KR102209554B1 - Group leader selection method using external wireless shared memory - Google Patents

Abstract

The present invention relates to a group leader selection method using an external wireless shared memory. The method includes: a step (S200) in which first to nth user terminals in a preset group perform sequential tagging in relation to a short-range wireless communication tag of a short-range communication post within a pre-designated coverage; a step (S300) in which each of the user terminals determines whether a high-order memory on a memory of the short-range communication post is empty (flag_leader=0); a step (S400) in which the user terminal that has identified the emptiness of the high-order memory is selected as a group leader when the high-order memory is empty in step S300; a step (S500) in which the identification information of the user terminal selected as the group leader is transmitted to the control center; and a step (S600) in which work information is transmitted from the control center to the user terminal selected as the group leader. According to the present invention, an RFID tag-equipped post is at each work compartment unit and a worker with a unique ID performs post tagging. As a result, a group leader is automatically selected and present at all times in a work group. Accordingly, it is possible to solve problems such as information transmission omission attributable to the absence of a group leader.

Description

Group leader selection method using external wireless shared memory}

An embodiment of the present invention relates to a method for selecting a group leader using an external wireless shared memory.

In general, an external wireless shared memory device refers to a device capable of recognizing stored data through contactless wireless communication, such as an NFC or RFID tag. A method of notifying the approach of a vehicle to an operator who is working on a railroad track using such a non-contact wireless communication element is disclosed in Korean Patent Publication No. 10-2010-0044339 (published on April 30, 2010).

However, since the above-described conventional technology simply informs the operator whether the vehicle is approaching through the vehicle ID and RF signal, there is a problem in that it is impossible to transmit and receive detailed work information or remotely monitor.

The above-described information disclosed in the background technology of the present invention is only for improving an understanding of the background of the present invention, and thus may include information not constituting the prior art.

An object of the present invention is to provide a group leader selection method using an external wireless shared memory capable of selecting a group leader within a worker group and transmitting and receiving work information and remote monitoring through the leader.

In the method for selecting a group leader using an external wireless shared memory according to an embodiment of the present invention, a plurality of first to N-th user terminals belonging to a group preset in a short-range wireless communication tag of a short-range communication post within a predetermined coverage are sequentially Tagging (S200); Determining, by each of the user terminals, whether a high-priority memory in the memory of the short-range communication post is empty (flag_leader=0) (S300); If the high-priority memory is empty in step S300, selecting a user terminal that identifies that the high-priority memory is empty as a group leader (S400); Transmitting identification information of the user terminal selected as the group leader to the control center (S500); And transmitting job information from the control center to a user terminal selected as the group leader (S600).

In the steps S400 to S600, the position of the group leader is maintained while the first user terminal is tagging the short-range wireless communication tag according to a preset tagging period T _L.

The memory is characterized in that the group leader selection information is reset when a preset reset period T _M is reached.

The tagging period (T _L ) is characterized in that it is shorter than the reset period (T _M ).

Executing a user app before step S200 (S100), and storing identification information of the user terminal in a memory of the short-range communication post according to the tagging order between steps S200 and S300 (S210) And, after the step S600, storing the job information in the user terminal selected as the group leader (S700) may be further included.

In addition, the present invention includes the steps of sequentially tagging a plurality of first to Nth user terminals belonging to a group preset in a short range wireless communication tag of a short range communication post within a predetermined coverage (S200); Storing identification information of the user terminal in a memory of the short-range communication post according to a tagging order (S210); Reading a memory value of the short-range communication post and comparing it with a preset reference in the app of the user terminal (S300); Selecting one of the plurality of user terminals as a group leader according to the preset criterion (S400); Transmitting identification information of the user terminal selected as the group leader to the control center (S500); And transmitting (S600) work information from the control center to a user terminal selected as the group leader.

In step S300, the user terminal initially tagged to the short-range wireless communication tag is selected as the group leader.

In the steps S400 to S600, the status of the group leader is maintained while the user terminal selected as the group leader is tagging the short-range wireless communication tag according to a preset tagging period T _L.

The memory is characterized in that it is reset when the preset reset period T _M is reached.

The tagging period (T _L ) is characterized in that it is shorter than the reset period (T _M ).

According to an embodiment of the present invention, since posts with RFID tags are arranged for each work division unit, a group leader is automatically selected by tagging the post by a worker with a unique ID, so that the group leader always exists in the work group. . Therefore, it is possible to solve problems such as missing information transmission due to the absence of a group leader.

In addition, since it is possible to transmit various work information and remote monitoring from the control sensor through the group leader, accurate work is always possible according to work instructions, and work efficiency and control efficiency are improved.

