CN116822557A - Bracket and seat library pairing method and system - Google Patents

Abstract

According to the support of this disclosed embodiment, place should support the stick and provide the terminal in seat storehouse to should support the stick, include: a main frame; a placement unit provided in the main frame and placing the terminal; and a support bar holder provided in the main frame and holding the support bar.

Description

Bracket and seat library pairing method and system

Cross Reference to Related Applications

The present application claims priority to korean patent No. 10-2022-0081737 filed on month 07, 2022 and korean patent No. 10-2022-0111932 filed on month 21, 2022, the entire disclosures of which are incorporated herein by reference.

Technical Field

The application relates to a bracket for placing a terminal providing seat base pairing service, and a seat base pairing method and system using short-range wireless communication. More particularly, the present application relates to a cradle, a seat pool pairing method, and a system for placing a terminal that provides a seat pool to a support bar equipped with a light emitting function by short-range wireless communication.

Background

Generally, a luminous rod is a rod-shaped object that obtains an illumination effect by coating a fluorescent substance or by providing a battery alone.

The luminous stick is used for night activities, mountain climbing, various activities, and auxiliary tools, especially for displaying various colors, and is used as an auxiliary tool for spectators in dim rooms of various performance sites such as concert sites, and is also used as a kind of performance effect for spell singers' names or specific shapes by utilizing the luminous sticks held by a plurality of spectators.

According to the prior art, to achieve the effect of performance using the luminous sticks, each user can download a library in advance for application to the application stick, which presets the lighting of the luminous sticks according to the logo colors of the teams or characters of the assisted team or the rhythm of the song.

However, when the user does not download the library in advance due to insufficient time or unfamiliar operation methods, the user cannot participate in the performance effect of the overall control, and the user needs to manually operate the assistance bar, which is very inconvenient.

In addition, if the user wants to download the library in advance, the user must go through a process of downloading the pairing application in advance, and the more shows to be watched, the more the pairing time is, the more complicated and inconvenient it is.

In addition, when each user downloads a plurality of libraries while watching various performances a plurality of times, the probability of error occurrence increases due to an excessive data capacity of the libraries stored in the bar to be backed up.

Disclosure of Invention

The present disclosure is directed to providing a cradle for placing a terminal providing a library pairing service, a seat library pairing method and system using short-range wireless communication, and a method and system for operating the same.

Another object of the present disclosure is to provide a pairing method and system for storing a seat library in a rescue bar by using short-range wireless communication before a performance, so as to integrate a plurality of rescue bars to realize the performance effect as a whole.

It is yet another object of the present disclosure to provide a seat pool pairing method and system.

According to the support of this disclosed embodiment, place should support the stick and provide the terminal in seat storehouse to should support the stick, include: a main frame; a placement unit provided in the main frame and placing the terminal; and a support bar holder provided in the main frame and holding the support bar.

At this time, one end of the placement portion is connected to the main frame, and one end of the placement portion connected to the main frame is configured to rotate with respect to the main frame.

In addition, the placement section includes: a rotating part connected to one side of the edge of the main frame; a main placement section connected to the rotation section; and a wing part including a first flap part and a second flap part each provided on both sides of the main placement part.

The placement unit rotates about the rotation unit as a reference axis so as to have a predetermined angle with respect to the main frame.

In addition, the first flap portion and the second flap portion extend on both sides of the main placement portion in a direction away from the main placement portion.

In addition, the stand according to the embodiment of the present disclosure further includes a support portion that supports the placement portion so as to maintain a state of having a predetermined angle with respect to the main frame after the placement portion is rotated.

In addition, the bracket according to the embodiment of the present disclosure further includes a marking part provided in the main frame and marking a predetermined device.

In addition, the assistance bar holder includes an insertion hole formed at the main frame for the assistance bar to be inserted.

In addition, the support rod fixing device further comprises at least two or more cylindrical layers which are arranged in the insertion hole and have different diameters; a second cylindrical layer having a second diameter is provided inside the first cylindrical layer having the first diameter, and a third cylindrical layer having a third diameter is provided inside the second cylindrical layer; the first diameter is greater than the second diameter and the second diameter is greater than the third diameter.

In addition, the outer ends of the first to third cylindrical layers are provided with a stepped structure.

Further, a recess portion for providing a receiving space for forming the placement portion is formed in the main frame, and a protruding portion having a structure protruding with a predetermined step is formed on a side adjacent to the placement portion in a partial region of the recess portion.

In addition, a seat pool pairing system according to an embodiment of the present disclosure, a seat pool pairing system that provides a seat pool to a assistance bar, comprising: a main frame; a support bar holder provided in the main frame and holding the support bar; a terminal providing a seat library for the assistance bar; and a placement unit provided in the main frame and placing the terminal.

In addition, the rod holder includes a rod pairing module for detecting whether the rod is approaching, if so, communicating with the terminal and the rod, and transmitting data from the terminal to the rod.

In addition, the seat base pairing system according to the embodiment of the present disclosure further includes a marking unit provided in the main frame and marking a predetermined device.

The terminal transmits a predetermined seat library to the placed assistance bar based on the user account information acquired by the marking unit.

In addition, a seat pool pairing method of performing seat pool pairing using short-range wireless communication for an application executed by at least one processor of a seat pool pairing system, comprising: detecting ticket booking information; extracting seat information including a position of a seat of an action scene from the detected ticket order information; determining a seat library that matches the extracted seat information; pairing the rescue bars to be saved in the determined seat library; and sending the seat library to the paired assistance bars; wherein the redundancy bar is placed in a redundancy bar holder including an insertion hole formed therein into which the redundancy bar is inserted.

In addition, the determining a seat library that matches the extracted seat information includes; a plurality of seat libraries for storing performance preparation data matched with each seat information; comparing pre-stored seat information of the plurality of seat libraries with the extracted seat information; detecting a seat pool of the plurality of seat pools that matches the extracted seat information.

In addition, the performance preparation data includes at least one lighting pattern, library data, and a scene.

In addition, the library data includes an identification code identifying each library and a light emission pattern setting value as a value of a factor for presetting the light emission pattern; the scenes include identification codes that identify the respective scenes, and library setting values that are values for presetting the running time of the library data.

In addition, in the plurality of seat libraries, the identification codes of the identification libraries and the identification codes of the identification scenes are the same; the light emission pattern setting value and the library setting value are defined as different values according to different seat information.

According to the seat base pairing method and system utilizing the short-range wireless communication, the plurality of the rescue bars are controlled through the pre-stored seat base, so that the plurality of the rescue bars can execute unified performance effects at the same time.

In addition, according to the seat pool pairing method and system using short-range wireless communication according to the embodiment of the present disclosure, by saving the seat pool for the corresponding performance, errors caused by the seat pool conflicts with other performances are reduced.

In addition, according to the seat base pairing method and system utilizing the short-range wireless communication, pairing of the assistance bar and the self-service terminal can be achieved through visual user experience, events and inconvenience required by seat base storage are reduced, and convenience of users is improved.

According to the bracket for placing the terminal for providing the seat library pairing service, the terminal and the bar to be applied can be safely placed during the process of providing the library pairing service, so that a user of the bar to be applied can effectively obtain the library pairing service.

Drawings

FIG. 1 is a conceptual diagram of a seat pool pairing system according to an embodiment of the disclosure;

FIG. 2 is an internal block diagram of a self-service terminal according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of information contained in performance preparation data according to an embodiment of the present disclosure;

FIGS. 4-6 are schematic diagrams of one example of the types of self-service terminals according to various embodiments of the present disclosure;

FIG. 7 is a schematic diagram illustrating an example of a placement state of a self-service terminal according to another embodiment of the present disclosure;

FIGS. 8-14 are schematic diagrams illustrating one example of components of a self-service terminal according to yet another embodiment of the present disclosure;

FIG. 15 is an internal block diagram of a stress bar according to an embodiment of the present disclosure;

fig. 16 is a schematic diagram illustrating an example of the shape of an account authentication apparatus according to an embodiment of the present disclosure;

FIG. 17 is a flow chart of a method of providing a seat pool according to an embodiment of the present disclosure;

FIG. 18 is a detailed flow chart of a method of a processor assembly providing a seat library to a response stick according to an embodiment of the present disclosure;

FIG. 19 is a schematic illustration of an example of a ticket image according to an embodiment of the disclosure;

FIG. 20 is a flowchart of a method for a user terminal to send a seat pool to a response bar according to an embodiment of the present disclosure;

Fig. 21 and 22 are schematic diagrams illustrating an example of an output screen of a pairing application of a user terminal according to an embodiment of the disclosure.

Detailed Description

While the present disclosure is susceptible to various modifications and alternative embodiments, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. The effects, and features and advance methods of the present disclosure will become apparent from the accompanying drawings and the embodiments to be described in detail. However, the present disclosure is not limited to the following examples, and may be embodied in various forms. In the following embodiments, the terms "first", "second", etc. are not limiting, but are used to distinguish one component from another. In addition, where there is no clear distinction in the context, singular references include plural. The terms "comprising" and "having" do not mean that there is a feature or component described in the specification, but that there is a possibility that one or more other features or components are added. In the drawings, the size of the constituent elements may be exaggerated or reduced for convenience of explanation. For example, for convenience of explanation, the sizes and thicknesses of the structures shown in the drawings are arbitrarily represented, and thus the present disclosure is not limited by the drawings.

The embodiments of the present disclosure will be described in detail with reference to the drawings, and the same reference numerals are given to the same corresponding components and overlapping descriptions will be omitted when the description is given with reference to the drawings.

Fig. 1 is a conceptual diagram of a seat pool pairing system using short range wireless communication according to an embodiment of the disclosure.

Referring to fig. 1, a seat pool pairing system (hereinafter referred to as a "pool pairing system") using short-range wireless communication according to an embodiment of the present disclosure may provide a service of pairing response sticks as a seat pool of data to be saved before a performance, so as to achieve a unified effect of various scenes through a plurality of response sticks at different positions of a performance venue or the like.

Library pairing services are services that are interconnected and linked for the purpose of transferring programs between devices that are created and compiled to perform specific functions and exist in machine language. In an embodiment, the library pairing means that the library is a seat library that allows a plurality of rescue bars to operate in accordance with a uniform lighting pattern in a performance yard for transferring the rescue bars from the self-service terminal, and the library is connected and linked by short-distance communication.

In an embodiment, the library pairing system providing the library pairing service may include a self-service terminal 100, a response bar 200, an account authentication apparatus 300, a user terminal 400, a show management server 500, and a Network (Network) 600.

The self-service terminal 100 may be configured to provide a seat library for the application bar 200 that matches the seat in which the application bar 200 is located. The self-service terminal 100 may be an unmanned information terminal installed at a playground or surrounding of the playground where the performance is performed.

The assistance bar 200 is a small assistance-carrying prop capable of emitting light in various forms in sports games, concerts, etc., and is operated according to a variety of light emitting modes of a seat base.

The account authentication device 300 is a device that includes user account information of the bar 200 in a platform for realizing the performance effect of the bar 200, and can perform a function of authenticating by remote communication with a ticket authentication device, a sales device of merchandise, or the like in the self-service terminal 100.

In this case, the user account information refers to information related to the personal identity of the user provided by consent to provide personal information when the user joins a service (e.g., weverse, etc.) of a predetermined platform to manage, and may include the name, date of birth, phone number, email, platform/service ID, etc. of the user.

