KR20160127248A - System and method of calling subjects based on beacon - Google Patents

Abstract

The present invention relates to a beacon-based user call system and method for more precisely and precisely locating a user based on a beacon and for enabling a user to be more effectively called for a bio-test based on the beacon-
The beacon-based user calling system includes a plurality of beacons distributed in a designated area and generating and wirelessly outputting a beacon signal to which identification information of the beacon is mapped; A plurality of public display devices distributed in the designated area to receive and guide the blood sampling timetable and paging information; A plurality of calling terminals which are carried by a plurality of users and receive and guide the paging information, receive and analyze at least one beacon signal, and identify and notify a current position in the designated area; And selecting one of the plurality of calling terminals according to the blood collection time table and simultaneously transmitting the calling information to the public display device installed at the current position of the selected calling terminal and the selected calling terminal And a main system for generating and outputting warning information by checking whether an emergency situation has occurred based on the current positions of the plurality of calling terminals.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a beacon-

The present invention relates to a beacon-based user call system, and more particularly, to a beacon-based user call system that more precisely and precisely locates a user based on a beacon, and based on the beacon, System and method.

The bioequivalence (bioequivalence) test is one of the in vivo tests conducted for the purpose of verifying bioequivalence. Two drugs in the same route of administration, containing the same active ingredient, Of the test results.

In the above-described bioequivalence test, a drug is administered to a large number of users, and blood is sampled every predetermined time to analyze the blood drug concentration. The manager manages the sampling time for a large number of users, .

However, as the number of users increases and the number of users waiting area increases, the conventional call method becomes cumbersome and troublesome for the administrator. Conventionally, it has been urgently required to develop a technique capable of calling a plurality of users according to a blood sampling time for a bioequivalence test.

Korean Publication No. 10-2009-0032349

In order to solve the above-mentioned problems, the present invention provides a beacon-based user call system that can precisely and precisely locate a user based on a beacon, and can more effectively call a user for a bio- And methods.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

As a means for solving the above problems, in a beacon-based user calling system according to an embodiment of the present invention, there is provided a beacon-based user calling system, comprising: a plurality of beacons distributedly installed in a designated area and generating and wirelessly outputting a beacon signal, Device; A plurality of public display devices distributed in the designated area to receive and guide the blood sampling timetable and paging information; A plurality of calling terminals which are carried by a plurality of users and receive and guide the paging information, receive and analyze at least one beacon signal, and identify and notify a current position in the designated area; And selecting one of the plurality of calling terminals according to the blood collection time table and simultaneously transmitting the calling information to the public display device installed at the current position of the selected calling terminal and the selected calling terminal And a main system for generating and outputting warning information by checking whether an emergency situation has occurred based on the current positions of the plurality of calling terminals.

Wherein each of the plurality of calling terminals includes at least one of a monitor, a speaker, and a light emitting device, and displays the calling information or the warning information audibly and audibly; A vibration generating module for generating vibration corresponding to the call information or the warning information; A communication module for performing wireless communication with the main system and the plurality of beacon devices through a short-range wireless communication method including a bicon; A memory for storing identification information; And a control unit for controlling operation of the display module and the vibration generating module according to the paging information or the warning information transmitted from the main system, And a microprocessor for receiving and comparing at least one of the transmitted beacon signals to determine the current position in the designated area and notifying the main system of the current position.

The system may further include an administrator terminal for notifying the current location of the selected calling terminal from the main system and displaying the current location of the selected calling terminal.

As a means for solving the above problems, a beacon-based user calling method according to an embodiment of the present invention includes a step of generating and storing a blood sampling timetable for a bioequivalence test; Selecting one of a plurality of paging terminals according to the collection time table, transmitting paging information to the selected paging terminal, checking the current position of the selected paging terminal at the same time, ; Transmitting information about the selected calling terminal to an administrator terminal; And determining a calling terminal in an emergency situation based on the location of each of the plurality of calling terminals and transmitting alert information to the calling terminal in the emergency state.

The beacon-based user calling system according to the present invention allows a user to perform a calling operation in consideration of a blood sampling timetable and a current position of a user, thereby enabling a user to grasp the order of the user more accurately and effectively.

