image using the image acquisition unit.

In the token issuance step, the server uploads the selfie video to a non-fungible token (NFT) issuing platform, and the non-fungible token (NFT) issuing platform issues at least one non-fungible token (NFT, This may be a step toward issuing a Non Fungible Token.

The sharing intention confirmation step may be a step in which the server transmits a signal to the control terminal to confirm whether the user is willing to share ownership of the selfie video with the operator. number

The fee charging step may be a step in which the server transmits a signal to the control terminal requesting the user to pay a predetermined fee.

Token transfer step may be a step in which the server transfers the non-fungible token (NFT) to the user's electronic wallet.

In the sharing intention confirmation step of the method for providing selfies according to an embodiment of the present invention, if it is confirmed that the user does not intend to share the ownership with the operator, in the fee charging step, the server sends the selfie to the control terminal. A signal requesting payment of a predetermined fee may be transmitted to the user.

When payment of the predetermined fee is confirmed, the server may transfer the non-fungible token (NFT) to the user's electronic wallet in the token transfer step.

If it is confirmed in the sharing intention confirmation step that the user is willing to share the ownership with the operator, the server sends a signal to the control terminal requesting the user to input the user's share ratio for the selfie video. can be transmitted. In the fee charging step, the server may transmit a signal to the control terminal requesting the user to pay a fee corresponding to the stake ratio.

When payment of the fee is confirmed, in the token transfer step, the server replaces a plurality of non-fungible tokens (NFTs, Non Fungible Tokens) in the user's electronic wallet by an amount proportional to the user's stake ratio. You can transfer non-fungible tokens (NFTs).

In the token transfer step, the server may transmit a signal to the user to confirm whether the user owns an electronic wallet.

If it is confirmed that the user does not own an electronic wallet, the control terminal can guide the user to access the electronic wallet platform and create an electronic wallet.

If it is confirmed that the user owns an electronic wallet, the control terminal may guide the user to input the electronic wallet address.

The control terminal may be placed closer to the user than the image acquisition unit.

According to an embodiment of the present invention, a selfie provision system that protects the user's rights to the user's digital work and allows stable transactions by issuing a non-fungible token (NFT) to the selfie video taken by the user and methods may be provided.

According to an embodiment of the present invention, various photos can be taken at once using a plurality of cameras with different focal lengths, thereby providing a system and method for providing selfies with improved usability.

Figure 1 schematically shows the configuration of a selfie providing system of the present invention.

2 to 4 exemplarily show a user using a selfie providing system according to an embodiment of the present invention.

Figure 5 shows a flow chart of the method for providing selfies of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the attached drawings. In the drawings, the proportions and dimensions of components may be exaggerated for effective explanation of technical content.

Terms such as "include" are intended to designate the presence of features, numbers, steps, operations, components, parts, or a combination thereof described in the specification, but do not include one or more other features, numbers, steps, operations, or configurations. It should be understood that this does not exclude in advance the possibility of the presence or addition of elements, parts, or combinations thereof.

Figure 1 schematically shows the configuration of the selfie providing system (SPS) of the present invention. 2 to 4 exemplarily show how a user (USR) uses a selfie providing system (SPS, SPS-1, and SPS-2) according to an embodiment of the present invention.

Referring to FIG. 1, a selfie providing system (SPS) according to an embodiment of the present invention may include an image acquisition unit (PC), a control terminal (CT), and a server (SV). The server (SV) is connected to the mainnet (MN) and can operate as a node of the mainnet (MN). Mainnet (MN) is a network that operates blockchain projects. In other words, the server (SV) can store data in the blockchain (BC) shared among multiple mainnet (MN) nodes or load data from the blockchain (BC).

The image acquisition unit (PC) may include a first camera (CM1), a second camera (CM2), and a third camera (CM3). The image acquisition unit (PC) can generate a selfie image by photographing the appearance and background of the user (USR).

The first camera CM1 has a first focal length and can acquire a first image. For example, the first camera CM1 may be a wide-angle lens.

The second camera CM2 has a second focal length that is longer than the first focal length and can acquire a second image. For example, the second camera (CM2) may be a standard lens.

The third camera (CM3) has a third focal length that is longer than the second focal length and can acquire a third image. For example, the third camera (CM3) may be a telephoto lens.

That is, the user (USR) can take a plurality of photos with different focuses at once using a plurality of cameras (CM1, CM2, CM3) with different focal lengths. For example, the first image may be an image in which the background is more emphasized than the appearance of the user (USR). The second image may be an image in which the appearance of the user (USR) and the background are similarly emphasized. The third image may be an image in which the appearance of the user (USR) is more emphasized than the background.