The user terminal 400 is a smart phone terminal for the user of the assistance bar 200 and the account authentication device 300, and the user can individually control the assistance bar 200 held by the user, or confirm and manage the seat base pairing status of the assistance bar 200, the user account information linked with the account authentication device 300, the performance-related booking information, and the like.

The performance management server 500 is a computer system that performs the provision and execution of performance related information. For example, the performance management server 500 functions to manage ticket booking information matched to a user account, and provide a seat library or the like matched according to different seats to the response bar 200 through the self-service terminal 100.

In this case, the ticket booking information refers to a ticket that the user purchases to view the performance, using a predetermined ticket booking station (e.g.,etc.), the information provided for the personal identity of the user and the ticket purchased by the user may include at least one or more of the name of the ticket booking person, the date of birth, the ticket station ID, the mobile phone number, the name of the show, the time of the show, the place of the show, the reservation number, the number of bookings, and the seat information.

The seat information included in the ticket booking information may be information in which the number of the seat to be used by the user is written in information in which the user subscribes to tickets for a performance to be watched. For example, the seat information may be in the form of "layer 1 zone 3 row F seats" or the like.

The self-service terminal 100, the application bar 200, the account authentication device 300, the user terminal 400, and the performance management server 500 may be connected through the network 10.

Here, the network 10 according to the embodiment refers to a connection structure capable of exchanging information between nodes such as the self-service terminal 100, the assistance bar 200, the account authentication device 300, the user terminal 400, and the performance management server 500, and examples of the network include, but are not limited to, a 3GPP (3 rd Generation Partnership Project) network, a LTE (Long Term Evolution) network, a WIMAX (World Interoperability for Microwave Access) network, the Internet (Internet), LAN (Local Area Network), a Wireless LAN (Wireless Local Area Network), WAN (Wide Area Network), PAN (Personal Area Network), a Bluetooth (Bluetooth) network, a satellite broadcast network, an analog broadcast network, and a DMB (Digital Multimedia Broadcasting) network.

The self-service terminal 100, the assistance bar 200, the account authentication device 300, the user terminal 400, and the performance management server 500 that implement the library pairing system will be described in detail below with reference to the accompanying drawings.

Self-service terminal (KIOSK) 100

The self-service system 100 according to embodiments of the present disclosure may be a defined computing device that provides library pairing services.

In the disclosed embodiment, the provision of the library pairing service is illustrated as being implemented by the self-service terminal 100, but may also be implemented by a mobile-type computing device and/or a desktop computing device and auxiliary devices coupled thereto. In addition, according to various embodiments, the self-service terminal 100 may also include a Server (Server) computing device that provides the provision of a library-paired service environment.

FIG. 2 is an internal block diagram of a self-service terminal according to an embodiment of the present disclosure. In addition, referring to FIG. 2, from a functional standpoint, the kiosk 100 may include a communication processor 110, an account marking module 120, a bar pairing module 130, an I/O system 140, a memory 150, and a processor component 160. The communication processor 110 may include more than one device for communicating with external devices. The communication processor 110 may communicate over a wireless or wired network. Specifically, the communication processor 110 may communicate with a show management server 500 that maintains a content source for providing library pairing services, with various user input components such as a controller that receives user inputs.

In an embodiment, the communication processor 110 may transmit and receive various data related to the library pairing service with other terminals and/or external servers and the like.

The communication processor 110 may transmit and receive data to and from at least one of a base station, an external terminal, and an arbitrary server through a wireless connection on a mobile communication network constructed by a communication device capable of executing a technical standard or a communication scheme (for example, LTE (Long Term Evolution), LTE-a (Long Term Evolution-Advanced), 5G NR (New Radio), WIFI) or the like for mobile communication, and may also perform communication through a wired connection. Specifically, in an embodiment, the communication processor 110 may receive ticket booking information matching the user account and a seat library or the like for seats seated in the show from the show management server 500 by transmitting the user account information.

That is, since the self-service terminal 100 including the communication processor 110 is implemented on-line, the user account information and the seat library are provided only by the performance management server 500 when there is an invitation from the user, so that the risk of leakage of personal information is reduced, which is advantageous for protecting the personal information of the user.

The account marking module 120 may include a first near field communication processor for detecting a marked (tagged) device. Here, the marking means that the account authentication device 300 approaches the account marking module 120 within a predetermined distance.

Specifically, the account number marking module 120 detects whether a marked device (account number authentication device 300 in the embodiment) is approaching or not, and performs near field communication with the device to acquire information stored in the device when approaching is detected. For example, the account tagging module 120 may include a communication chip for near field communication through RFID (Radio Frequency Identification), NFC (Near Field Communication), MST (Magnetic Secure Transmission), NFMI (Near Field Magnetic Induction), bluetooth communication, or the like.

In the following, the account marking device 120 that performs near field communication based on NFC will be described as an example, but the present invention is not limited to the example described below, and various embodiments may be implemented in which communication (for example, RFID that transmits and receives RF signals) is performed with a predetermined device in a contact type and/or a contactless type.

In an embodiment, the account marking module 120 may be an NFC reader (e.g., NFC tag board) that performs NFC functionality.

In addition, the account tagging module 120 may transceive various data related to the library pairing service with an external device based on the NFC function.

The account number marking module 120 is a medium using a communication protocol defined in ISO/IEC 18092 (or ECMA-340, NFCIC-1) and ISO/IEC 21481 (or ECMA-352, NFCIC-2) which are NFC international commercial standards, and specifically, can transmit and receive data to and from an external device based on ISO/IEC 14443 (security Card), ISO/IEC 15693 (security Card), JIS: X6319 (FeliCa), MIFARE, and the like.

In an embodiment, if the account marking module 120 detects that the account authentication device 300 is located within a specified distance, the account marking module performs close-range communication with the account authentication device 300 to obtain user account information.

The bar pairing module 130 can include a second near field communication processor for detecting the marked device.

Specifically, the bar pairing module 130 detects the proximity of the marked, placed and installed device (in the embodiment, the bar 200), and communicates with the device to send and receive data when the proximity is detected. For example, the bar pairing module 130 may include a communication chip that performs near field communication (e.g., RFID (Radio Frequency Identification), NFC (Near Field Communication), MST (Magnetic Secure Transmission), NFMI (Near Field Magnetic Induction), or bluetooth communication) or the like.

In addition, the bar pairing module 130 may transmit and receive various data related to the library pairing service with an external device based on the near field communication.

In an embodiment, if the assistance bar pairing module 130 detects that the assistance bar 200 is located within a predetermined distance, it performs close-range communication with the assistance bar 200 to transmit and receive various data for receiving a seat pool.

The hardware aspects of the redundant stick pairing module 130 may include a prescribed support member to stably secure the redundant stick 200 within a prescribed distance.

For example, the predetermined support member may be realized in a bracket form in which the bar 200 is placed, a flat plate (pad) form in which the bar 200 is placed, a box form in which a space is provided inside for accommodating the bar 200, or the like.

The input/output system 140 may include a sensor system, an input system, and a display system.

The sensor system may include at least one of an image sensor, a position sensor, an audio sensor, a distance sensor, a proximity sensor, and a contact sensor.

Here, the image sensor 141 may capture images and/or movies of the physical space surrounding the kiosk 100.

In an embodiment, the image sensor 141 may capture an image (e.g., ticket image T1, etc.) related to the library pairing service.

The image sensor 141 may be provided in front of and/or behind the self-service terminal 100 to capture an image of a prescribed side, or may capture a paper ticket or the like by a camera provided outside the self-service terminal 100.

The image sensor 141 may include an image sensor device and an image processing module. Specifically, the image sensor 141 may process still images or videos acquired by an image sensor device (e.g., CMOS or CCD).

In addition, the image sensor 141 processes a still image or video acquired through the image sensor device using an image processing module (e.g., OCR), extracts required information, and transfers the extracted information to a processor.

The image sensor 141 may be a camera assembly including at least one or more cameras.

In addition, the image sensor 141 described above may be included in the self-service terminal 100 to operate according to various embodiments, and may be included in an external device (e.g., an external server, etc.) and operate through linkage based on the communication processor 110, etc.

The audio sensor may identify sounds in the vicinity of the kiosk 100. In particular, the audio sensor may include a microphone capable of detecting voice input of a user using the kiosk 100. In an embodiment, the audio sensor may obtain voice data input from the user as required by the library pairing service. In an embodiment, the kiosk 100 may include a speaker to output voice data based on the audio sensor input. The input system may detect input (e.g., gestures, voice commands, key operations, or other types of input) by a user associated with the library pairing service. Specifically, the input system may include prescribed buttons, touch sensors, and/or an image sensor 141 that receives user motion input, etc. Additionally, the input system may be connected to an external controller to receive user input. The display system functions to output various information related to the library pairing service in a graphic image, and detect a touch input of a user for library pairing.

As an example, the display system may be realistically based on a User Interface (UI), library pairing content, and/or content management system (CMS, content Management System data, etc.).

The display may include at least one of a liquid crystal display (liquid crystal display, LCD), a thin film transistor liquid crystal display (thin film transistor-liquid crystal display, TFT LCD), an organic light-emitting diode (OLED), a flexible display (flexible display), a three-dimensional display (3D display), and an electronic ink display (e-ink display).

The components may be disposed within the housing of the self-service terminal 100 and the user interface may include a touch sensor 145 on a display 143 that may receive user touch input.

Specifically, the display system may include a display 143 outputting an image and a touch sensor 145 detecting a touch input of a user.

Illustratively, the display 143 and the touch sensor 145 form a layered structure or an integral structure with each other, thereby implementing a touch screen. The touch screen may provide an output interface between the self-service terminal 100 and the user while functioning as a user input that provides an input interface between the self-service terminal 100 and the user.

Memory 150 may hold at least one or more of a variety of applications, data, and instructions for providing a library pairing service environment. In an embodiment, the memory 150 may hold an application containing instructions for controlling the self-service terminal 100. In addition, the memory 150 may include a program area and a data area.

Here, the program area according to an embodiment may be connected between an Operating System (OS) and a functional component that start up the self-service terminal 100, and the data area may store data generated by the use of the self-service terminal 100.

Additionally, the memory 150 may include at least one or more non-volatile computer-readable storage media and volatile computer-readable storage media. For example, the memory 150 may include various storage devices such as ROM, EPROM, flash disk, hard disk, etc., and may further include a network storage (web storage) on the internet (internet) that performs the storage function of the memory 150.

In an embodiment, the memory 150 may pre-store information required to perform the library pairing service.

Specifically, the memory 150 may pre-store user account information, ticket booking information, seat information, and show preparation data to perform information required for the library pairing service.

The performance preparation data is data of various lighting patterns, which are predefined before a performance, for lighting the rescue bars 200 on seats where the rescue bars 200 are located, for unifying performance effects. The performance preparation data is data that needs the rescue bars 200 to be pre-stored before the performance starts, and different performance preparation data can be stored according to the seat information because each rescue bar 200 is arranged at a different seat.

Additionally, in an embodiment, the show preparation data may include lighting patterns, libraries, and scenes.

Fig. 3 is a schematic diagram of information contained in performance preparation data according to an embodiment of the present disclosure.