In addition, when an emergency situation occurs such that the user's position is more precisely grasped based on the beacon and the user is out of the designated area before the blood collection or approaching the non-manager-restricted area, the corresponding alert information is generated and provided, And to take prompt action on the situation.

In addition, by providing the administrator terminal with the information about the user currently called or the detailed position information of the calling terminal, if a situation occurs in which the user who should be currently taking the blood does not come to the blood collecting place so that a predetermined time elapses, It also allows you to move to the user's location and request immediate blood collection.

FIG. 1 is a block diagram of a beacon-based user calling system according to a preferred embodiment of the present invention.
FIG. 2 is a view showing a distributed installation example of a beacon device according to a preferred embodiment of the present invention.
3 is a detailed block diagram of a calling terminal according to a preferred embodiment of the present invention.
4 and 5 illustrate a beacon-based user calling method according to a preferred embodiment of the present invention.
6 is a diagram illustrating a graphical user interface of a main system for generating a collection time table according to a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains. Only. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 is a block diagram of a beacon-based user calling system according to a preferred embodiment of the present invention.

The beacon-based user calling system includes a main system 100, a plurality of calling terminals 200, a plurality of beacon devices 300, a public display device 400, and an administrator terminal 500.

The main system 100 may employ a computing system or the like. The main system 100 maps and stores user information and calling terminal identification numbers in order to recognize and manage call terminals allocated to each user.

The main system 100 may employ a computing system or the like to identify a plurality of calling terminals 200 to be used for a user call and to provide identification information to each of the calling terminals 200 and then notify each of the plurality of calling terminals 200 do. Then, each of the plurality of calling terminals 200 stores the informed identification information thereof in the internal memory.

In accordance with input information input by an administrator (for example, a medical staff), a blood collection time table is generated and stored, and call information is generated and transmitted to a plurality of calling terminals 200 based on the blood collection time table. At this time, the call information may include an identification number of the calling terminal 200, user information, and manager information (e.g., a blood sampler name, a blood collecting place, etc.).

In addition, in providing the call information, the indoor location of each of the plurality of calling terminals 200 is determined, and a call is made to the public display device 400 installed at a place where the calling terminal 200, Information so that the user can recognize whether the user is calling through the public display device 400 as well as the calling terminal 200. [

In addition, by providing the manager terminal 500 with the information about the user currently called and the indoor position information of the calling terminal 200 provided by the user, If a situation does not occur, the administrator can move directly to the user's location and request immediate blood collection.

When an emergency situation occurs such that a specific user leaves the designated area before the blood collection or approaches the non-manager-accessible restraining area while monitoring the indoor position of each of the users, the corresponding alert information is generated and the corresponding user's call To the terminal 200 or the administrator terminal 500, so that quick action can be taken for the situation.

In addition, the main system 100 may change the call information alarm method based on the current position of the user. For example, if the place where the user is currently located is defined as a noise control place, a voice inhibition command is added to the call information so that the calling terminal 200 performs a user calling operation with only vibration and LED emission instead of sound, The calling terminal 200 can perform a user calling operation using both sound, vibration, and LED light emission.

A plurality of calling terminals 200 acquire and store unique identification information in advance. Upon receiving the paging information corresponding to the identification number of the user, the user outputs vibration and light for informing that the user has taken the blood collection procedure, and also displays the manager information through the display module.

In addition, after receiving the beacon signal generated by each of the plurality of beacon devices 300, the receiving intensity of each of the beacon signals is compared and analyzed by a triangulation method or the like to determine the indoor position of the user, Information or calling terminal information to the main system 100 so that the main system 100 can grasp the location of each user.

As shown in FIG. 2, a plurality of beacon apparatuses 300 are distributedly installed in a designated area, and generate and wirelessly output a beacon signal to which their identification information is mapped. Based on the location of his own indoor allows you to grasp.