1 is a schematic diagram showing a main configuration for selecting a group leader according to an embodiment of the present invention.
2 is a schematic diagram illustrating a method of selecting a group leader according to an embodiment of the present invention.
3 is a flowchart illustrating a method of selecting a group leader according to an embodiment of the present invention.
4 and 5 are schematic diagrams illustrating a group leader replacement method according to the group leader selection method of the present invention.

The embodiments of the present invention are provided to more completely describe the present invention to those of ordinary skill in the art, and the following examples may be modified in various other forms, and the scope of the present invention is as follows. It is not limited to the examples. Rather, these embodiments are provided to make the present disclosure more faithful and complete, and to completely convey the spirit of the present invention to those skilled in the art.

In addition, in the following drawings, the thickness or size of each layer is exaggerated for convenience and clarity of description, and the same reference numerals refer to the same elements in the drawings. As used herein, the term "and/or" includes any and all combinations of one or more of the corresponding listed items. In addition, the meaning of "connected" in the present specification means not only the case where the member A and the member B are directly connected, but also the case where the member A and the member B are indirectly connected by interposing a member C between the member A and the member B. do.

The terms used in this specification are used to describe specific embodiments, and are not intended to limit the present invention. As used herein, the singular form may include the plural form unless the context clearly indicates another case. In addition, when used herein, "comprise, include" and/or "comprising, including" refers to the mentioned shapes, numbers, steps, actions, members, elements, and/or groups thereof. It specifies existence and does not exclude the presence or addition of one or more other shapes, numbers, actions, members, elements, and/or groups.

In this specification, terms such as first and second are used to describe various members, parts, regions, layers and/or parts, but these members, parts, regions, layers and/or parts are limited by these terms. It is self-evident. These terms are only used to distinguish one member, component, region, layer or portion from another region, layer or portion. Accordingly, the first member, part, region, layer or part to be described below may refer to the second member, part, region, layer or part without departing from the teachings of the present invention.

Terms relating to space such as “beneath”, “below”, “lower”, “above”, and “upper” are used in conjunction with an element or feature shown in the drawing. Other elements or features may be used for easy understanding. Terms related to this space are for easy understanding of the present invention according to various process conditions or use conditions of the present invention, and are not intended to limit the present invention. For example, if an element or feature in a figure is flipped over, the element or feature described as “bottom” or “below” becomes “top” or “above”. Thus, "bottom" is a concept encompassing "top" or "bottom".

Hereinafter, a method for selecting a group leader using an external wireless shared memory according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present invention, the term'group' means a meeting of predetermined people who share and execute a specific task. 'Leader' refers to a user who receives specific information from the control center within a group and is promised to deliver the information to other users.

1 is a schematic diagram showing a main configuration for selecting a group leader according to an embodiment of the present invention.

As shown in FIG. 1, a method for selecting a group leader using an external wireless shared memory according to an embodiment of the present invention includes a plurality of user terminals 10 to 40, a short-range communication post 100, and a control center 300. It can be applied to the included control system.

The plurality of user terminals 10 to 40 are movable, and the short-range communication post 100 is in a state that has been assigned its position and has been previously transmitted to the user. The control center 300 may be provided adjacent to the short-range communication post 100 or may be provided at a remote location. The short-range communication post 100 has a preset coverage (A, cell radius), and may be disposed one by one for each pre-divisioned unit.

Each of the user terminals 10 to 40 is owned by each user, and a user application (Application, hereinafter referred to as'app') linked to the control system may be installed on the user terminals 10 to 40. The user terminals 10 to 40 may communicate with the short-range communication post 100 through a short-range wireless communication module mounted in the terminal, and communicate with the control center 300 through a wireless communication module.

For example, the short-range wireless communication module may include a radio frequency identification (RFID) or a near field communication (NFC) module. By tagging the user terminals 10 to 40 to a target, information stored in a tag may be read or information stored in the user terminals 10 to 40 may be transmitted. In addition, the wireless communication module may include a communication module such as WiFi or 3G/4G/5G.

The user terminals 10 to 40 may communicate with the short-range communication post 100 to be described later through a short-range wireless communication module without involvement of a separate server (AP or base station). Therefore, it is useful for setting up a cluster leader of ad-hoc-based IoT-based sensor networks (especially IoT applications in shaded areas where GPS access is difficult; e.g., monitoring subway line workers' safety in shaded areas).

When a user enters the preset coverage (A), it is designated as one preset group member, and the user's terminal functions as a designated group member or leader. To this end, each of the user terminals 10 to 40 has its own identification information, which can be automatically designated when the user app is installed.