Referring to fig. 3, in an embodiment, the show preparation data 1000 may include a plurality of library data 1010 through 1030. Specifically, fig. 3a is a schematic diagram of an example of a library included in the performance preparation data, and fig. 3b is a schematic diagram of an example of a library set value included in the performance preparation data.

The light emitting pattern refers to a light emitting form in which the bar 200 is operated according to factors including whether light is emitted (e.g., on/Off), color, and brightness. As a factor, the lighting pattern may further include setting a lighting effect in which the factor is changed within a prescribed time to generate a dynamic visual effect. For example, the lighting effect includes: 1) A blinking (Blink) effect in which whether to emit light or not is set to be different according to different times within a prescribed time, so as to flash out the rescue bar; 2) A Gradation (effect) in which colors are set to be different according to different times within a prescribed time so that the colors of light emission are gradually changed; 3) Fade In/Out (Fade In/Out) effect, brightness is set to be different at different times so that brightness gradually decreases or increases, and the like. The library refers to data of the lighting pattern of the preset application bar 200, and may include an identification number and a constituent factor setting value of the lighting pattern (hereinafter referred to as a "lighting pattern setting value"). For example, the color included in the light emission mode setting value may be set by 16-ary encoding representing RGB colors, and the luminance included in the light emission mode setting value may be set by a luminance value between 0 and 100 which is brighter as the luminance is higher. For example, the first library 1010 may refer to data set by an identification number 0001 for identifying the first library 1010, light ON, a first color, a first brightness, and a first light effect.

Referring to an example shown in FIG. 3a, the first library 1010 may be a binary array representing (0001/ON/255, 0/50/Blink) light emission mode settings. In addition, the third library 1030 may be a binary array representing the light emission pattern set values of (0003/ON/0,0,255/10/Grad). In addition, the second library 1020 may preset the light emission mode setting values corresponding to the color, brightness and light emission effect because of the OFF or not light emission. That is, when a control signal for executing the first library 1010 is transmitted to the bar 200 holding the plurality of libraries 1010 to 1030 at the performance site, the bar 200 is operated to emit light with the first color corresponding to the red of 255,0, the first brightness as the brightness of 50 stages, and the first light emitting effect as the blinker effect of blinking.

The scene refers to data in which an operation time of at least one library (hereinafter referred to as a "library set value") is set for a predetermined time to change the light emitting mode operation of the application bar 200 for a predetermined time, and may include a scene identification number for identifying each scene. The scene may correspond to a song, for example. I.e. the running time of a scene is the same as the playing time of a song, during which the bar 200 should be run in accordance with the library settings to change the lighting pattern. For example, the first scenario 1100 may be data defined as having an identification number 001, run in a first library for 5 seconds, then in a second library for 3 seconds, then in a third library for 2 seconds.

Referring to fig. 3b, in an embodiment, the show preparation data 1000 may include a plurality of scenes 1100 and 1200.

Specifically, referring to the example shown in FIG. 3b, the first scenario 1100 may include a library setpoint of (001, 0001-5sec/0002-3sec/0003-2 sec). Additionally, the second scenario 1200 may include a library setpoint of (002, 0005-8sec/0002-30sec/0003-14 sec).

That is, when a low-capacity control signal to be operated in the first scenario 1100 is transmitted to the rescue bars 200 storing the plurality of scenarios 1100 and 1200 at the performance site, the rescue bars 200 may be operated in the first light emission mode of the first library 1010 for 5 seconds, then in the second light emission mode of the second library 1020 for 3 seconds, and then in the third light emission mode of the third library 1030 for 2 seconds.

The library and scenario may be configured to illuminate in different modes, depending on the seat on which the bar 200 is to be deployed, with the same identification number but different illumination mode settings and library settings. Specifically, the first library 1010 is stored, and the first rescue bar arranged at the first seat and the second rescue bar arranged at the second seat may be stored with the same first library 1010, but the light emission pattern setting values set in the first library 1010 may be different. For example, the first pool may include a first seat-first pool and a second seat-first pool to an nth seat-first pool as a first pool for the first seat.

At this time, the first to nth seats of the first seats-the first library may be defined as each lighting pattern setting value so that the application bars arranged at the first to nth seats as a whole achieve a uniform performance effect in a specific form. Therefore, as long as the performance director runs the first library, the rescue bars of each seat read the first library stored corresponding to the seat and run according to the light emission mode setting value, so as to realize a uniform performance effect.

Similarly, a first rescue bar arranged at a first seat and a second rescue bar arranged at a second seat, which hold the same first scene 1100, but the library settings held in the first scene 1100 may be different.

That is, the performance manager can use the first library and the first scene having different setting values according to different seats to operate the application bars 200 arranged on the respective seats simultaneously but to emit light in different light emission modes, thereby realizing the performance effect that a specific shape or form can be seen when viewed from a position away from the audience.

In addition, to achieve different lighting patterns on each seat, performance preparation data may be matched to each seat, stored in the memory 150 in the same number as the number of seats. That is, each seat and performance preparation data may be implemented in the form of a matching table corresponding to each other, but is not limited thereto. According to various embodiments, seats operating in the same lighting mode may also be grouped, with lighting mode settings defined for each group to generate show preparation data.

Accordingly, the assistance bar 200 needs to pre-store performance preparation data corresponding to seats to be arranged at the time of performance, and the self-service terminal 100 can introduce the process to the user by providing a library pairing service. The related contents will be described in detail later.

Next, the performance preparation data 1000 corresponding to one seat on which the bar 200 is to be laid out will be described as a seat library.

In an embodiment, the self-service terminal 100 including the memory 150 holding a plurality of data as described above for performing the library pairing service may be implemented as an offline type. The off-line self-service terminal 100 saves the cost of constructing the communication function of the self-service terminal 100 because the user-related information is pre-stored, and can be installed in a place where the communication base is poor, thereby expanding the area where the self-service terminal can be used.

The processor component 160 can include at least one or more processors that can execute commands of an application stored in the memory 150 to execute various jobs that generate a library pairing service environment.

In an embodiment, the processor component 160 may control the overall operation of the component through applications of the memory 150 to provide library pairing services.

The processor component 160 may be a system on a chip (SOC) suitable for the self-service terminal 100, including a Central Processing Unit (CPU) and/or a Graphics Processor (GPU), and may execute an Operating System (OS) and/or an application program stored in the memory 150, and may control components mounted on the self-service terminal 100.

The processor unit 160 may communicate with each unit internally via a System Bus (Local Bus), and may include one or more predetermined Bus structures including a Local Bus (Local Bus).

In addition, the processor assembly 160 may include at least one of ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field programmable gate arrays), controllers, microcontrollers (micro-controllers), microprocessors (microprocessors), other electrical units for function execution.

In an embodiment, the processor component 160 may identify the account authentication device 300 and the rescue bar 200 using close range wireless communication based on the account marking module 120 and the rescue bar companion reading module 130.

Additionally, in an embodiment, the processor component 160 may obtain user account information contained in the identified account authentication device 300 based on the communication processor 110.

Additionally, in an embodiment, the processor component 160 may detect ticket booking information that matches the obtained user account information.

Additionally, in an embodiment, the processor component 160 may detect seat information included in the detected ticket order information.

Additionally, in an embodiment, the processor component 160 can determine a seat library based on the extracted seat information.

Additionally, in an embodiment, the processor component 160 may pair the application bars 200 that will send the determined seat pool.

Additionally, in an embodiment, the processor component 160 may send the determined seat library to the paired corresponding stick 200.

That is, in an embodiment, the processor component 160 performing the steps may process the pairing of the kiosk 100 and the user's bar 200, providing an overall process of seat libraries according to the user's seat.

In addition, according to various embodiments, the kiosk 100 may also perform at least a portion of the functions performed in the show management server 500, which will be described below.

The self-service terminal 100 including the plurality of configurations as described above may be implemented as a unit or as a separate type in terms of hardware.

Fig. 4-6 are schematic diagrams of one example of the types of self-service terminals according to various embodiments of the present disclosure.

Fig. 4 is a schematic diagram of an integrated type in which the account number marking module 120 and the bar pairing module 130 are installed in the housing of the self-service terminal 100, fig. 5 is a schematic diagram of a separate type in which the account number marking module 120 and the bar pairing module 130 are separately installed from the housing, and fig. 6 is a schematic diagram of a placement type including a predetermined structure in which the mobile device and the bar pairing module 200 can be placed.

Referring to fig. 4, in the case where the self-service terminal 100 is of one piece type, an account number marking module 120 and a bar pairing module 130 may be included within the housing of the self-service terminal 100 according to an embodiment.

At this time, the account marking module 120 and the bar pairing module 130 may be installed at a location convenient for the user to place the bar 200 or the account authentication device 300.

For example, as shown in fig. 4, the account number marking module 120 and the bar pairing module 130 can be installed on the lower side of the display 143.

In addition, in an embodiment, the account marking module 120 and the tablet form of the account authentication device 300 may be mounted outside the self-service terminal 100.

Additionally, in an embodiment, the bar pairing module 130 may be installed in a box form having a space therein to accommodate and place the bar 200.

In addition, in the embodiment, the assistance bar pairing module 130 may further include a predetermined fixing portion 131 installed in the internal space for fixing the assistance bar 200 accommodated therein, or a cover 132 for preventing the assistance bar 200 accommodated therein from being detached or shielding electric waves.

In addition, the account marking module 120 and the bar pairing module 130 may further include a first LED module 120-1 and a second LED module 130-1 to prompt the plurality of modules for a specified device (e.g., the bar 200 and the account authentication apparatus 300) to identify normal.

Specifically, in an embodiment, the self-service terminal 100 may activate the first LED module 120-1 if the account marking module 120 normally identifies the account authentication device 300.

Specifically, in an embodiment, the self-service terminal 100 may activate the second LED module 130-1 if the bar pairing module 130 normally identifies and places the bar 200.

In addition, the second LED module 130-1 may be activated when the data of the completion specification is normally transmitted to the response stick 200. At this time, the bar pairing module 130 should open the cover 132 to provide the user with the bar 200 while activating the second LED module 130-1.

The integrated self-service terminal 100 does not require an additional device other than the self-service terminal 100, thereby increasing convenience of installation.

In addition, referring to fig. 5, in the case that the self-service terminal 100 is a separate type, the display 143, the account marking module 120, and the bar pairing module 130 may be separately installed from the housing of the self-service terminal 100 according to another embodiment.

In this case, the housing H may include components of the self-service terminal 100 other than the account number marking module 120 and the bar pairing module 130.

In addition, in other embodiments, the kiosk 100 may also include prescribed structures (e.g., the support stand 101 and shelf 102) for separately installing the display 143, account marking module 120, and the bar pairing module 130.

Specifically, in other embodiments, the kiosk 100 may also incorporate a stand 101 having a speaker display 143 secured to a location spaced a predetermined height from the ground, and a shelf 102 for preventing the account number marking module 120 and the bar code counter module 130.

A display 143 may be provided at an upper end portion of the support table 101, and a housing H may be provided at one side of the support table 101.

In addition, as shown in fig. 5, the shelf 102 may be installed at one side of the support stand 101, or may be separated from the support stand 101 and installed in the form of a table or the like.