For reference, a beacon is a Bluetooth 4.0 (BLE) protocol-based short-range wireless communication method, which enables communication between devices located within a maximum distance of 70m. It is highly suitable for realization of Internet (IoT) that all devices are connected at all times because of its high accuracy of location detection so that it can distinguish between 5 ~ 10 ㎝ units.

Beacon is one of the leading players in reviving Bluetooth technology, which has fallen down to the internet age. Bluetooth technology, which has been attracted by the near-file sharing in the early days of the introduction of smartphones, has been forgotten due to the spread of Wi-Fi networks and 3G (3G) and LTE (fourth-generation mobile) rates. Bluetooth was again attracted attention because O2O service required fixed location based LAN technology different from LTE. It has been forgotten in the minds of users, but the fact that the technology has been upgraded with confidence is coming to light in the Internet of Things.

NFC (proximity wireless communication), which is applied to a distance of less than 10 cm, has been popularized with the technology that will lead to the Internet of things in the beginning. But when the NFC was turned off by the users, the ball went back to the beacon. Beacons have a longer usable distance than NFC, which can provide a space-based user experience. Providing indoor location information, which was impossible with GPS technology, is also a benefit of Beacon.

The public display device 400 is also installed in a designated area and outputs call information provided from the main system 100 in an audiovisual manner. In addition, by guiding the blood collection timetable generated by the main system 100, each user can infer their own blood collection order and blood collection waiting time based on this.

The administrator terminal 500 is provided with an administrator, such as a blood sampling operator, to provide a blood collection timetable, user information of current blood collection order, and warning information from the main system 100 and to guide the user in audiovisual direction.

3 is a detailed block diagram of a calling terminal according to a preferred embodiment of the present invention.

3, the calling terminal includes a microprocessor 210, a communication module 220, a display module 230, a vibration generating module 240, and a memory 250.

The microprocessor 210 receives manager information (for example, a blood sampler name, a blood collection place, etc.) through the display module 230 and the vibration generation module 240 when the paging information is received from the main system 100 Together with the label, you should be guided through visual, auditory, and tactile signs of the order of blood sampling or the time of blood sampling.

When the warning information is received from the main system 100, the microprocessor 210 drives the vibration generating module 240 and drives the LED of the LED display motor 250 to emit light through the display module 230 And outputs guidance information for guiding the user to return to the designated area.

The microprocessor 210 periodically receives at least one beacon signal through the communication module 220 and compares and analyzes the signal strengths of the received beacon signals to determine the indoor position of the user. The calling terminal information is mapped to the identified indoor location information and provided to the main system 100 so that the main system 100 can also grasp the location of each user.

The communication module 220 performs wireless communication with the main system 100 and the beacon device 300 using a communication method such as WiFi, Zigbee, or beacon. In particular, the communication module 220 of the present invention receives the beacon signal generated and outputted by the beacon device 300 using the beacon communication method, so that the microprocessor 210 can acquire the indoor location information based on the beacon signal .

The display module 230 includes a monitor, a speaker, a light emitting element (e.g., an LED), and guides the call information and the warning information audibly at the request of the microprocessor 210.

The vibration generating module 240 is driven in response to a request from the microprocessor 210 to generate vibration.

The memory 210 stores identification information of the calling terminal.

4 and 5 illustrate a beacon-based user calling method according to a preferred embodiment of the present invention.

The main system 100 checks whether a user requests input of information for a bioequivalence test through an unillustrated user interface (S1).

When the user requests information input for the biohazard test, the main system 100 displays a graphical user interface configured as shown in FIG. 6, displays the current time through the graphical user interface, And test start time, blood collection interval information for each user, How long ago Whether, A blood sampling interval between the user and the user is input and set (S2 to S7).

When the number of users and test start time, blood collection interval information for the user, whether to call the user shortly before the blood collection, or the blood collection interval between the user and the user is input, the main system 100 displays a blood collection timetable (S8).

That is, when the number of users is inputted, the main system 100 allocates a calling terminal corresponding to the number of users and stores identification information on the assigned calling terminals. Also, the main system 100 sets the test start time, determines and stores the blood collection time according to the blood collection interval for each user according to the test start time, subtracts the pre-blood collection time from the determined blood collection time, Determines the angle, and adjusts the call time according to the blood collection interval between the user and the user, thereby determining the final call time. That is, the main system 100 adjusts the blood collection interval according to the input blood collection interval when the call time overlaps.

