KR101437430B1 - Method for providing IoT POS service and computer readable recording medium applying the same - Google Patents

Abstract

IoT POS service method and a computer readable recording medium using the method are provided. According to this IoT POS service method, the menu information and the seat information are received through the IoT POS system, so that it can be reserved and paid to the mobile device. With this IoT POS service, the user can make reservation and settlement more convenient It becomes.

Description

TECHNICAL FIELD [0001] The present invention relates to an IoT POS service method and a computer readable recording medium using the same,

The present invention relates to an IoT POS service, and more particularly, to an IoT POS service method in which an IoT service is applied to a POS.

The term Internet of Things (IoT) first appeared in 1998 at the Massachusetts Institute of Technology (MIT) Auto-ID Lab. In 2005, ITU-T published its annual report entitled The Internet of Things, which predicted that the Internet would be the most basic framework for all the structures of the IT revolution. The report defines the Internet as "a new information communication infrastructure that enables people to connect all the things in the world with each other through a network so that they can communicate with each other, anywhere, between people and things". In other words, the Internet can be regarded as an infrastructure for realizing a ubiquitous space. This ubiquitous space starts with computing devices embedded with specific functions being embedded in the environment and objects, and the environment or objects themselves being intelligent.

The Internet of Things is a technology that provides us with a more convenient and safe life. Accordingly, various mobile communication companies and handset manufacturers are concentrating on development of terminals and services for Internet support for the next generation mobile services.

However, the Internet of Things is currently in its infancy, and no specific model for service provision has been established. Therefore, a concrete plan for providing such Internet service for objects is sought.

It is an object of the present invention to provide an IoT POS service method using an IoT POS system capable of reserving and paying with a smart device.

According to an aspect of the present invention, there is provided a method for providing an IoT POS service using an IoT POS (Internet of Things Point of Sales) system, the method comprising: searching for the IoT POS system through a P- ; Receiving the IoT POS customer application for accessing the IoT POS system through the S-platform to receive a service; Executing the application for the IoT POS customer by the mobile device and transmitting an inquiry request for at least one of menu information and seat information to the IoT POS system; And the IoT POS system transmitting at least one of menu information and seat information to the mobile device.

The mobile device and the IOT POS system can communicate or directly communicate with each other via the M-platform.

In addition, the searching step may search the IoT POS system using an IoT browser displaying the location of the IoT devices in the form of icons on a map or displaying IoT devices in a text list.

The step of transmitting to the IoT POS system is a step in which the mobile device executes the application for the IoT POS customer and transmits an inquiry request for at least one of the menu information and the seat information to the IoT POS customer using the IoT POS customer application, POS system.

Further, the IoT POS service method according to an embodiment of the present invention may include: transmitting, by the mobile device, a reservation request to the IoT POS system; And if the reservation request is received, performing the requested reservation processing by the IoT POS system, wherein the mobile device and the IoT POS system can communicate or directly communicate via the M-platform.

The IoT POS service method according to an embodiment of the present invention includes: transmitting a payment request to the mobile device when the IoT POS system receives a payment request; And performing the settlement processing with the IoT POS system, wherein the mobile device and the IoT POS system can communicate or directly communicate with each other via the M-platform.

The IoT POS system is equipped with an IoT adapter. The D-platform can be installed in the IoT POS system or the IoT adapter.

Meanwhile, according to another embodiment of the present invention, the program implements the above-described IoT POS service method.

According to various embodiments of the present invention, menu information, seat information, and the like are received through the IoT POS system and can be reserved and paid by a smart device. With this IoT POS service, It becomes possible.

1 is a diagram illustrating a structure of an Internet of Things (IoT) software platform according to an embodiment of the present invention;
2 is a block diagram showing the configuration of an IoT device according to an embodiment of the present invention;
Figure 3 is a diagram provided in the description of an IoT POS system, in accordance with an embodiment of the present invention;
4 is a flowchart illustrating a registration process of APIs and applications related to the IOT POS system according to an embodiment of the present invention,
5 is a flowchart illustrating a process for providing an IoT POS service method according to an embodiment of the present invention.