In addition, the shelf 102 may have a structure horizontal to the ground so that the account authentication device 300 and the rescue bar 200 installed at the account marking module 120 and the rescue bar pairing module 130 that are being paired maintain an installed state.

The separate type self-service terminal 100 can operate the display 143 in a state where the assistance bar 200 and the account authentication apparatus 300 are placed, increasing convenience of a user to operate the device.

The foregoing embodiments including the integrated and/or split self-service terminal 100 are described by taking as an example the determination of the type of the self-service terminal 100 based on whether it is split between the housing H and a prescribed component.

The self-service terminal 100 is described below in the meaning of including a terminal that provides a seat base to a prescribed assistance bar and a cradle that houses the terminal, regardless of the separation between the housing H and the prescribed components.

Fig. 6 is a schematic diagram illustrating an example of placing a rescue bar on a self-service terminal according to another embodiment of the present disclosure, fig. 7 is a schematic diagram illustrating an example of a state in which the self-service terminal is used, and fig. 8 to 14 are schematic diagrams illustrating respective components of the self-service terminal.

When the self-service terminal 100 is of a drop-in type according to yet another embodiment, it may be implemented in the form of a stand for a mobile computing device. In the following, for convenience of explanation, the mobile computing device is implemented as a tablet, but not limited thereto. In addition, the plate may be referred to as a terminal 180 hereinafter.

Referring to FIG. 6, in yet another embodiment, the self-service terminal 100 may include a terminal 180, a bar holder 177, and a bracket 170 with indicia 179.

At this time, the terminal 180 may be placed at one side of the bracket 170, and the placed terminal 180 may be detached. In addition, a support bar holder 177 having a structure in which the support bar 200 can be inserted may be provided at one side of the support 170. At this time, the bar holder 177 may include an insertion hole h1 and a first protrusion p1. The insertion hole h1 may be hollow having a shape corresponding to a lower end handle portion of the inserted assistance bar 200, and the protrusion p1 may include the insertion hole h1 and have a structure protruding at a predetermined step.

In addition, a predetermined cylindrical layer having a diameter adjusted according to the assistance rod 200 having a different diameter may be inserted into the insertion hole h1, which will be described in detail below.

The first protrusion p1 may protrude a predetermined length in the upward direction from the first surface of the bracket where the mark portion 179 is located. In this case, the predetermined length may be a length of the bar 200 to be stably fixed and inserted (for example, 1/3 or more of a handle length of the bar 200 to be supported).

Further, a marking portion 179, which is a predetermined area in which a predetermined device can be placed, may be provided on one side of the holder 170. For example, the marking portion 179 may be provided in a predetermined area different from the area provided with the bar holder 177.

Additionally, although not illustrated in fig. 6, a rescue bar pairing module 130 may be included on an interior side of the rescue bar holder 177, while an account number marking module 120 may be included on an interior side of the marking portion 179. Thus, in yet another embodiment, the self-service terminal 100 may communicate closely with the assisted stick 200 placed in the assisted stick holder 177 and/or the account authentication device 300 marked on the marking portion 179.

That is, as shown in fig. 7, the self-service terminal 100 can be installed in and near a performance place together with a fixed structure (e.g., a desk T) and thus, at least one or more users U1, U2, U3 can download a predetermined seat library to the support bar 200 by operating the terminal 180 pre-placed on the stand 170 while placing the support bars s1, s2, s3 held by the respective users in the support bar holder 177.

Referring to fig. 8, in yet another embodiment, the bracket 170 may include a main frame 171, a bracket 175, a bar holder 177 having cylindrical layers 1771, 1773, 1775, and/or indicia 179.

The main frame 171 may refer to an entire frame including at least one or more structures capable of placing the terminal and the bar 200. In addition, the main frame 171 may be implemented as a rectangular flat shape having a lateral length greater than a longitudinal length. In addition, a receiving portion 175 for receiving the terminal 180 may be provided at one side of the main frame 171.

Referring to fig. 9, the main frame 171 may include a second protruding portion 1711, a recessed portion 1712, a hinge portion 1713, and/or a marking portion 179. The hinge portion 1713 may be a device coupled to one end side of the placement portion 175 to connect the main frame 171 and the placement portion 175 and rotate the placement portion 175. For this, the hinge portion 1713 may include a prescribed hinge (hinge) for connecting the main frame 171 and the placement portion 175. Accordingly, in a state where the main frame 171 is fixed, the placement portion 175 can be rotated up and down by a predetermined angle with the hinge portion 1713 as a reference axis.

The second protruding portion 1711 may be a portion having a fixed step protruding structure at a side adjacent to the placing portion 175 rotated downward. At this time, the protruding direction of the second protruding portion 1711 may be the upper surface side of the main frame 171.

In addition, both ends 1711-1 and 1711-2 of the second protruding portion 1711 may be connected portions where the placement portion 175 rotates downward.

The second protruding portion 1711 is configured to be capable of being placed and deformed by an external impact when the placement portion 175 having a shape that is easily deformed is rotated downward.

The recess 1712 may be a portion that provides a receiving space for receiving the placement portion 175 rotated downward in the main frame 171. The second protruding portion 1711 may be included on a partial region of the recess 1712. Namely, the second protruding portion 1711 and the recessed portion 1712 may correspond to the shape of the placement portion 175 when the placement portion 1715 is rotated downward.

The main frame 171 may include a support portion 173 that is used in a state where the terminal 180 placed on the placement portion 175 is placed flat at a predetermined angle.

Referring to fig. 10, the supporting portion 173 is a predetermined supporting member, and is provided between the main frame 171 and the placement portion 175 to support the placement portion 175.

Specifically, when the placement unit 175 is rotated by a predetermined angle with respect to the main frame 171, the support unit 173 is provided between the main frame 171 and the placement unit 175, and supports the placement unit 175 so that the placement unit 175 maintains the state of being rotated by the predetermined angle with respect to the main frame 171.

For this reason, referring to fig. 11, the side of the placement portion 175, which is the side of the second protrusion 1711, may be automatically and/or manually lifted by a predetermined angle, and the support portion 173 may be automatically and/or manually fixed in a state of being perpendicular to the main frame 171.

That is, the main frame 171 and the placement unit 175 can maintain a state having a predetermined angle by the support unit 173, so that the user of the self-service terminal 100 does not need to adjust the angle of the terminal 180 every time, and the self-service terminal 100 can be used more easily.

Referring to fig. 12, the placement portion 175 may have a plate shape for placing the terminal 180.

In particular, the placement 175 may include a rotation portion 1751, a main placement portion 1753, and/or a wing portion 1755. The rotation portion 1751 is connected to an edge side (for example, a hinge portion 1713) of the main frame 171, and may be a portion serving as a reference axis when the placement portion 175 rotates. The rotation portion 1751 may include at least one hole to be coupled with a predetermined structure (for example, the hinge portion 1713) for rotation. The main placement portion 1753 may have a predetermined plate shape connected to the rotation portion 1751 and placed with the terminal 180. In addition, heat dissipation holes 1757 and/or support holes 1759 may be formed in the main placement portion 1753. The heat dissipation hole 1757 is a hole formed at a center side of the main placement portion 1753, and may be formed at a portion contacting the terminal 180 placed at the main placement portion 1753.

In addition, the heat radiating hole 1757 may be a hole formed to smoothly discharge heat generated by the use of the terminal 180. The support hole 1759 is a hole formed on one side of the main mounting portion 1753, and may be formed at a portion contacting the support portion 173 attached to the main frame 171.

For this purpose, the support 173 may have a structure in which a predetermined portion contacting the support hole 1759 protrudes outward, and may be coupled to the support hole 1759 to fix the support 173 in a coupled state with the support hole 1759.

In addition, the heat dissipating holes 1757 and/or the support holes 1759 are not limited to those shown, and may be formed in fewer or more numbers than those shown.

The wing parts 1755 are provided on both sides of the main frame 1753 and are formed to extend in one direction, and may include a first flap part 1752 and a second flap part 1754.

At this time, the one direction may be a direction away from the main placement portion 1753.

In addition, the wing portions 1755 may be connected to at least a portion of the terminal 180 placed on the main placing portion 1753, and may be formed of a thickness and a material that can withstand the weight of the terminal 180.

In addition, the first flap portion 1752 and the second flap portion 1754 included in the flap portion 1755 may be coupled to the second protruding portion 1711 included in the main frame 171 in an open area between the two flap portions when the placement portion 175 is rotated downward.

Fig. 13 is a schematic view showing an example of the cylindrical layer included in the bar holder 177.

Referring to fig. 13, the rod holder 177 may include at least two or more cylindrical layers 1771, 1773, 1775 having different diameters. Hereinafter, for convenience of explanation, three or more cylindrical layers are described as an example, but not limited thereto, and more than or less than three cylindrical layers may be used.

In addition, the at least two or more cylindrical layers 1771, 1773, 1775 may be provided in the insertion hole h1 of the bar holder 177. In addition, the support bar 200 may have a cylindrical structure in which one side is opened to form a predetermined space therein.

For example, two or more cylindrical layers 1771, 1773, 1775 may each have a hollow cylindrical shape. Specifically, each of the two or more cylindrical layers 1771, 1773, 1775 may have a columnar shape including an outer surface and an inner surface, and may have an insertion hole formed in the center thereof through which the rod 200 is inserted.

In this case, among the at least two or more cylindrical layers, a second cylindrical layer 1773 having a second diameter may be provided inside the first cylindrical layer 1771 having a first diameter, and a third cylindrical layer 1775 having a third diameter may be provided inside the second cylindrical layer 1773.

Here, the first diameter may be larger than the second diameter, and the second diameter may be larger than the third diameter. In addition, the first diameter may be a diameter that allows the second cylindrical layer 1773 to be placed inside, and the second diameter may be a diameter that allows the third cylindrical layer 1775 to be placed inside. That is, the first to third cylindrical layers 1771, 1773, 1775 may be overlapped to be provided at one side of the main support 170 as shown in fig. 13.

Referring to fig. 14, the outer ends of the first to third cylindrical layers 1771, 1773, 1775 may have a predetermined stepped structure.

Specifically, the outer end of the first cylindrical layer 1771 may form a prescribed stepped structure with the first protrusion p1 of the bar holder 177, the outer end of the second cylindrical layer 1773 may form a prescribed stepped structure with the outer end of the first cylindrical layer 1771, and the outer end of the third cylindrical layer 1775 may form a prescribed stepped structure with the outer end of the second cylindrical layer 1773.

The first to third cylindrical layers 1771, 1773, 1775 may overlap according to the stepped structure, and an administrator of the self-service terminal 100 may manually separate the layers as needed to manually adjust the diameter of the bar holder 177 according to the diameter of the placed bar 200.

That is, the above-mentioned predetermined cylindrical layers are manually separated according to need, so that there is no need for other constitution, there is no trouble occurrence concern, repair cost and management cost are saved, and economical efficiency is good.

In addition, in still another embodiment, the rod holder 177 may further have a structure for automatically adjusting the diameter of the rod holder 177 according to the diameter of the placed rod 200.

For automatic adjustment of the diameter, in yet another embodiment, the rod holder 177 may also include springs on each underside of the at least two or more cylindrical layers. At this time, the lower surface of the main frame 171 may extend to the lower surface of the bar holder 177 to block the lower end of the insertion hole h1, and a spring may be further included between the main frame 171 and the first to third cylindrical layers 1771, 1773, 1775. At this time, the springs may connect at least one or more cylindrical layers to the main frame 171, and the lower side of the cylindrical layer located at the outermost side may not include the springs for connection and fixation with the main frame 171.