The identification information may include an ID for identifying each terminal, user information matched to the ID, group designation information for distinguishing a predetermined group, and the like. Unique identification information designated for each of the user terminals 10 to 40 is used to identify each user, and is used as identification information to distinguish users when selecting a group leader. The group leader and the group member are separately assigned a group ID in addition to an individual ID to unique identification information, so that the group to which the user belongs can be identified.

For example, if one group consists of four users, IDs of ID1 to ID4 may be assigned to the four user terminals 10 to 40, respectively. However, this is only an exemplary description, and the number of group members and identification information assigned may be changed as necessary.

In addition, the user terminals 10 to 40 read information stored by tagging the short-range communication post 100, and determine whether or not a group leader exists based on the information. If there is no group leader, the user terminals 10 to 40 may determine whether to select a group leader through a user app according to a preset condition (this will be described later).

The short-range communication post 100 may include a short-range wireless communication tag 110 and a memory 130 for storing data. The short-range communication post 100 is installed at a designated location so that the user terminals 10 to 40 can tag. In the drawings, the short-range communication post 100 is illustrated as an RFID post for convenience, but is not limited thereto.

The short-range wireless communication tag 110 is also referred to as an external wireless shared memory device. The short-range wireless communication tag 110 may be, for example, an RFID tag or an NFC tag. The short-range wireless communication tag 110 only serves to read identification information from the user terminals 10 to 40 when the user terminals 10 to 40 are tagged. That is, the short-range wireless communication tag 110 does not have a separate CPU function or an antenna function for transmission, and is configured as an active type in consideration of a preset cell coverage. The active type has a structure that can supply external power or battery compared to the passive type, so the cell (coverage) radius can be increased by up to 100 meters or more compared to the passive type.

However, the short-range wireless communication tag 110 is electrically connected to the memory 130, and the memory 130 stores data read from the short-range wireless communication tag 110.

The memory 130 may be divided into a high-priority memory 132 and a lower memory 134, which is not a physical division but a control division. The memory 130 simply stores identification information transmitted from the user terminals 10 to 40 in the order of tagging by the user terminals 10 to 40, and data is automatically deleted and reset after a preset time.

The high-priority memory 132 is a memory that stores identification information of the user terminals 10 to 40 that are initially tagged, and the lower memory 134 stores identification information of the user terminals 10 to 40 that are tagged after the initial tagging. Memory. If the identification information is stored in the high-priority memory 132, the flag_leader of the memory 130 may be read as 1 when the user terminals 10 to 40 contact the short-range wireless communication tag 110. Conversely, if the identification information is not stored in the high-priority memory 132, the flag_leader of the memory 130 may be read as 0 when the user terminals 10 to 40 contact the short-range wireless communication tag 110.

When the memory 130 is in a reset state (or a state in which no user has tagged before the initial operation), a'group reader memory reset' state, that is, a'high priority memory = Ø (flag_leader=0)' state ( It can be defined as the state where the upper position is empty). In the initial state of the short-range wireless communication tag 110, a user (eg, user terminal ID1) may enter the coverage A and initially tag the short-range communication post 100. The first tagged user may be designated as a user to whom the group leader's authority is granted through the user app by determining whether there is information stored in the high-priority memory 132. Thereafter, identification information of the user terminals ID2 to ID4 (20 to 40) that are sequentially tagged are stored in the lower memory 134 of the memory.

The group leader authority may be maintained while a corresponding user is tagging the short-range communication post 100 according to a predetermined period. The group leader authority is the authority to exchange work information with the control center 300 on behalf of the group. Accordingly, the group leader is selected from the user terminals 10 to 40, and at the same time, the user terminal ID1 10 of the group leader includes the control center 300 and all information (transmission information: information stored in the short-range wireless communication tag 110, receiving Information: Authority to exchange (register) a command of the control center 300 or a safety alert message, other work information) may be given. However, if the user leaves the coverage (A) or does not periodically tag, the group leader authority is extinguished. When the group leader authority is extinguished, the group leader authority may be sequentially transferred to general workers stored in the memory according to the tagging order.

The control center 300 receives identification information and a group leader designation result from the user terminal ID1 10 that has been granted the group leader authority, and transmits the job information to the user terminal ID1 10 of the user. Since all users have been previously negotiated to receive and share the work information through the group leader, sending the work information to the group leader can share the work information with all users in the group.

Job information includes information of all group members (ID, registration status, number of group members, etc.), group member information management information, message information (coverage (A) departure notification, tagging time notification, safety alert message, etc.), various job notifications And the like.

Hereinafter, a method of selecting a group leader through exemplary drawings will be described in more detail.