The selfie image may include at least one of the first image, the second image, and the third image.

The control terminal (CT) can control the image acquisition unit (PC) including the first camera (CM1), the second camera (CM2), and the third camera (CM3). The control terminal (CT) can display a selfie image. Accordingly, the user (USR) can take a selfie while referring to the selfie image displayed on the control terminal (CT).

Referring to FIG. 2, the control terminal (CT) of the selfie providing system (SPS) according to an embodiment of the present invention may be placed closer to the user (USR) than the image acquisition unit (PC). For example, the control terminal (CT) is placed near the user (USR), and the user (USR) remotely controls the first camera (CM1), the second camera (CM2), and the third camera by operating the control terminal (CT). Selfie images can be taken by controlling the image acquisition unit (PC) including the camera (CM3).

Referring to Figure 3, the control terminal (CT-1) of the selfie providing system (SPS-1) according to an embodiment of the present invention includes a first camera (CM1), a second camera (CM2), and a third camera ( It can be placed adjacent to CM3). For example, the control terminal (CT-1), the first camera (CM1), the second camera (CM2), and the third camera (CM3) may be provided as part of an interactive kiosk. The control terminal (CT-1) may be provided in the form of a touch panel on an interactive kiosk. That is, the user (USR) touches the control terminal (CT-1) to select the image acquisition unit (PC-1) including the first camera (CM1), the second camera (CM2), and the third camera (CM3). You can control it and take selfie videos. However, the embodiment of the present invention is not limited to this, and it is sufficient for the control terminal (CT-1) to be located closer to the image acquisition unit (PC-1) than the user (USR).

Referring to FIG. 4, the control terminal (CT-2) of the selfie providing system (SPS-2) according to an embodiment of the present invention may be a personal communication device owned by the user (USR). Personal communication devices may be smartphones, tablet PCs, smartwatches, etc. However, the personal communication device of the present invention is not limited to this, and any personal communication device that can communicate with the control terminal (CT-2) is sufficient. In other words, the user (USR) uses the personal communication device he or she possesses to use the image acquisition unit (PC-2) including the first camera (CM1), the second camera (CM2), and the third camera (CM3). You can take control and take selfie videos.

The server SV may receive a selfie image acquired from at least one of the first camera CM1, the second camera CM2, and the third camera CM3. Server (SV) can be managed by an operator. The server (SV) can access the non-fungible token (NFT) issuance platform. The server (SV) uploads a selfie video to the non-fungible token (NFT, Non Fungible Token) issuing platform, and the non-fungible token (NFT, Non Fungible Token) issuing platform issues at least one non-fungible token (NFT, Non Fungible Token). can be issued.

The Non Fungible Token (NFT) issuance platform is a platform that can issue Non Fungible Tokens (NFT) for digital works. The non-fungible token (NFT) issuing platform may be at least one of Opensea, Crafter Space, and Craftsmanship. However, the present invention is not limited to this, and the non-fungible token (NFT) issuing platform is sufficient as long as it can issue a non-fungible token (NFT) by uploading a selfie video.

Multiple non-fungible tokens (NFTs) can be issued for one digital work. For example, by issuing three non-fungible tokens (NFT) for one digital work, the user (USR) receives two tokens and the operator of the selfie provision system (SPS) receives one non-fungible token (NFT). Non Fungible Token) can be shared. In other words, the user (USR) and the operator of the selfie provision system (SPS) can share ownership of one digital work at a 2:1 share ratio. Additionally, since non-fungible tokens (NFTs, Non Fungible Tokens) owned by each person can be disposed of independently, it is easy to exercise rights to digital works.

Additionally, the server SV may transmit a signal to the control terminal CT to confirm whether the user USR is willing to share ownership of the selfie video with the operator. The user (USR) can operate the control terminal (CT) to reply to the server (SV) whether the user (USR) is willing to share ownership of the selfie image with the operator.

If the user (USR) is not willing to share ownership with the operator, the server (SV) may transmit a signal to the control terminal (CT) requesting the user (USR) to pay a certain fee. Once payment of a certain fee is confirmed, the server (SV) can transfer a non-fungible token (NFT) to the user's (USR) electronic wallet. In other words, the user (USR) can receive a non-fungible token (NFT) by paying a small fee. The prescribed fee can be determined by the operator.