Accordingly, when the assistance bar 200 having a predetermined diameter is placed on the assistance bar holder 177, the spring is contracted to rotate the at least one cylindrical layer having a smaller diameter than the assistance bar 200 having a predetermined diameter downward. For example, for a first assistance bar having a first diameter, the first assistance bar may be placed by the second and second springs provided at the lower sides of the second and third cylindrical layers 1773, 1775 being contracted and moved downward by the weight of the first assistance bar in the assistance bar holder 177. That is, the prescribed cylindrical layer automatically adjusts the diameter of the assisted bar holder 177 according to the diameter of the assisted bar 200 which is rotated downward by the spring, so that there is no need for individual measures for adjusting the diameter each time the assisted bar of a different diameter is placed, convenience is brought, there is no risk of loss due to complete separation, and it is also very effective in management.

The terminal 180 and the bar 200 may be placed on the cradle 170 included in the self-service terminal 100 according to still another embodiment of the present disclosure having the above-described configuration.

At this time, according to the self-service terminal 100 of still another embodiment, the prescribed user identification information may be acquired based on the account authentication device 300 marked by the marking part 1717 of the cradle 170, and the corresponding seat library may be transferred to the placed assistance bar 200.

Thus, using the at least one user of the self-service terminal 100 according to the further embodiment, even without downloading the seat pool in advance, the seat pool can be downloaded to the self-owned bar 200 by placing the bar 200 on the bar holder 177 and operating the terminal 180 prepared in advance by the administrator and/or staff (staff) on site before the performance starts.

That is, according to the self-service terminal 100 of the embodiment, even in places where people flow intensively, such as a concert place, etc., the library pairing service for downloading and/or updating a predetermined library to the corresponding stick by each user is provided without the help of other staff, so that the number of staff can be reduced, the efficiency of the activity is improved, and the cost required for recruiting the manpower can be saved.

Should aid the stick (Official Light Stick) 200

In the disclosed embodiment, the bar 200 may be a prescribed device that emits light according to a seat pool received from the kiosk 100 based on the pool pairing service.

FIG. 15 is an internal block diagram of a stress bar according to an embodiment of the present disclosure.

Referring to fig. 15, in an embodiment, the rescue bar 200 may include a near field communication part 210, an information receiving part 220, a light emitting part 230, a storage part 240, and a processor 250.

The near field communication part 210 may include one or more devices for communicating with external devices. The near field communication unit 210 may communicate via a wireless or wired network.

In an embodiment, the short-range communication unit 210 can transmit and receive various data related to the library pairing service to and from other terminals and/or an external server.

Specifically, the near field communication unit 210 can connect communication between the self-service terminal 100 and the assistance bar 200 by pairing with the assistance bar pairing module 130 of the self-service terminal 100 to receive seat information of the user and a seat library corresponding to the seat.

The near field communication part 210 may include a wireless communication module (e.g., at least one of NFC, RF transmitter/receiver, zigbee, bluetooth, and WIFI modules).

In an embodiment, the near field communication unit 210 may perform near field communication in a bluetooth manner to receive at least one or more of user account information, user seat information, and seat library data from the self-service terminal 100.

The information receiving part 220 may receive information transmitted in a broadcast (Broadcasting) form in the self-service terminal 100 and other devices.

Specifically, in an embodiment, the information receiving portion 220 may receive signals from unspecified recipients in the self-service terminal 100 and other devices.

The light emitting unit 230 emits light based on the signal received by the information receiving unit 220.

The light emitting part 230 may include more than one light source element, and the light source may be a light emitting diode (Light Emitting Diode, LED) for example. The light emitting unit 230 may include LEDs of different colors, for example, at least one of red LEDs, green LEDs, blue LEDs, and white LEDs.

A wide range of colors can be obtained by mixing the light emitted by the LEDs individually, which depends on the ratio of the intensities of the light emitted from the LEDs, which may be proportional to the driving current of the LEDs.

The light source of the light emitting unit 230 is exemplified as an LED, but the type of light source is not limited to an LED. According to other embodiments, organic light emitting diodes (Organic Light Emitting Diode, OLED) may also be used as light sources.

The storage 240 may store at least one or more of various applications, data, and instructions for providing a library pairing service environment.

In addition, the storage 240 may store data received or generated from other components of the library pairing system. The storage unit 240 may be various storage devices such as a ROM, EPROM, flash disk, hard disk, etc., and may include a memory (memory), a cache (cache), a buffer (buffer), etc.

In an embodiment, the storage part 240 may pre-store information required to implement the light emitting function of the bar 200.

For example, the storage part 240 may pre-store the light emission pattern data.

The light emission pattern data is data corresponding to values of the respective light emission pattern set values defined in the embodiments for expressing all colors and brightnesses which can be achieved by the application bar. For example, the light emitting pattern data may include a plurality of data having values of (0, 0), (0, 1), (0, 2) … (n, n, n) in terms of color. In addition, a plurality of data having values of 0,1,2, … n may be included in terms of brightness.

That is, the storage unit 240 may pre-store the light emission pattern data, and thus, the user may manually set whether the bar 200 should emit light, color, brightness, and light emission effect, differently from whether the seat base is stored.

In addition, in an embodiment, the storage section 240 may hold information required to execute the library pairing service.

For example, the storage 240 may store a seat library. At this time, the seat base can be received by other devices and stored in the storage unit 240.

The processor 250 may control the overall operation of the power supply control and the like of the bar 200 and may function as a data processing function for controlling the flow of signals between the internal components of the bar 200 and processing data. The processor 250 may include at least one processor.

The processor 250 may communicate with each component internally via a System Bus (Local Bus), and may include one or more predetermined Bus structures including a Local Bus (Local Bus).

In addition, the processor 250 may include at least one of ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field programmable gate arrays), controllers, microcontrollers (micro-controllers), microprocessors (microprocessors), other electrical units for performing functions.

In an embodiment, the processor 250 controls the light emission pattern of the light output from the light emitting part 230 by controlling the driving current of each LED of the light emitting part 230.

Thus, in an embodiment, the processor 250 may control the rescue bar 200 including a plurality of LEDs to form a prescribed sentence or image, video, etc.

The near field communication unit 210 and the information receiving unit 220 described above may have a functional configuration that is separately illustrated to distinguish at least a part of the functions of the processor 250 from the general functions of the processor 250.

The application bar 200 having the above-described configuration is operated by the control of the processor 250 based on at least one or more data stored in the storage unit 240, and a plurality of users are gathered at a performance site or the like to arrange a plurality of the application bars 200, whereby a predetermined sentence, image, video, or the like is formed by the application bar 200, thereby realizing a performance effect.

-account authentication device (Account Authentication Device) 300

In an embodiment, the account authentication apparatus 300 may include a near field communication chip 310, a battery 320, a charging part 330, a storage module 340, and a control module 350 to implement a function of authenticating an account of a user to utilize the bar 200. The near field communication chip 310 may be an NFC card (NFC card) and may include all forms of devices that can be read using an NFC reader (NFC card reader). For example, an NFC card is a device including an NFC chip and a coil (antenna), and is in the form of various types such as a card type, a tag (tag) line, a sticker type, and the like. In an embodiment, the near field communication chip 310 may communicate data with the self-service terminal 100 based on the account number marking module 120 of the self-service terminal 100.

The battery 320 may obtain external and/or internal power under the control of the control module 350 to supply power required for operation to the song components of the account authentication apparatus 300. The battery 320 may also include a DC/DC converter that may convert the received power to a voltage level usable by the carrier of the account authentication device 300. In addition, the battery 320 may include more than one battery cell. The type of each battery cell is not particularly limited as long as the battery cell can be repeatedly charged and discharged, for example, a lithium ion battery cell.

The charging section 330 may include wired and wireless charging modules for providing wired and wireless processes of power required for the operation of the account authentication device 300.

The storage module 340 may hold at least one or more of various applications, data, and instructions for providing a library pairing service environment.

In addition, the storage module 340 may store data received or generated from other components of the library pairing system. The storage module 340 may be various storage devices such as ROM, EPROM, flash disk, hard disk, etc., and may include a memory (memory), a cache (cache), a buffer (buffer), a web page storage (web page), etc.

In an embodiment, the storage module 340 may store information required to perform the library pairing service. For example, the storage module 340 may store at least one of a user-inherent NFC ID and user account information.

At this time, the user-specific NFC ID is a letter and a number including a predetermined serial number assigned to each account authentication device 300.

In one embodiment, the storage module 340 may receive the seat library from other components of the library pairing system for saving.

The control module 350 may realize a function of transmitting at least one or more data stored in the storage module 340 of the account authentication apparatus 300 through the entire aforementioned constitution.

Specifically, the control module 350 may send the user account information stored in the storage module 340 to the self-service terminal 100.

That is, in an embodiment, the account authentication device 300 functions to transmit the user-inherent NFC ID and user account information to be utilized with the bar 200 to authenticate each user.

In addition, in the embodiment, the account authentication device 300 does not limit the number that one user can hold, considering the case where there are a plurality of characters that the user should rescue.

In addition, the account number authentication device 300 may be implemented in various embodiments in combination with other components to facilitate portability for the user.

Fig. 16 is a schematic diagram illustrating an example of the shape of an account authentication apparatus according to an embodiment of the present disclosure.

Referring to an example of fig. 16, the account authentication apparatus 300 may be a chip type as in (a). The account authentication device 300 of the chip type or the like may be in a flat form above and below.

In addition, the account authentication device 300 may also be implemented as a wearable that is worn on the body of the user in conjunction with other components.

Specifically, the account authentication device 300 may be combined with a first strap 301 that may be hung around the neck as in (b) and a second strap 302 that may be worn around the wrist as in (c).

The various account authentication device 300 shapes as described above are easy for a user to carry while maintaining the account authentication device 300 in a prescribed position for a prescribed time for pairing or labeling, thereby improving user convenience in use of the account authentication device 300.

-User Device (User Device) 400

The user terminal 400 according to an embodiment of the present disclosure may be a prescribed computing device installed with an application that performs a library pairing service.

Specifically, in terms of hardware, the user terminal 400 may include a mobile type computing device and a desktop type computing device, etc., in which a counterpart application is installed.

For example, mobile computing devices may include smart phones (smart phones), cell phones, digital broadcast terminals, PDA (personal digital assistants), PMP (portable multimedia player), tablet PCs (tablet PCs), and the like.

In addition, the desktop computing device may include a stationary desktop computer, a laptop (laptop) computer, an ultra book (ultrabook) or the like, which is installed with an application, a device which is installed with a program for realizing a library pairing service based on wired/wireless communication, or the like.

In the embodiments of the present disclosure, for convenience of explanation, the user terminal 400 is illustrated as an example of a case where it is implemented as a smart phone (smart phone) of a mobile type computing device.

Functionally, the user terminal 400 may include a memory 410, a processor 420, a communication module 430, and an input-output system 440.

Specifically, the memory stores a rod management application 411, and the rod management application 411 can store at least one or more of various applications, data, and instructions for providing a library pairing service environment.