When the generation of the blood collection timetable is completed, the main system 100 checks whether or not the biological test start time has come (S9). When the main system 100 has reached the start time of the bioequivalence test, it is determined whether there is a user whose blood sampling time has arrived, that is, a user in the current blood sampling sequence (S10).

If there is a current user in the blood collection order, the user is allowed to know where the user is currently located based on the indoor location information of the calling terminal provided to the user (S11).

Then, the call information is transmitted to the calling terminal provided to the user in the current collection order and the public display device installed in the place where the user is located (S12). Here, the calling terminal, which has received the paging information, performs vibration, LED lighting, and call guidance in accordance with the paging information, and the public display device guides the identification information of the user or calling terminal audiovisually. In addition, the call information is guided to an actual blood sampling time or a blood collection place, and the user is guided to move to the blood collection place more accurately and easily.

In addition, the main system 100 receives the indoor position information of each user from the plurality of calling terminals 200, and based on the received information, the calling terminal 200 located outside the designated area, (S13), and the warning information is transmitted to the calling terminal so that the user can return to the designated place (S14). Here, the calling terminal having received the warning information performs vibration, LED lighting, and return guidance to the designated area according to the warning information.

In addition, the main system 100 provides the manager terminal 500 with information on the user of the current blood-withdrawing order and provides the user's current position information menu (S15), and the administrator can grasp the current patient position in real time (S16). If a user who does not come to the blood collection place occurs after a predetermined time elapses, the administrator can directly check the current patient position and then go to the place and bring the user directly.

The call according to the blood collection time table, the return to the designated area, the position estimation for the calling terminal, and the like are continuously repeated until the end of the bioequivalence test (S17).

In addition, although the above description has been given only to the case of calling a user who participated in the bioequivalence test, it may be modified and used as a system for calling a user who visited a store, a user visiting a hospital, a user visiting a service center, Of course I will.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (4)

In a beacon-based user calling system,
A plurality of beacons distributedly installed in a designated area and generating and wirelessly outputting a beacon signal to which identification information of the beacon is mapped;
A plurality of public display devices distributed in the designated area to receive and guide the blood sampling timetable and paging information;
A plurality of calling terminals which are carried by a plurality of users and receive and guide the paging information, receive and analyze at least one beacon signal, and identify and notify a current position in the designated area; And
Generating a blood collection time table for the biological test, selecting one of the plurality of calling terminals according to the blood collection time table, and simultaneously transmitting the calling information to a public display device installed at a current position of the selected calling terminal and the selected calling terminal, And a main system for generating and outputting warning information by checking whether an emergency situation has occurred based on the current position of the plurality of calling terminals. 2. The method of claim 1, wherein each of the plurality of calling terminals
A display module having at least one of a monitor, a speaker, and a light emitting element to visually guide the paging information or the warning information;
A vibration generating module for generating vibration corresponding to the call information or the warning information;
A communication module for performing wireless communication with the main system and the plurality of beacon devices through a short-range wireless communication method including a bicon;
A memory for storing identification information; And
Storing the identification information transmitted from the main system in the memory and controlling operation of the display module and the vibration generating module according to the call information or the warning information transmitted from the main system, And a microprocessor for receiving and comparing at least one beacon signal to be transmitted, determining a current position in the designated area, and notifying the beacon signal to the main system. The method according to claim 1,
Further comprising: an administrator terminal for notifying and displaying the current location of the selected calling terminal from the main system. Generating and storing a blood collection timetable for the bioequivalence test;
Selecting one of a plurality of paging terminals according to the collection time table, transmitting paging information to the selected paging terminal, checking the current position of the selected paging terminal at the same time, ;
Transmitting information about the selected calling terminal to an administrator terminal; And
Based on the location of each of the plurality of calling terminals, identifying a calling terminal in an emergency situation and transmitting alert information to the calling terminal in the emergency state.

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