If the user (USR) is willing to share ownership, the server (SV) can transmit a signal to the control terminal (CT) requesting the user (USR) to input the user's (USR's) share ratio for the selfie video. . The server (SV) may transmit a signal to the control terminal (CT) to the user (USR) requesting payment of a fee corresponding to the input stake ratio. Once payment of the fee is confirmed, the server (SV) will issue an amount of non-fungible tokens (NFT, Non Fungible Token) proportional to the user's (USR) stake ratio. ) can be transferred to the user's (USR) electronic wallet.

In other words, the user (USR) can pay a fee corresponding to the stake ratio entered by the user and receive an amount of non-fungible tokens (NFT) proportional to the stake ratio from the server (SV). For example, the lower the user (USR) inputs the user's (USR) stake ratio, the smaller the fee is paid and the non-fungible tokens (NFTs) can be remitted.

In the process of transferring a non-fungible token (NFT) to the user's (USR) electronic wallet, the server (SV) uses the control terminal (CT) to check whether the user (USR) owns the electronic wallet. Signals can be transmitted. If the user (USR) does not own an electronic wallet, the control terminal (CT) can guide the user (USR) to access the electronic wallet platform and create an electronic wallet. If the user (USR) owns an electronic wallet, the control terminal (CT) can guide the user (USR) to enter the electronic wallet address.

Electronic wallets are called blockchain wallets, digital asset wallets, virtual currency wallets, and cryptocurrency wallets, and can hold, transfer, and manage virtual currencies and non-fungible tokens (NFTs). The electronic wallet platform may be one of Metamask, Kaikas, and Klip. However, the type of electronic wallet platform is not limited to this, and anything that can create an electronic wallet on a blockchain is sufficient.

The selfie provision system (SPS) according to an embodiment of the present invention may further include an illuminance sensor and a lighting unit. The illuminance sensor and lighting unit may be placed adjacent to the filming stage. The illuminance sensor and lighting unit can be controlled by a control terminal (CT). The filming stage is defined as a designated photography location where users (USR) can take selfie videos with cultural assets, natural scenery, buildings, etc. in the background. The brightness of light emitted from the lighting unit can be controlled based on sensing data from the illuminance sensor.

That is, the brightness of the light emitted from the lighting unit can be adjusted so that the sensing data value of the illuminance sensor converges to a predetermined value. Therefore, shooting conditions can be maintained stably by the lighting unit emitting brighter light during times of low illumination. Accordingly, stable shooting conditions are provided, and the problem of camera focus detection failure due to low illumination can be prevented.

The selfie provision system (SPS) according to an embodiment of the present invention may further include at least one proximity sensor. The proximity sensor can be placed on the bottom of the filming stage. Distance information including the distance between each of the plurality of proximity sensors and the image acquisition unit (PC) may be measured in advance and stored in the control terminal (CT) that controls the image acquisition unit (PC). The proximity sensor can communicate with the control terminal (CT). Therefore, the focus of the first camera (CM1), the second camera (CM2), and the third camera (CM3) can be adjusted based on the sensing data of the proximity sensor and the previously stored distance information.

For example, when the user (USR) is located on the shooting stage to take a selfie video, sensing data may be output from the proximity sensor corresponding to the user's (USR) location. The output sensing data can be transmitted to the control terminal (CT). The control terminal (CT) can adjust the focus of the first camera (CM1), the second camera (CM2), and the third camera (CM3) based on sensing data and pre-stored distance information. By using the proximity sensor of the present invention, the problem of camera focus detection failure due to environmental factors such as temperature, humidity, and illumination can be prevented even when the filming stage is outdoors.

The selfie providing system (SPS) according to an embodiment of the present invention may further include a location detection plate. The position detection plate may correspond to a proximity sensor. The position detection plate contains metal components and can be attached and detached to the bottom of the filming stage. The proximity sensor corresponding to the position detection plate may be an inductive proximity sensor.

Proximity sensors can be classified into photoelectric sensor type, inductive type, capacitance type, and ultrasonic type depending on the method of detecting the proximity of an object. Photoelectric proximity sensors can be easily affected by lens contamination and light reflection. Capacitive inductive sensors can be very sensitive to changes in the external environment. Ultrasonic proximity sensors have poor resolution and repeatability, and can react sensitively to external temperature changes. On the other hand, inductive proximity sensors are almost unaffected by the environment, have a long lifespan, and are easy to install. Therefore, it is desirable that the proximity sensor of the selfie provision system (SPS) according to an embodiment of the present invention be an inductive proximity sensor that can operate stably even when exposed to the external environment.