I.e., memory 410 may hold commands and data that may be used to generate a library pairing service environment.

Processor 420 may include at least one or more processors that may execute commands of the application 411 saved in memory to perform various jobs that generate a library pairing service environment.

In an embodiment, the processor 420 may control the overall operation of the components through the memory's application 411 for bar management to provide library pairing services.

The communication module 430 may include more than one device for communicating with external devices. The communication module may communicate over a wireless network.

Specifically, the communication module 430 may communicate with a terminal (in an embodiment, the self-service terminal 100, the response bar 200, and the account authentication device 300 and) that stores a content source for realizing a library pairing service environment, and an external server (in an embodiment, the ticket sales server and the performance management server 500), and may communicate with various user input components such as a controller that receives user input.

The input/output system 440 may include a sensor system, an input system and a display system, and functions of the input/output system described above in the self-service terminal 100 are the same, so that they will not be described in detail.

The components may be included within the housing of the user terminal 400.

In an embodiment, the user terminal 400 may communicate with a prescribed platform and service server.

In addition, in an embodiment, the user terminal 400 may acquire user account information including a plurality of information related to the personal identity of the user (e.g., name, date of birth, service ID, phone number, etc.) from a prescribed platform and service server.

At this time, in case that the user has not joined the prescribed platform and service, in an embodiment, the user terminal 400 may further provide a prescribed member joining process for generating user account information to acquire the user account information.

In addition, the user terminal 400 may acquire the user-inherent NFC ID of the account authentication device 300 marked in the user terminal 100.

At this time, in the case where the account authentication device 300 is not recognized and cannot be marked, in the embodiment, the user terminal 400 causes the user to directly input the user-unique NFC ID based on a prescribed input process to register to acquire the user-unique NFC ID.

In addition, in the case where there are a plurality of acquired user-inherent NFC IDs, the user terminal 400 registers a plurality of account authentication devices 300 on the bar management application 411 in a corresponding number.

In addition, the user terminal 400 may activate only the account authentication device 300 to be used by the user among the registered at least one or more account authentication devices 300.

The user terminal 400 may select a predetermined mode for operating the light emission mode of the bar 200.

For example, the user terminal 400 may set modes such as a performance mode and a self-service mode. At this time, the performance modes may include an offline performance mode and a contactless (Un-tact) performance mode.

If the offline performance mode is selected, the user terminal 400 provides a process of selecting a performance in which the seat pool is stored, or a process of explaining the location of the self-service terminal 100 that will provide the seat pool, by confirming the storage status of the seat pool.

If a contactless (Un-tact) presentation mode is selected, the user terminal 400 may provide a process of guiding the download of specified presentation preparation data.

If the autonomous mode is selected, the user terminal 400 may provide a process of manually setting the light emitting mode data pre-stored in the bar 200.

As described above, the user can set a predetermined mode in the user terminal 400, mark the account authentication device 300, and pair it at the arena or home, and can perform an operation of controlling the color of the atmosphere lamp or the like even when the user does not watch the show.

In addition, the user terminal 400 may provide the location of the self-service terminal 100 in the venue and the time of employment of a booth (booth) for selling goods (goods) based on the bar management application 411, or output pairing related information such as an autonomous pairing guide image.

-performance management server (Performance Management Server) 500

In addition, the performance management server 500 according to an embodiment of the present disclosure may perform a series of processes for providing a library pairing service.

Specifically, in an embodiment, the show management server 500 may exchange data with the external device that is required to drive the library pairing providing process on the external device such as the self-service terminal 100 to provide the library pairing service. More specifically, in an embodiment, the performance management server 500 may provide an environment for running a plurality of applications installed in a plurality of devices that perform a library pairing service in an external device.

To this end, the show management server 500 may include an application program, data, instructions, etc. for running an application, and transceive data based thereon with the external device.

Additionally, in embodiments, the show management server 500 may communicate with an external server (e.g., ticket sales server) to obtain at least one or more ticket booking information.

At this time, the ticket booking information may include the name, date of birth, ticket station ID, cell phone number, show name, show time, show place, reservation number, ticket booking number, seat information, etc. of the ticket booking person.

In addition, in an embodiment, the performance management server 500 may provide ticket booking information matching the user account information among the acquired at least one ticket booking information to an external device (in an embodiment, the self-service terminal 100).

At this time, in an embodiment, the performance management server 500 may determine whether the ticket booking information and the user account information match or not based on the mobile phone number, which is information included in common with each other. This is exemplary and various embodiments may be implemented to determine whether there is a match using personal information of other users than a cell phone number.

In addition, in an embodiment, the performance management server 500 may extract seat information in the matched ticket order information. At this time, in an embodiment in which the seat information is reference information for distinguishing the performance preparation data 1000 by different seats, the performance management server 500 may generate a plurality of seat libraries by matching the seat information and the performance preparation data 1000.

Additionally, in an embodiment, the seat information may include at least one of a seat number and a pixel number. In the embodiment, when the seat information is presented to the user, for example, in the form of "3-layer 12 area a row 1" in the seat number actually used at the performance venue, but in the device for realizing the light emitting mode, for convenience of realizing the effect, the seat information is presented in the form of the pixel number based on the seating arrangement diagram. That is, the presentation preparation data prepared by the director's device or the like with the pixel number may be converted into the seat number when the presentation management server 500 generates the seat library, and for this purpose, each pixel number and seat number may be associated in advance.

In addition, in the embodiment, the performance management server 500 prestores a plurality of seat databases generated separately for different seat information in the database 530 and manages them.

In addition, in the embodiment, the performance management server 500 may provide the seat library generated corresponding to the extracted seat information to an external device (the application bar 200, the account thermal evidence apparatus 300, and the like in the embodiment).

Additionally, in embodiments, the show management server 500 may save and manage various applications, instructions, and/or data, etc. for implementing library pairing services.

In addition, referring back to FIG. 1, in an embodiment, the show management server 500 may be implemented as a prescribed computing device that includes at least one or more Processor modules (Processor modules) 510 for data processing, at least one or more communication modules (Communication Module) 520 for data exchange with external devices, at least one or more Memory modules (Memory modules) 530 for holding various applications, data, and/or instructions for providing library pairing services.

Here, the database 530 may store at least one or more of an Operating System (OS), various applications, data, and instructions for providing a library pairing service.

In addition, the database 530 may include a program area and a data area.

Here, the program area according to the embodiment may be connected between an Operating System (OS) and a functional component of the boot server, and the data area may store data generated by the use of the server.

In an embodiment, the database 530 may be a variety of storage devices such as ROM, RAM, EPROM, a flash disk, a hard disk, and the like, and may further include a network storage (web storage) that performs a storage function of the database 530 on the internet (internet).

The database 530 may be a storage medium in the form of a removable server.

In addition, the processor module 510 may control the overall operation of the foregoing units (units) to implement a library pairing service.

The processor module 510 may be a system on a chip (SOC) suitable for a server including a Central Processing Unit (CPU) and/or a Graphics Processor (GPU), etc., and may execute an Operating System (OS) and/or an application program stored in the database 530 to control each component mounted on the server.

The processor module 510 may communicate with each component internally via a System Bus (Local Bus), and may include one or more predetermined Bus structures including a Local Bus (Local Bus).

In addition, the processor module 510 may be implemented with at least one of ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field programmable gate arrays), controllers, microcontrollers (micro-controllers), microprocessors (microprocessors), other electrical units for function execution.

In the above description, the functional actions are performed by the performance management server 500 according to the embodiment of the present disclosure, but according to different embodiments, at least a part of the functional actions performed by the performance management server 500 may also be performed in an external device (for example, the self-service terminal 100), and at least a part of the functional actions performed in the external device may also be performed in the performance management server 500.

Method of providing a seat store to the assistance bar 200

Next, a method for providing a seat library to the response wand 200 by at least one or more processors of the self-service terminal 100 according to an embodiment of the present disclosure will be described in detail with reference to fig. 17 to 19.

In embodiments of the present disclosure, at least one or more processors of the kiosk 100 may be caused to execute or run in the background at least one or more applications stored in at least one or more memories 150.

The method of executing the instructions of the application by the at least one or more processors to provide the library pairing service as described above is shortened to be performed by the processor component 160.

Fig. 17 is a flowchart of a method of providing a seat library according to an embodiment of the present disclosure.

Referring to fig. 17, in an embodiment, the processor component 160 of the self-service terminal 100 may provide a seat library to at least one or more of the response bar 200 and the account authentication device 300.

In an embodiment, the assistance bar 200 may directly obtain the seat pool from the kiosk 100. In other embodiments, the seat library may also be obtained indirectly from the account authentication device 300 that obtained the seat library from the self-service terminal 100.

In the following embodiments, a method of controlling the assisted stick pairing module 130 by the processor assembly 160 to directly provide a seat library to the assisted stick 200 is described for convenience of explanation.

FIG. 18 is a detailed flow chart of a method of a processor assembly providing a seat library to a rescue bar, according to an embodiment of the present disclosure.

Referring to fig. 18, in an embodiment, the self-service terminal 100 may obtain user account information through the account marking module 120 (S101).

In an embodiment, the processor component 160 may receive user account information obtained by the account marking module 120 detecting and identifying the user's account authentication device 300.

Specifically, the processor component 160 may communicate closely with the user's account authentication device 300 tagged to the account tagging module 120 of the self-service terminal 100 to obtain user account information pre-stored with the tagged account authentication device 300.

To this end, the user may bring the account authentication device 300 corresponding to the show to be viewed in proximity to the account tagging module 120 of the self-service terminal 100.

At this time, in an embodiment, to perform normal close range communication, the processor component 160 may control the display to output guidance information of the identification position of the introduction account authentication device 300, and the like.

Additionally, the account tagging module 120 may identify the account authentication device 300 proximate to the account tagging module 120 based on the NFC functionality.

Accordingly, the account tagging module 120 may receive user account information from the identified account authentication device 300.

Additionally, in other embodiments, the kiosk 100 terminal may obtain user account information by sensing (sending) tickets held by the user.

Specifically, in other embodiments, the processor component 160 may sense tickets held by the user based on the image sensor 141 and perform optical character recognition (OCR, optical Character Recognition) on the sensed tickets to obtain user account information.

Optical Character Recognition (OCR) refers to the acquisition of images of human written or machine printed text using an image scanner and conversion to machine readable characters.

In other embodiments, the processor component 160 may capture tickets held by the user using an image sensor 141 included with the kiosk 100.

Next, in other embodiments, the processor component 160 may acquire the ticket image T1 as an image of the ticket held by the user.

Fig. 19 is a schematic diagram showing an example of a ticket image T1 according to an embodiment of the present disclosure.

Referring to fig. 19, in other embodiments, the processor component 160 may detect at least one or more object regions 601-603 within the acquired ticket image T1.

In other embodiments, the object areas 601 to 603 refer to areas containing prescribed text (text). In other embodiments of the present disclosure, description will be made of a first object area 601 including time and place information, a second object area 602 including user account information, and a third object area 603 including seat information.

Additionally, in other embodiments, the processor component 160 may set a target image in the detected object regions 601-603. At this time, the target object refers to an image that becomes an object of Optical Character Recognition (OCR). Specifically, in other embodiments, because the information to be acquired is user account information, the processor component 160 sets the second object region 602 containing user account information as the target image based on the position output on the ticket image T1. Additionally, in other embodiments, the processor component 160 may extract text contained in the set ticket image.