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

1 is a diagram illustrating a structure of an Internet of Things (IoT) software platform 100 according to an embodiment of the present invention. As shown in FIG. 1, the things Internet software platform 100 includes a D-platform 110, a P-platform 120, an M-platform 130, and an S-platform 140.

The D-platform 110 represents a software platform installed on the side of the IOT device 115 and the P-platform 120, the M-platform 130, and the S-platform 140 are located on the server computer side Or a software platform installed together.

The D-platform 110 is an abbreviation of the Device platform and is installed in an IoT adapter installed directly on the IoT device 115 or mounted on the IoT device 115, 130), and interworks with the smart device through the IoT application and the IoT website.

Here, the IoT device 115 represents general objects (for example, a TV, a mobile phone, a refrigerator, a cleaner, a washing machine, a vending machine, etc.) to which IoT is applied.

The IoT adapter is mounted on the IoT device 115 to allow objects to use IoT communication. The IoT adapter includes a communication module capable of communicating via at least one of short-range wireless communication, Wi-fi, Ethernet, 3G, and LTE. The D- And provides various functions for communication.

The P-platform 120 is an abbreviation of the Planet platform and performs functions such as management of the IoT device 115, user management, monitoring of the IoT device 115, and search of the IoT device 115. Specifically, the P-platform 120 receives the information about the IoT device 115 from the IoT service provider 10 and registers the IoT device 115 therein. The information about the IoT device 115 includes device ID, device name, model name, manufacturer, location information, device status information, and the like, MSISDN, etc.).

The P-platform 120 then authenticates the user accessing the S-platform 130 to register and download the IoT application for the IoT service. In order to authenticate the user, the P-platform 120 has personal information such as the user's ID / PW and telephone number.

In addition, the P-platform 120 performs service / developer authentication for authenticating a developer who develops and registers a mash-up service related to the IoT and a service user using the mashup service.

In addition, the P-platform 120 authenticates the IoT service user's IoT service connection using an application of a smart device (e.g., smart phone, tablet, etc.).

The M-platform 130 is an abbreviation of Mash-up platform, and communicates with the D-platform 110 to transmit control commands of the service user through the IoT application or the IoT web page to the IoT device 115.

In addition, the M-platform 130 registers the IoT mashup service developed by the mashup service developer 60. That is, the mashup service developer 60 develops and registers the IoT mashup service on the M-platform 130. At this time, the mashup service developer 60 may develop the IoT mashup service using the IoT open API provided from the open API server 150.

The IoT devices 115 periodically transmit data generated by the M-platform 130 to the M-platform 130. The M-platform 130 collects data generated by the IoT device 115 and stores the collected data in a log. IoT mashup service to provide service users.

In addition, the M-platform 130 performs billing based on the use of the IoT mashup service and may store brief information (for example, ID, IP address, etc.) about the IoT devices 115. [

The S-platform 140 is an abbreviation of the Store platform, and provides an application store function for providing an IoT application for the IoT service to the service user. To this end, the S-platform 140 provides an application search function. The S-platform 140 may provide a function of searching for an IoT application that can use the IoT function of the corresponding IoT device 115 based on the ID of the IoT device 115. [

To this end, the S-platform 140 registers the IoT application developed by the IoT application developer 50.

The open API server 150 manages and provides an open API related to the IoT service. Specifically, the developer of the IoT device 115 develops an open API for the corresponding IoT device 115 when manufacturing the IoT device 115, and stores the related open API in the open API server 150 do. Then, the open API server 150 registers and stores various open APIs for each of the IOT devices 115 developed by various developers.

The open API server 150 provides the stored open API to the developer who wants to develop the IoT service related web site, the mashup service site, and the application. Therefore, developers can develop an IoT service using the provided open API by receiving a related open API from the open API server 150 when developing a web site related to the IoT service, a mashup service site, and an application.