For example, the user (USR) can decide on the shooting stage the location where he or she wants to capture a selfie image and then place the location detection plate at that location. Accordingly, the focus of the first camera, the second camera, and the third camera can be controlled based on the sensing data output from the inductive proximity sensor corresponding to the position detection plate. When using an inductive proximity sensor and a position detection plate, the user's (USR) location can be detected more accurately than when simply using a proximity sensor placed on the bottom of the filming stage. Therefore, the focus of the camera can be controlled more accurately. Additionally, compared to using only a proximity sensor, the problem of sensor misdetection caused by environmental factors such as temperature, humidity, and illumination can be reduced.

The image acquisition unit (PC) of the selfie providing system (SPS) according to an embodiment of the present invention may further include a first motor, a second motor, and a third motor. The first motor may move the first camera (CM1). The second motor may move the second camera (CM2). The third motor may move the third camera (CM3). The first motor, the second motor, and the third motor may each move the first camera, the second camera, and the third camera in at least two of four directions: up, down, left, and right. The first motor, second motor, and third motor may be controlled by a control terminal (CT). That is, the user (USR) can control the first motor, second motor, and third motor by manipulating the control terminal (CT), thereby selecting desired selfie image shooting conditions.

In the selfie providing system (SPS) according to an embodiment of the present invention, the distance from the center of the shooting stage to the first camera (CM1) is defined as the first distance. The distance from the center of the filming stage to the second camera is defined as the second distance. The distance from the center of the filming stage to the third camera is defined as the third distance. The first distance, second distance, and third distance may be equal to each other. That is, the first camera (CM1), the second camera (CM2), and the third camera (CM3) are arranged at the same distance from the center of the filming stage. Therefore, even if some cameras do not focus well, the focus can be corrected by referring to the settings of other cameras.

Figure 5 shows a flow chart of the selfie providing method (SPM) of the present invention.

An image acquisition unit (PC), a server (SV), and a control terminal (CT) may be used in the selfie providing method (SPM) according to an embodiment of the present invention.

The image acquisition unit (PC) may include a first camera (CM1), a second camera (CM2), and a third camera (CM3). The first camera CM1 may have a first focal length. The second camera CM2 may have a second focal length that is longer than the first focal length. The third camera CM3 may have a third focal length that is longer than the second focal length. For example, the first camera (CM1), the second camera (CM2), and the third camera (CM3) may be a wide-angle lens, a standard lens, and a telephoto lens, respectively. However, the present invention is not limited thereto.

The server (SV) communicates with the video acquisition unit (PC) and can be managed by the operator.

The control terminal (CT) can control the image acquisition unit (PC).

Referring to Figure 5, the selfie providing method (SPM) according to an embodiment of the present invention includes a selfie taking step (S10), a token issuance step (S20), a sharing intention confirmation step (S30), a fee charging step (S40), and a token transfer step (S50).

In the selfie taking step (S10), the user (USR) can take a selfie image using the image acquisition unit (PC). The selfie image may include at least one of a first image, a second image, and a third image.

That is, the user (USR) can take a plurality of photos with different focuses at once using a plurality of cameras (CM1, CM2, CM3) with different focal lengths. For example, the image acquired through the first camera (CM1) may be an image in which the background is more emphasized than the appearance of the user (USR). The image acquired through the second camera (CM2) may be an image in which the appearance of the user (USR) and the background are similarly emphasized. The image acquired through the third camera may be an image in which the appearance of the user (USR) is more emphasized than the background.

In the token issuance step (S20), the server (SV) uploads the selfie video to the non-fungible token (NFT, Non Fungible Token) issuing platform, and at least one non-fungible token (NFT) issuance platform is issued. Tokens (NFT, Non Fungible Token) can be issued.

In the sharing intention confirmation step (S30), the server (SV) may transmit a signal to the control terminal (CT) to confirm whether the user (USR) is willing to share ownership of the selfie video with the operator.

In the fee charging step (S40), the server (SV) may transmit a signal to the control terminal (CT) requesting payment of a predetermined fee to the user (USR).

In the token transfer step (S50), the server (SV) can transfer a non-fungible token (NFT) to the user's (USR) electronic wallet.

Dividing into cases where the user (USR) is willing to share ownership of the selfie video with the operator and cases where the user is not willing, we examine in detail what is done in each step of the selfie provision method (SPM).