2 is a schematic diagram illustrating a method of selecting a group leader according to an embodiment of the present invention. 3 is a flowchart illustrating a method of selecting a group leader according to an embodiment of the present invention.

As shown in FIG. 2, one group consists of four users, and each user may have user terminals ID1 to ID4 (10 to 40). All group members may enter into a predetermined coverage (A) for work, drive a user app, tag each of the short-range wireless communication tags 110 of the short-range communication posts 100, and then negotiate in advance to start work. . In addition, all users are aware that they can be designated as a group leader or a group member, and if they are designated as a group leader, they may be negotiated in advance to share work information with other group members.

The short-range communication post 100 is disposed one by one for each unit (coverage) divided in advance, and the location of the short-range communication post 100 may be known to users in advance. Each user is described as an example that the operation is allowed only within a predetermined location (coverage) of the group to which he belongs.

For example, as shown in FIG. 3, all users may execute an app of the user terminals 10 to 40 (S100) and tag the short-range wireless communication tag 110 (S200). Among them, the user with the user terminal ID1 is the first to tag the short-range wireless communication tag 110, the user with the user terminal ID2 is the second, the user with the user terminal ID3 is the third, and the user with the user terminal ID4 is the fourth. can do.

In this case, the short-range communication post 100 may sequentially store identification information (ID1 to ID4) of the user terminals 10 to 40 tagged to the short-range wireless communication tag 110 in the memory 130 (S210). The identification information of the initially tagged user terminal 10 is stored in the high-priority memory 132 in the memory 130, and the identification information of the tagged user terminals 20 to 40 is then stored in the lower memory in the memory 130 ( 134) can be stored sequentially.

In the app of the user terminals 10 to 40, one of the user terminals 10 to 40 may be selected as a group leader according to a preset condition to grant permission. For example, the preset condition may be set to grant group leader authority to the user terminals 10 to 40 that are tagged first.

Looking at the first tagging user terminal ID1 (10), the group leader has not yet been determined. Accordingly, the user terminal ID1 10 tagging the short-range wireless communication tag 110 and determining whether flag_feader=0 may determine the presence or absence of a group leader.

For the first time, it is determined whether there is information stored in the high-priority memory 132 of the memory 130 by tagging the user terminal ID1 (10), that is, flag_feader = 0 (S300), and if flag_feader = 0, the user terminal ID1 (10) In the user app, the user terminal ID1 10 may be selected as the group leader (S400). Thereafter, the user terminal ID1 10 is notified that the control center 300 has been designated as a group leader (S500).

Since the user terminal ID1 10 selected as the group leader is granted the authority of the group leader, when the control center 300 transmits the above-described job information (S600), the job information can be received and shared with group members.

When the control center 300 transmits the task information to the user terminal that has become the group leader (S600), the task information is stored in the user terminal of the group leader (S700), and the user shares the task information and proceeds with the task. When the operation is completed, the user may terminate the app (S800).

After initial tagging and after the group leader is designated, flag_feader=1, so if other user terminals (ID2 to ID4) are tagged, the user terminals 20 to 40 determine that flag_feader=0 is not in step S300, and their own terminals It is determined whether is the ID designated as the group leader (S310, since the user should periodically tag, the situation in which the group leader re-tags the short-range wireless communication tag periodically occurs even after the group leader is designated).

If the ID of the group leader is determined through the identification information of the tagged user terminal, the position of the group leader is maintained since the tagged terminal is the group leader's terminal. However, if the ID of the user terminal tagged in step S310 is not the ID of the group leader, the user app of the terminal recognizes that it is a member of the group and outputs a message that allows the user to terminate the app without any separate action to allow the user to terminate the app or automatically The app is terminated (S800).

The user who has been granted the authority of the group leader in steps S400 to S600 may maintain the group leader authority while periodically tagging the short-range wireless communication tag 110. While the group leader is maintained, the ID of the corresponding user may be maintained at a higher position (high priority, flag_leader=1) to which the group leader's authority is granted in memory. However, if the user does not retag, the memory is automatically reset after a certain time (S900), the user loses the authority of the group leader, and another group leader is automatically selected. Therefore, it is preferable that the'tagging period (T _L )'for tagging by the user is set shorter than the'reset period (T _M )'in which the memory is reset.

All members of the group including the group leader are confirmed to be located within the coverage (A) of the short-range communication post 100 by periodically tagging the short-range communication post 100. During this check process, the presence or absence of a group leader in the group may be checked by checking the flag_leader value whether the high-priority memory 132 of the memory 130 is empty.

In the app of the user terminals ID1 to ID4, an alarm to guide tagging may be generated at each preset period.