Taking fig. 19 as an example, the processor component 160 may extract the "reservation number: 012345"," ticket booking person: hong Jitong (ID: hong 00) "and" telephone number: 010-1234-5678'.

That is, in other embodiments, the processor component 160 may obtain user account information including the extracted plurality of text by extracting text included in the set target image.

At this time, in other embodiments, the processor component 160 may re-extract the specified information included in the user account information using a specified text extraction function (FIND, LEFT, MID, RIGHT, etc.) that finds a text required for a particular text extraction in all the extracted text.

Referring again to fig. 19, for example, in other embodiments, in the event that it is desired to extract a user's cell phone number contained in the user account information, the processor component 160 may obtain a cell phone number of the user of "010-1234-5678" using a specified text extraction function (602-1).

That is, in other embodiments, the processor component 160 may extract text from the ticket image T1 for the optical character recognition process of the acquired target image T1 to acquire user account information.

In addition, in other embodiments, the processor component 160 may perform the next step by performing Optical Character Recognition (OCR) on the acquired ticket image T1, and simultaneously acquiring the user account information and ticket booking information, at this time, step S103, which will be described later, may be omitted.

In yet other embodiments, the processor component 160 may also obtain user account information based on manual input by the user.

To this end, in yet other embodiments, the processor component 160 may perform a search process that searches for the same information as the user entered service ID and cell phone number.

In an embodiment referring to fig. 18, the processor component 160 may detect ticket booking information matching the acquired user account information (S103).

In an embodiment, the processor component 160 of the self-service terminal 100 implemented as an online may communicate with an external server (e.g., ticket sales server) based on the performance management server 500 to detect ticket booking information matching the acquired user account information. At this time, the matching ticket booking information may be plural according to the number of seats ordered by the user using the same account number, and may also include ticket booking information matching for different shows.

For this purpose, the processor unit 160 may detect that at least one of the ticket booking information stored in the database of the external server matches the user account device in association with the external server (for example, ticket sales server), and the ticket booking information corresponds to a performance performed in a predetermined time at the venue in which the self-service terminal 100 is installed.

That is, in the embodiment, the processor unit 160 of the self-service terminal 100 implemented as an online type may detect only ticket booking information matched with user account information through linkage with other servers, thereby reducing the capacity of data stored in the memory 150 while protecting personal information of the user.

In other embodiments, the processor component 160 implemented as an offline self-service terminal 100 may detect user account information acquired based on the memory 150 and ticket booking information corresponding to a performance made within a specified time at the venue in which the self-service terminal 100 is installed.

Additionally, in other embodiments, the processor component 160 may detect ticket booking information consistent with user account information among a plurality of ticket booking information pre-stored in the memory 150.

For example, the processor component 160 may perform a search process to detect ticket booking information consistent with user account information in a list comprising a plurality of ticket booking information.

That is, in other embodiments, the processor component 160 implemented as the offline self-service terminal 100 may reduce the time and cost required for server connection by detecting only ticket booking information consistent with user account information from among pre-stored ticket booking information.

Next, in an embodiment, the processor component 160 may detect seat information included in the detected ticket order information (S105).

At this time, the extracted seat information may be plural according to the number of tickets ordered by the user using the same account number.

In an embodiment, where the user orders multiple seats for the same performance using the same ticketing site ID, the processor component 160 can output the detected multiple order information on the touch screen. For example, the processor component 160 may provide a ticket listing containing the detected plurality of ticket order information via a display. At this time, in an embodiment, the processor component 160 may output the presentation time including the presentation date and time, the ticket order number, the seat information, etc. at the touch screen so that the user selects one of the plurality of ticket order information.

Next, the user may touch one of the ticket booking information in the ticket listing output on the touch screen, and in other embodiments, the processor component 160 may receive user touch input based on the user interface to select the corresponding ticket booking information.

Additionally, in other embodiments, the processor component 160 may determine a seat pool to be transferred to the rod 200 based on the seat information contained in the selected booking information.

Next, in an embodiment, the processor component 160 may determine a seat library from the extracted seat information (S107). Specifically, in an embodiment, the processor component 160 may determine a seat library of seats based on the booking information. At this time, the plurality of seat databases are each matched with the seat information and pre-stored in the memory 150 or the database 530.

In an embodiment, the processor component 160 may compare the seat information of the ticket order information among the seat information of the plurality of seat libraries pre-stored in the memory 150 or database 530 through the show management server 500.

Additionally, in an embodiment, the processor component 160 detects one of the plurality of seat libraries whose seat information is consistent with the extracted seat information and determines it as the seat library that is the subject of the next step transmission.

Additionally, in an embodiment, the processor component 160 may output the seat information (e.g., seat number) of the determined seat library and the should bar 200 pairing related guidance information to the display of the kiosk 100 to inform the user of the selected seat and perform normal pairing.

Next, in an embodiment, the processor component 160 may pair (pairing) the application bar 200 that will send the determined seat pool (S109).

Specifically, in an embodiment, the processor component 160 may perform pairing for close range communication based on the assistance bar pairing module 130 of the self-service terminal 100 and the close range communication portion 210 of the assistance bar 200 to send the determined seat pool to the assistance bar 200.

To this end, the user may contact and approach the assisted bar pairing module 130 of the assisted bar 200 corresponding to the show and seat to be viewed to the assisted terminal 100.

At this time, in an embodiment, for normal pairing, the processor component 160 may output guidance information on the touch screen that describes the placement position and duration of the bar 200, etc.

Thus, in an embodiment, the processor component 160 may link the assisted stick 200 in contact with and in proximity to the assisted stick pairing module 130 with the self-service terminal 100 via bluetooth communication.

Next, in an embodiment, the processor component 160 may send the determined seat library to the paired triage bar 200 (S111).

At this time, in the embodiment, since the self-service terminal 100 and the assistance bar 200 transmit/receive the seat pool based on the close range communication, a prompt is output on the touch screen, and the assistance bar 200 needs to maintain the guidance information of the contact and approach state during the period in which the determined seat pool is transmitted to the paired assistance bar 200.

Additionally, after the transmission is completed, in an embodiment, the processor component 160 may notify the user of the end of the seat pool transmission by outputting a prescribed alert tone based on the audio sensor, outputting a prescribed text based on the display 143, or operating the first and second LED modules 120-1 and 130-1, or automatically opening the cover 132 of the kiosk, or the like.

That is, the processor assembly 160 according to the embodiment can acquire the seat information even though the user does not directly input the seat number, and only transmits the seat pool of the corresponding user's seat to the paired corresponding stick 200, thereby reducing errors caused by collision with the seat pool of other shows.

Method for providing device management service by user terminal 400

Next, a method of providing a library management service by the application 411 of the user terminal 400, which is executed by at least one or more processors of the user terminal 400 according to an embodiment of the present disclosure, will be described in detail with reference to fig. 20 to 22.

At this time, the application of the application management 411 for managing and controlling at least one service (hereinafter referred to as "device management service") of the device (in the embodiment, the application bar 200 and the account authentication device 300) carried by the user according to the embodiment of the present disclosure may be different from the application included in the self-service 100, the application bar 200 and the account authentication device 300 as described above, and the control ranges thereof are different.

In the disclosed embodiment, at least one or more processors of the user terminal 400 execute or background run at least one or more application bar management applications 411 stored in at least one or more memories.

Next, a method of executing the instructions of the application 411 to provide the device management service as described above is shortened to be described as being executed by the application 411.

Fig. 20 is a flowchart of a method for transmitting a seat library to a assistance bar by a user terminal according to an embodiment of the present disclosure, and fig. 21 and 22 are schematic diagrams illustrating an example of an output screen of the assistance bar management application of the user terminal according to an embodiment of the present disclosure.

In an embodiment, the bar management application 411 may register the account authentication device 300 on the user terminal 400 (S301).

Specifically, in an embodiment, the bar to be applied management application 411 may register the account authentication device 300 on the user terminal 400 based on the near field communication.

To this end, the user may contact and approach the account authentication device 300 and the user terminal 400.

In addition, in the embodiment, in a case where the account authentication apparatuses 300 held by the user are plural, the bar management application 411 may register plural account authentication apparatuses 300 on the user terminal 400.

At this time, the user account information included in the plurality of account authentication apparatuses 300 may be the same, but the user-inherent NFC IDs given to the respective account authentication apparatuses 300 may be different.

In the embodiment, the user terminal 400 is limited to the terminal with NFC function, and the account authentication device 300 can be registered by providing a process that the user directly and manually inputs the user's intrinsic NFC ID in the case of a terminal that does not support NFC function or cannot register due to operation error.

Next, in an embodiment, the bar management application 411 may activate the account authentication device 300 to be used among the account authentication devices 300 registered on the user terminal 400 (S303).

In an embodiment, in case that the registered account authentication device 300 is one, the bar management application 411 may automatically activate the account authentication device 300.

In addition, in other embodiments, in a case where there are a plurality of registered account authentication apparatuses 300, the bar management application 411 may output at least one or more account authentication apparatuses 300 registered in the user terminal 400 to the display.

Referring to fig. 21, the bar management application 411 may output icons IC1 to IC3 of at least one or more account authentication devices on a display corresponding to the number of at least one or more account authentication devices 300 registered with the user terminal 400.

In addition, the user can determine an account authentication device 300 required to watch the corresponding show based on the desired character and show time.

The user may then make a touch input based on the user interface that determines the account authentication device 300, and accordingly, the bar code management application 411 may activate the account authentication device 300 to be used.

In an embodiment, the bar management application 411 may output at least one or more activation buttons IC1a to IC3a on the display to activate the account authentication device 300 based on touch input by the user.

The activation buttons IC1a to IC3a may be output at the lower ends of the account authentication device icons IC1 to IC3, and may output different shapes according to the activation state.

For example, the shape of the first activation button IC1a as shown in fig. 21 indicates that the account authentication device 300 corresponding to the account authentication device icon IC1 is in an activated state, and the shapes of the second and third activation buttons IC2a, IC3a indicate that the account authentication device 300 corresponding to the account authentication device icons IC2, IC3 is in a deactivated state.

The user may make a touch input by touching the activation buttons IC1a to IC3a, and thus, in an embodiment, the bar management application 411 may link the user terminal 400 and the account authentication device 300 to be used by the user by activating the account authentication device 300 to be used.

Additionally, in an embodiment, the user may also activate account authentication devices 300 that each match by different performance, order number based on the application 411.

For this reason, the bar management application 411 may pre-match the performance and the ticket number in each account authentication device 300 when registering the account authentication device 300. For example, the bar management application 411 may output a list to the display that includes at least one or more shows purchased by the user.

If the user selects one performance included in the list, the bar management application 411 automatically activates the account authentication device 300 that has been matched with the corresponding performance among at least one or more account authentication devices 300 registered in the user terminal 400. Also, for example, the bar to aid management application 411 may output a list to the display containing at least one or more order numbers purchased by the user.

In addition, if the user selects one of the booking numbers included in the list, the bar management application 411 should automatically activate the account authentication device 300 that has been matched with the corresponding booking number among at least one or more account authentication devices 300 registered in the user terminal 400.