If it is confirmed that the user (USR) does not intend to share ownership of the selfie video with the operator, in the fee charging step (S40), the server (SV) pays a certain fee to the user (USR) through the control terminal (CT). A signal requesting can be transmitted. In the fee charging step (S40), the server (SV) may transmit a signal to the control terminal (CT) requesting payment of a fee corresponding to the stake ratio to the user (USR). Once payment of the prescribed fee is confirmed, the server (SV) can transfer a non-fungible token (NFT) to the user's (USR) electronic wallet in the token transfer step (S50).

If it is confirmed that the user (USR) is willing to share the ownership of the selfie video with the operator, in the sharing intention confirmation step (S30), the server (SV) sends the selfie video to the user (USR) through the control terminal (CT). A signal requesting input of the stake ratio of the user (USR) can be transmitted. In the fee charging step (S40), the server (SV) may transmit a signal to the control terminal (CT) requesting payment of a fee corresponding to the stake ratio to the user (USR). When payment of the fee is confirmed, in the token transfer step (S50), the server (SV) is proportional to the user's (USR) share ratio among a plurality of non-fungible tokens (NFTs, Non Fungible Tokens) in the user's (USR) electronic wallet. You can transfer the amount of non-fungible tokens (NFT).

In the token transfer step (S50) of the selfie provision method (SPM) according to an embodiment of the present invention, the server (SV) sends a signal to the user (USR) to confirm whether the user (USR) owns an electronic wallet. Can be transmitted. If it is confirmed that the user (USR) does not own an electronic wallet, the control terminal (CT) can guide the user (USR) to access the electronic wallet platform and create an electronic wallet. If it is confirmed that the user (USR) owns an electronic wallet, the control terminal (CT) can guide the user (USR) to enter the electronic wallet address.

Electronic wallets are called blockchain wallets, digital asset wallets, virtual currency wallets, and cryptocurrency wallets, and can hold, transfer, and manage virtual currencies and non-fungible tokens (NFTs). The electronic wallet platform may be one of Metamask, Kaikas, and Klip. However, the type of electronic wallet platform is not limited to this, and anything that can create an electronic wallet on blockchain (BC) is sufficient.

The order of the token issuance step (S20), the sharing intention confirmation step (S30), and the fee charging step (S40) of the selfie providing method (SPM) according to another embodiment of the present invention may vary. For example, the sharing intention confirmation step (S30) and the fee charging step (S40) may be performed first, and then the token issuance step (S20) may be performed. In other words, after the process of confirming whether the user (USR) is willing to share the ownership of the selfie video with the operator, the process of requesting fee payment, and the process of confirming fee payment are completed, a non-fungible token for the selfie video is issued. (NFT, Non Fungible Token) can be issued. In this case, cost processing problems due to non-payment of fees by the user (USR) can be prevented in advance.

Although the description has been made with reference to examples, those skilled in the art will understand that various modifications and changes can be made to the present invention without departing from the spirit and scope of the present invention as set forth in the following patent claims. There will be. In addition, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, and all technical ideas within the scope of the following patent claims and equivalents should be construed as being included in the scope of the present invention. .

Using the present invention, it is possible to take pictures of various angles of view with a plurality of cameras having different focal lengths, and guide users to issue non-fungible tokens (NFTs) for the taken pictures. It can be widely used in places visited by many people. Therefore, the present invention regarding a system and method for attracting a large number of visitors to a specific area or promoting an event has high industrial applicability.

Claims

An image acquisition unit that captures the user's appearance and background to create a selfie image;

The video acquisition unit,

a first camera having a first focal length and acquiring a first image;

a second camera having a second focal length longer than the first focal length and acquiring a second image; and

a third camera having a third focal length longer than the second focal length and acquiring a third image;

The selfie image includes at least one of the first image, the second image, and the third image,

A control terminal capable of controlling the image acquisition unit and displaying the selfie image; and

Includes a server that receives the selfie video and is managed by an operator,

The server uploads the selfie video to a non-fungible token (NFT, Non Fungible Token) issuing platform, so that the non-fungible token (NFT, Non Fungible Token) issuing platform issues at least one non-fungible token (NFT, Non Fungible Token). A selfie provision system that allows you to issue .
According to claim 1,

The server transmits a signal to the control terminal to confirm whether the user is willing to share ownership of the selfie video with the operator,

If the user is not willing to share the ownership with the operator, the server transmits a signal to the control terminal requesting the user to pay a predetermined fee, and when payment of the predetermined fee is confirmed, the server Send the non-fungible token (NFT) to the user's electronic wallet,