For example, when the manufacturer of the IoT device registers an open API for providing status information (for example, failure) to the IOT device 115 in the open API server 150, The function of inquiring the state of the IoT device 115 by searching and using the open API server 150 can be implemented in the IoT service related web site, the mashup service site, and the IoT application.

Meanwhile, the IoT service user may access the IoT device 115 directly using the IoT application downloaded to the smart device 40, which is a kind of mobile device, and use the IoT service. At this time, the IoT device 115 can be connected through the relay of the smart device 40 and the M-platform 130, or can be directly connected through peer-to-peer (P2P) communication to provide the IoT service. In this case, the D-platform 110 of the IoT device 115 communicates indirectly with the IoT application of the smart device 40 through the relay of the M-platform 130 or directly using the P2P communication.

The IoT software platform 100 having such a configuration can provide various IoT services by interlocking with the D-platform 110, the P-platform 120, the M-platform 130, and the S- .

2 is a block diagram showing the configuration of the IoT device 115 according to an embodiment of the present invention. As shown in FIG. 2, the IoT device 115 includes a device body 210, an IoT adapter 220, and the like.

The apparatus main body 210 shows the apparatus main body for providing the original function of the IOT apparatus 115. [ For example, when the IoT device 115 is a cellular phone, the device body 210 represents a cellular phone body. When the IoT device 115 is a lamp, the apparatus main body 210 shows the main body of the lamp.

The IoT adapter 220 is mounted on the IoT device 115 to support IoT communication. That is, the IoT device 115 can communicate with the outside via the IoT adapter 220.

The IoT adapter 220 includes a digital I / O 221, an analog I / O 223, a D-platform 110 and a communication module 225.

The digital I / O 221 transmits and receives a digital signal between the apparatus main body 210 and the IoT adapter 220. The analog I / O 223 transmits and receives analog signals between the apparatus main body 210 and the IoT adapter 220.

The D-platform 110 may be installed in the IoT adapter 220 as shown in FIG. 2, but may be installed directly in the IoT device 115 as described above. In any case, the D-platform 110 interfaces with the P-platform 120 and the M-platform 130 and interacts with the smart device via the IoT application and the IoT website.

The communication module 225 includes a communication module capable of communicating via at least one of short-range wireless communication, Wi-Fi, Ethernet, 3G, and LTE. However, the communication module 225 is not limited to the listed communication methods, and may also include communication modules for various communication methods for the IoT service.

As described above, an IoT POS (Point of Sales) can be implemented using the IoT software platform shown in FIGS. 1 and 2. Hereinafter, the IoT POS system will be described in detail with reference to FIG.

In the IoT POS system 300, a D-platform 110 is installed. Specifically, the D-platform 110 may be installed directly in the IoT POS system 300, or may be installed in the IoT adapter 300 mounted in the IoT POS system 300. The D-platform 110 is communicatively coupled to the P-platform 120 and the M-platform 130.

The customer's smart device 40 is communicatively coupled to the P-platform 120, the M-platform 130 and the S-platform 140. The smart device 40 may be directly connected to the IoT POS system 300. [

A process of using the IoT POS service using the IoT POS system 300 will be described below.

4 is a flowchart illustrating a registration process of APIs and applications related to the IOT POS system 300 according to an embodiment of the present invention. In Fig. 4, the POS developer corresponds to the IoT device developer 20 in Fig. 1, and the APP developer corresponds to the application developer 50 in Fig.

The POS developer first develops the IoT POS system 300 and the IoT POS related API (S410). At this time, the POS developer can install the IoT function in the IoT POS system 300 or install the IoT adapter in order to support the IoT function. Here, the IoT POS related API represents APIs that implement the basic functions necessary for developing a web page or an application for the IoT service using the IoT POS system 300.

Then, the POS developer registers the IoT POS related API in the open API server 150 (S420). That is, the open API server 150 registers the IoT POS related API.