In addition, in an embodiment, the application 411 may register and link the bar 200 on the user terminal 400 (S305). Specifically, in the embodiment, the application 411 may register and link the application bar 200 on the user terminal 400 based on the close range communication, and the content of the close range communication is the same as the content of S301 and S303 described above, and will not be described here.

The bar 200 registered in the user terminal 400 may be one bar 200 corresponding to a performance to be watched by the user among at least one bar 200 owned by the user.

Additionally, in an embodiment, the assisted bar management application 411 may send a seat library to the linked assisted bar 200 (S307).

For this reason, in an embodiment, the bar management application 411 may acquire user account information based on information included in the registered account authentication device 300 and information input when the user logs in to the bar management application 411.

Additionally, in an embodiment, the bar to aid management application 411 may communicate with an external server (e.g., ticket sales server) to detect ticket booking information matching the acquired user account information.

At this time, the bar management application 411 may omit the step of acquiring user account information according to the fact that the user is not a member, or the like, and acquire ticket booking information based on manual input of the user.

Additionally, in an embodiment, the bar to aid management application 411 may determine a seat pool based on the detected booking information.

At this time, when the user subscribes to a plurality of seats of the same performance using the same service ID, the bar management application 411 may output a plurality of detected ticket booking information on the display of the user terminal 400.

The user may select one of the plurality of booking information output at the user terminal 400, and in an embodiment, the bar-to-aid management application 411 may determine a seat pool based on the seat information contained in the selected booking information.

Thus, in an embodiment, the application 411 may send the determined seat library to the registered and linked application bar 200.

In addition, the user can register and link at least one or more of the rescue bars 200 on the user terminal 400 or order at least one or more of the tickets using one user account information.

Thus, in an embodiment, the application 411 may register at least one or more of the rescue bars 200 and ticket booking numbers for one user account information, and confirm and manage the registered rescue bars 200 and ticket booking numbers.

Specifically, for example, the application 411 may each manage the registered bar 200, such as activating the bar 200 to be used among the bars 200 registered in the user terminal 400, or confirming a seat library registered in the bar 200, or the like.

That is, according to the application 411 of the user terminal 400 according to the embodiment, since the seat library can be autonomously transmitted to the response stick 200 on the user terminal 400, even in the case where the self-service terminal 100 cannot be used due to a sudden increase of a user, an excessively long waiting time, an equipment failure, or the like, or in the case where a non-contact (Un-tact) performance is watched, pairing can be performed by autonomous pairing (self-pairing) in a playground or home, thereby reducing restrictions in time and space.

Additionally, in an embodiment, the application 411 may confirm whether the seat library of the bar 200 is saved or not based on the near field communication.

In addition, in an embodiment, the application 411 may control the lighting of the bar 200 on the user terminal 400.

Specifically, in an embodiment, the bar management application 411 may control the lighting of the bar 200 on the user terminal 400 by setting a prescribed mode.

For this, in an embodiment, as shown in fig. 22, the bar management application 411 may output at least one or more mode selection buttons IC4, IC5 for setting a prescribed mode on the display of the user terminal 400.

In addition, the user may make a touch input for setting the prescribed mode based on the user interface.

For example, referring to fig. 22, if the user selects "show mode" by touching the first mode selection button IC4, the bar management application 411 may start to sequentially perform steps S301 to S307 shown in fig. 20 to transmit a seat library required for a show to be watched to the bar 200.

In addition, in the case of the "show mode", information on the location of the lead paired kiosk 100 may also be provided because the mode is connected for pairing at the show floor.

In addition, for example, referring back to fig. 22, if the user selects the "autonomous mode" by touching the second mode selection button IC5, the bar management application 411 may provide a light setting process that allows the user to directly set the light base data.

Therefore, the user can set the frequency of repeating the turning on and off of the light of the linked assistance bar 200, the color and brightness of the light emitted from the assistance bar 200, and the like, and the attribute of the light output from the light emitting device of the assistance bar 200.

Therefore, by the application 411 for managing the application bar according to the embodiment, the user can control the light emitting color of the application bar 200 at will even at a place before the start of a performance or outside the performance yard by using the self-service mode, thereby improving the use efficiency of the application bar 200.

In addition, in an embodiment, the application 411 may also operate a seat library pre-stored in the linked bar 200 by receiving a light emission control signal and a control message, etc. transmitted in a broadcast form, so as to control the light emission of the bar 200.

As described above, according to the seat pool pairing method and system using short-range wireless communication according to the embodiments of the present disclosure, a plurality of the rescue bars are controlled by a pre-stored seat pool so that the plurality of rescue bars simultaneously perform a uniform performance effect.

In addition, according to the seat pool pairing method and system using short-range wireless communication according to the embodiment of the present disclosure, by saving the seat pool for the corresponding performance, errors caused by the seat pool conflicts with other performances are reduced.

In addition, according to the seat base pairing method and system utilizing the short-range wireless communication, pairing of the assistance bar and the self-service terminal can be achieved through visual user experience, events and inconvenience required by seat base storage are reduced, and convenience of users is improved.

In addition, according to the seat base pairing method and system using short-range wireless communication in the embodiment of the disclosure, by sending the seat base to the response bar autonomously on the user terminal, under the condition that the self-service terminal cannot be used due to the reasons of sudden increase of users, overlong waiting time, equipment failure and the like, or under the condition of watching non-contact performance, the seat base can be paired by autonomous pairing in a playground or at home, so that time and space restrictions are reduced.

The method of the embodiment may be implemented in the form of program commands executable by various computer devices and recorded on a computer-readable recording medium. The computer-readable recording medium may include program commands, data files, data structures, etc. alone or in combination. The program command recorded on the storage medium by the computer readable recording medium may be specially designed for the present disclosure, or may be used in the software field. The computer readable recording medium includes magnetic Media such as hard Disk, floppy Disk and magnetic tape, optical Media such as CD-ROM and DVD, magneto-Optical Media (magnetic Disk) such as Magneto-Optical Disk (Floptical Disk), and hardware devices such as ROM, RAM and flash memory capable of storing and executing program commands. The program commands include not only machine language code generated in a compiler but also high-level language code executed in a computer using a translator or the like. A hardware device may be comprised of more than one software module that implements the actions of the disclosure and vice versa.

The particular implementations described in this disclosure are examples and are not intended to limit the scope of the disclosure in any way. For simplicity of the description, the existing electronic structures, control systems, software, other functions of the systems, etc. are omitted. Further, the connection of the lines between the constituent elements or the functional connection and/or physical or circuit connection between the connecting members shown in the drawings are exemplary, and various functional connections, physical connections or circuit connections may be substituted or added in the actual device. In addition, unless specific terms such as "necessary", "important" and the like are used, they are not essential components for realizing the present disclosure.

The described embodiments are only intended to illustrate the present disclosure, not to limit it, and it will be understood by those skilled in the art that the present disclosure may be modified, altered, or equivalents. And are intended to be encompassed within the scope of the claims of the present disclosure without departing from the spirit and scope of the present disclosure.

Claims (20)

1. A stand for placing a support bar and a terminal for providing a seat library for the support bar, comprising:

a main frame;

a placement unit provided in the main frame and placing the terminal; and

And a support bar holder provided in the main frame and holding the support bar.

2. The stent of claim 1, wherein: one end of the placement portion is connected to the main frame, and one end of the placement portion connected to the main frame is configured to rotate relative to the main frame.

3. A stent as defined in claim 2 wherein:

the placement section includes:

a rotating part connected to one side of the edge of the main frame;

a main placement section connected to the rotation section; and

And a wing part including a first flap part and a second flap part each provided on both sides of the main placement part.

4. A stent as defined in claim 3 wherein: the placement unit rotates about the rotation unit as a reference axis so as to have a predetermined angle with respect to the main frame.

5. A stent as defined in claim 3 wherein: the first aileron portion and the second aileron portion extend along the direction of keeping away from the main portion of placing in each of both sides of main portion of placing.

6. The stent of claim 1, wherein: the device further includes a support portion for supporting the placement portion so that the placement portion is rotated and then maintains a state of being provided with a predetermined angle with respect to the main frame.

7. The stent of claim 1, wherein: the device further includes a marking unit provided in the main frame and marking a predetermined device.

8. The stent of claim 1, wherein: the redundancy bar holder includes an insertion hole formed at the main frame for insertion of the redundancy bar.

9. The stent of claim 8, wherein: the device further comprises at least two or more cylindrical layers which are arranged in the insertion hole and have different diameters;

a second cylindrical layer having a second diameter is provided inside the first cylindrical layer having the first diameter, and a third cylindrical layer having a third diameter is provided inside the second cylindrical layer;

the first diameter is greater than the second diameter and the second diameter is greater than the third diameter.

10. The stent of claim 9, wherein: the outer ends of the first to third cylindrical layers are provided with a stepped structure.

11. The stent of claim 1, wherein: a recess portion for providing a receiving space for forming the placement portion is formed in the main frame, and a protruding portion having a structure protruding with a predetermined step is formed on a side adjacent to the placement portion in a partial region of the recess portion.

12. A seat pool pairing system providing a seat pool to a response bar, comprising:

a main frame;

a support bar holder provided in the main frame and holding the support bar;

a terminal providing a seat library for the assistance bar; and

And a placement unit provided in the main frame and placing the terminal.

13. The seat base pairing system of claim 12, wherein: the assistance bar fixer comprises an assistance bar pairing module, wherein the assistance bar pairing module is used for detecting whether the assistance bar approaches or not, communicating with the terminal and the assistance bar if the assistance bar approaches, and sending data from the terminal to the assistance bar.

14. The seat base pairing system of claim 12, wherein: the device further includes a marking unit provided in the main frame and marking a predetermined device.

15. The seat pool pairing system of claim 14, wherein: the terminal transmits a predetermined seat library to the placed assistance bar based on the user account information acquired by the marking section.

16. A seat pool pairing method for performing seat pool pairing utilizing close range wireless communication for an application executed by at least one processor of a seat pool pairing system, comprising:

Detecting ticket booking information;

extracting seat information including a position of a seat of an action scene from the detected ticket order information;

determining a seat library that matches the extracted seat information;

pairing the rescue bars to be saved in the determined seat library; and

Sending the seat library to the paired corresponding bars;

wherein the redundancy bar is placed in a redundancy bar holder including an insertion hole formed therein into which the redundancy bar is inserted.

17. The seat pool pairing method according to claim 16, wherein: the determining a seat library matching the extracted seat information, comprising;

a plurality of seat libraries for storing performance preparation data matched with each seat information;

comparing pre-stored seat information of the plurality of seat libraries with the extracted seat information;

detecting a seat pool of the plurality of seat pools that matches the extracted seat information.

18. The seat pool pairing method according to claim 17, wherein: the show preparation data includes at least one lighting pattern, library data, and a scene.

19. The seat pool pairing method according to claim 18, wherein: the library data includes an identification code identifying each library and a light emission pattern setting value as a value of a factor for presetting the light emission pattern; the scenes include identification codes that identify the respective scenes, and library setting values that are values for presetting the running time of the library data.

20. The seat pool pairing method according to claim 18, wherein: in the plurality of seat libraries, the identification codes of the identification libraries and the identification codes of the identification scenes are the same; the light emission pattern setting value and the library setting value are defined as different values according to different seat information.