If the user is willing to share the ownership with the operator, the server transmits a signal to the control terminal requesting the user to input the user's share ratio for the selfie video, and the server transmits a signal to the control terminal. A signal requesting the user to pay a fee corresponding to the stake ratio is transmitted to the terminal, and when payment of the fee is confirmed, the server sends the user's stake among a plurality of non-fungible tokens (NFT). A selfie provision system that transfers a proportional amount of non-fungible tokens (NFTs) to the user's electronic wallet.
According to clause 2,

The server transmits a signal to the control terminal to confirm whether the user owns an electronic wallet,

If the user does not own an electronic wallet, the control terminal guides the user to access the electronic wallet platform and create an electronic wallet,

If the user owns an electronic wallet, the control terminal guides the user to input the electronic wallet address.
According to clause 3,

A selfie providing system in which the control terminal is located closer to the user than the image acquisition unit.
According to clause 4,

Further comprising an illuminance sensor and a lighting unit,

The shooting stage is defined as a designated place where the user can shoot the selfie video,

The illuminance sensor and the lighting unit are disposed adjacent to the shooting stage and controlled by the control terminal, and the brightness of light emitted from the lighting unit is controlled based on the sensing data value of the illuminance sensor.
According to clause 5,

The video acquisition unit,

a first motor that moves the first camera and is controlled by the control terminal;

a second motor that moves the second camera and is controlled by the control terminal; and

A selfie providing system further comprising a third motor that moves the third camera and is controlled by the control terminal.
According to clause 6,

Further comprising at least one proximity sensor disposed on the bottom of the filming stage,

A selfie providing system in which the focus of the first camera, the second camera, and the third camera is controlled based on the sensing data of the proximity sensor and the previously stored distance between the proximity sensor and the image acquisition unit.
According to clause 7,

Further comprising a position detection plate,

The position detection plate corresponds to the proximity sensor and includes a metal component, and is detachable and attachable to the bottom of the filming stage, and the proximity sensor is an inductive proximity sensor.
According to clause 8,

A first distance from the center of the shooting stage to the first camera, a second distance from the center of the shooting stage to the second camera, and a third distance from the center of the shooting stage to the third camera are each other. Same selfie provision system.
According to clause 8,

A selfie provision system in which the control terminal is a personal communication device owned by the user.
An image including a first camera having a first focal length, a second camera having a second focal length longer than the first focal length, and a third camera having a third focal length longer than the second focal length. In a method of providing a selfie using an acquisition unit, a server that communicates with the image acquisition unit and is managed by an operator, and a control terminal that controls the image acquisition unit,

A selfie shooting step in which a user takes a selfie image using the image acquisition unit;

The server uploads the selfie video to a non-fungible token (NFT, Non Fungible Token) issuing platform, so that the non-fungible token (NFT, Non Fungible Token) issuing platform issues at least one non-fungible token (NFT, Non Fungible Token). Token issuance step of issuing;

A sharing intention confirmation step in which the server transmits a signal to the control terminal to confirm whether the user is willing to share ownership of the selfie image with the operator;

A fee charging step in which the server transmits a signal to the control terminal requesting the user to pay a predetermined fee; and

A method of providing a selfie including a token transfer step in which the server transfers the non-fungible token (NFT) to the user's electronic wallet.
According to claim 11,

If it is confirmed that the user does not intend to share the ownership with the operator in the sharing intent confirmation step,

In the fee charging step, the server transmits a signal to the control terminal requesting the user to pay a predetermined fee,

When payment of the predetermined fee is confirmed, in the token transfer step, the server transfers the non-fungible token (NFT) to the user's electronic wallet,

If it is confirmed in the sharing intention confirmation step that the user is willing to share the ownership with the operator, the server sends a signal to the control terminal requesting the user to input the user's share ratio for the selfie video. send,

In the fee charging step, the server transmits a signal to the control terminal requesting the user to pay a fee corresponding to the stake ratio,

When payment of the fee is confirmed, in the token transfer step, the server replaces a plurality of non-fungible tokens (NFTs, Non Fungible Tokens) in the user's electronic wallet by an amount proportional to the user's stake ratio. Send non-fungible tokens (NFTs),

In the token transfer step, the server transmits a signal to the user to confirm whether the user owns an electronic wallet,

If it is confirmed that the user does not own an electronic wallet, the control terminal guides the user to access the electronic wallet platform and create an electronic wallet,

If it is confirmed that the user owns an electronic wallet, the control terminal guides the user to enter the electronic wallet address,

A method of providing a selfie in which the control terminal is disposed closer to the user than the image acquisition unit.