Then, the APP developer can develop an application for the IoT POS customer using the IoT POS related API registered in the open API server 150 (S430). Here, the IoT POS customer application is an IoT application having a function of connecting to a desired IoT POS system 300 to make reservations and payment, and in addition, it can provide various IoT service functions related to the IoT POS system 300 To the application.

Then, the APP developer registers the developed IoT POS customer application in the S-platform 140 (S440). That is, the S-platform 140 registers the IoT POS application developed by the APP developer.

Through such a process, the POS developer and the APP developer register APIs and applications related to the IoT POS system 300.

5 is a flowchart illustrating a process for providing an IoT POS service method according to an embodiment of the present invention. Here, the store shown in Fig. 5 corresponds to the IoT service provider 10 of Fig. 1, and the customer of Fig. 5 corresponds to the user of the smart device 40 of Fig. 1 as the IoT POS service user.

First, the IoT POS system 300 of the shop is installed in the shop by the IoT POS service provider 10 (S510). Then, the IoT POS service provider 10 registers information on the IoT POS system 300 in the P-platform 120 (S520). The information about the IOT POS system 300 includes a device ID, a device name, a model name, a manufacturer, a location information, a device status information, and the like. Address, MSISDN, etc.).

The user of the smart device 40 searches the IoT POS system 300 in the P-platform 120 using the IoT browser installed in the smart device 40 (S525). Specifically, step S525 includes: i) when the IoT browser installed in the smart device 40 accesses the P-platform 120, ii) when the P-platform 120 receives information about the IoT devices to be displayed in the IoT browser after user authentication I) the IoT browser lists the IoT devices delivered from the P-platform 120; and iv) the service user searches and selects the IoT POS system 300 among the listed IoT devices.

The IoT device list can be displayed in the form of an icon on the map or in the form of a text list.

Then, the IoT browser transfers the ID of the IoT POS system 300, which is the IoT device selected by the user, to the S-platform 140 to download the IoT POS customer application, which is the IoT application to the IoT POS system 300 S535). The IoT POS customer application is an application that can be executed by the customer using the smart device 40. The IoT POS customer application provides an order function, a payment processing function, and a reservation function for the menu of the shop.

Specifically, step S535 includes the following steps: i) The IoT browser transfers the ID of the IOT POS system 300 to the S-platform 140 to receive an application list for the IoT POS system 300 from the S- And ii) requesting and downloading an application for the IoT POS customer selected by the service user from among the displayed applications to the S-platform 140.

The IoT browser transmits the ID of the IoT POS system 300 selected by the user to the P-platform 120 to receive detailed information about the IoT POS system 300 from the P-platform 120, It can be displayed in IoT browser upon request.

Then, the smart device 40 executes the downloaded application for the IoT POS customer in step S535, and transmits an inquiry request for at least one of the menu information and the seating information of the shop to the IoT POS system (Step S540).

Then, the IoT POS system 300 of the shop transmits at least one of menu information and seating information of the shop to the smart device 40 via the M-platform 130 (S545).

Then, the customer's smart device 40 transmits a reservation request for the store to the IoT POS system 300 of the shop through the M-platform 130 (S550).

Then, the IoT POS system 300 of the shop performs the reservation processing received via the M-platform 130 in real time (S555). Here, the reservation request may be a reservation request for a seat in a shop, a reservation request for a room, or a reservation request for a menu. In addition, there is no restriction on the kind of reservation.

Then, the customer visits the store, and the store provides the related service to the customer.

When the payment request is input, the IoT POS system 300 of the shop performs payment processing using the mobile card or the like in cooperation with the smart device 40 of the customer through the M-platform 130 in operation S560. Specifically, the IoT POS system 300 of the shop transmits a payment request to the smart device 40 of the customer via the M-platform 130 when the payment request is input.