On the other hand, there may be a case where the group leader leaves the coverage (A) to perform movement or other work commands.

4 and 5 are schematic diagrams illustrating a group leader replacement method according to the group leader selection method of the present invention.

As shown in FIG. 4, if the user designated as the group leader leaves the coverage (A) and does not tag the short-range wireless communication tag 110 even after the tagging period (T _L ) passes, the group leader status is Automatically lost.

In more detail, if tagging is not performed because the user terminal ID1 as the group leader leaves the coverage (A), the upper memory 130 on the memory 130 is automatically reset (Ø) and flag_leader = 0.

However, the user terminals ID2 to ID4 of other group members are tagged in the promised tagging period (T _L ), and the user terminals ID2 to ID4 repeat steps S300 to S400 of FIG. 3.

Since flag_leader=0, the first tagging user terminal (eg, ID2) after leaving the user terminal ID1 is stored in the high-priority memory 132 of the memory 130, so it can be set as a group leader by the user app. have.

Therefore, as shown in FIG. 5, the user terminal ID2 is designated as a new group leader (New leader). The identification information of the new group leader is transmitted to the control center 300 by the corresponding user terminal ID2, and the control center 300 can transmit job information to the new group leader. That is, the succession of the group leader takes place.

In the above-described method, the control center 300 may transmit work information to group members through the group leader, and may perform work management through the group leader. When the group leader selection method according to the present embodiment is applied, since the control center 300 does not manage all group members, but only the group leader, task management is simplified and management time is reduced, enabling efficient task and user management. .

In addition, since it is possible to transmit various work information and remote monitoring from the control sensor through the group leader, accurate work is always possible according to work instructions, and work efficiency and control efficiency are improved.

In addition, since posts with RFID tags are arranged for each work division unit, a group leader is automatically selected by tagging the post by a worker having a unique ID, so that a group leader always exists in the work group. Therefore, it is possible to solve problems such as missing information transmission due to the absence of a group leader.

What has been described above is only one embodiment for carrying out the present invention, and the present invention is not limited to the above-described embodiment, and the present invention without departing from the gist of the present invention as claimed in the following claims. Anyone with ordinary knowledge in the field to which it belongs will be said to have the technical spirit of the present invention to the extent that various changes can be implemented.

10-40: user terminal 100: short-range communication post
110: near field communication tag 130: memory
300: control center

Claims (10)

Sequentially tagging a plurality of first to Nth user terminals belonging to a preset group in a short range wireless communication tag of a short range communication post within a preset coverage (S200);
Determining, by each of the user terminals, whether a high-priority memory in the memory of the short-range communication post is empty (flag_leader=0) (S300);
If the high-priority memory is empty in step S300, selecting a user terminal that identifies that the high-priority memory is empty as a group leader (S400);
Transmitting identification information of the user terminal selected as the group leader to a control center (S500); And
And transmitting job information from the control center to a user terminal selected as the group leader (S600). The method of claim 1,
In the steps S400 to S600, the position of the group leader is maintained while the first user terminal is tagging the short-range wireless communication tag according to a preset tagging period (T _L ). The method of claim 2,
The group leader selection method in which the group leader selection information is reset when the memory reaches a preset reset period (T _M ). The method of claim 3,
The tagging period (T _L ) is shorter than the reset period (T _M ). The method of claim 1,
Running the user app before step S200 (S100),
A step (S210) of storing identification information of the user terminal in a memory of the short-range communication post according to a tagging order between steps S200 and S300;
After the step S600, storing the job information in the user terminal selected as the group leader (S700). Sequentially tagging a plurality of first to Nth user terminals belonging to a preset group in a short range wireless communication tag of a short range communication post within a preset coverage (S200);
Storing identification information of the user terminal in a memory of the short-range communication post according to a tagging order (S210);
Reading a memory value of the short-range communication post and comparing it with a preset reference in the app of the user terminal (S300);
Selecting one of the plurality of user terminals as a group leader according to the preset criterion (S400);
Transmitting identification information of the user terminal selected as the group leader to a control center (S500); And
And transmitting job information from the control center to a user terminal selected as the group leader (S600). The method of claim 6,
In the step S300, the group leader selection method in which the user terminal initially tagged to the short-range wireless communication tag is selected as the group leader. The method of claim 6,
In the steps S400 to S600, the position of the group leader is maintained while the user terminal selected as the group leader is tagged to the short-range wireless communication tag according to a preset tagging period (T _L ). The method of claim 8,
The method of selecting a group leader in which the memory is reset when a preset reset period (T _M ) is reached. The method of claim 9,
The tagging period (T _L ) is shorter than the reset period (T _M ).

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