When the payment request is received, the smart device 40 of the customer interacts with the IoT POS system 300 of the shop through the M-platform 130 to perform payment processing using the mobile card or the like (S565). At this time, when the payment request is input, the M-platform 130 interlocks the IoT POS system 300 of the store with the customer's smart device 40 to perform payment processing.

Meanwhile, since the smart device 40 of the customer and the IoT POS system 300 of the shop are located close to each other in the settlement process, the smart device executes the application for the IoT POS customer and the D- platform (300) installed in the IoT POS system 300 110 to perform the settlement procedure with the IoT POS system 300. [

Through this process, the IoT POS system 300 of the store and the smart device 40 of the customer can provide and utilize the IoT POS service method.

Thus, the IoT software platform 100 according to the present embodiment can provide the IoT POS service using the D-platform, the P-platform, the M-platform, and the S-platform, The service can be used to intuitively confirm and reserve the menu of the shop.

In the above embodiment, the smart device 40 executes the downloaded application, accesses the D-platform 110 installed in the IoT POS system 300, and communicates with the IoT POS system 300, .

However, the smart device 40 accesses the IoT POS web page for reservation / payment in the IoT POS system 300, not the downloaded application, and communicates with the IoT POS system 300 to perform menu confirmation, It is also possible to receive IoT POS service.

Also, in the above embodiment, it has been assumed that the IoT POS system 300 search is performed using the IoT browser, which can be variously implemented. For example, it is possible to directly input an ID or a name of the IoT POS system 300 to search / select it, or to select the IoT POS system 300 through a category search. The IoT POS system 300 can be selected by acquiring the ID of the IoT POS system 300 from the QR code attached to the IoT POS system 300 or by selecting the IoT POS system 300 or the IoT POS system 300 and the NFC, ZigBee, It is also possible to select the IoT POS system 300 by acquiring the ID by the short distance communication.

Meanwhile, the IoT software platform 100, the D-platform 110, the P-platform 120, the M-platform 130, and the S-platform 140, according to an embodiment of the present invention, But is not limited to, and may be applied to any software, electronic apparatus, or system corresponding to the function. The IoT software platform 100, the D-platform 110, the P-platform 120, the M-platform 130, and the S-platform 140 may also include other libraries, software solutions, Software packages, software frameworks, individual software, and the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

10: IoT service provider 20: IoT device developer
30: IoT service user 40: Smart device user
50: IoT Application Developer 60: Mashup Service Developer
100: IoT software platform 110: D-platform
115: IoT device 120: P-platform
130: M-platform 140: S-platform
150: Open API Server 300: IoT POS System

Claims (8)

In an IoT POS service method using an IoT POS (Internet of Things Point of Sales) system,
The mobile device retrieving the IoT POS system through the first platform to obtain an ID of the IoT POS system;
Retrieving and downloading an IoT POS customer application for accessing the IoT POS system and receiving a service from the second platform using the ID of the IoT POS system;
A first transmission step in which the mobile device executes the application for the IoT POS customer and transmits an inquiry request for at least one of menu information and seat information to the IoT POS system using the IoT POS customer application;
A second transmission step in which the mobile device transmits a reservation request to the IoT POS system;
A first performing step of, when the reservation request is received, the IoT POS system performing the requested reservation processing;
A third transmission step of, when the IoT POS system receives a payment request, transmitting a payment request to the mobile device; And
And a second performing step of the mobile device performing payment processing with the IoT POS system,
Wherein in the first transmission step, the second transmission step and the first performing step, the mobile device and the IoT POS system communicate via a third platform,
In the third transmission step and the second performing step, the mobile device and the IoT POS system directly communicate,
The acquiring step includes:
Wherein the IoT POS system is searched using an IoT browser that displays the location of IoT devices in the form of icons on a map.
delete delete delete delete delete The method according to claim 1,
The IoT POS system comprises:
Wherein the IoT POS system or the IoT adapter is equipped with a fourth platform.
A computer-readable recording medium containing a computer program for implementing the IoT POS service method according to claim 1 or 7.

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