KR101642739B1 - LOCATION CONFIRMATION SERVICE SYSTEM AND METHOD FOR IoT DEVICE - Google Patents

Abstract

The present invention relates to a system and method for locating an Internet device for location information, and a system according to the present invention, when receiving a location confirmation request for a registered Internet device from a first user terminal, And a second user terminal for outputting a beacon signal and searching for a destination Internet device when receiving a search request message from the message service center, wherein the location service server comprises: Based on the result of the search of the object Internet device by the first user terminal. According to the present invention, it is possible to provide a location service for a destination Internet device that does not have a GPS function and / or a mobile communication function using a conventional commercial message service method.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a location service device,

Field of the Invention [0002] The present invention relates to a system and method for providing location information services for object Internet devices, which do not have a GPS function and / or a mobile communication function.

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, 'The Internet of Things', which predicted that the Internet will 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.

Recently, as the IoT market has been activated, services utilizing IoT devices are being developed in various fields. In particular, location-related IoT services such as vehicle location control, logistics tracking, and child-rearing prevention in conjunction with LBS (Location Based Service) are being activated. In order to provide such a position related service, it is possible that a GPS module and communication modules (2G, 3G, 4G, WiFi) are mounted on the IoT device as illustrated in FIG.

FIG. 1 is a view for explaining a method for providing a location-related object Internet service according to the related art.

1, the IoT device 10 includes a GPS module 11 and a mobile communication module 13, and transmits position information acquired through the GPS module 11 to a 2G , 3G, 4G, etc., to the location service server 30 through the mobile communication network 20. However, the IoT device 10 equipped with the GPS module 11 and the mobile communication module 13 is expensive and has to pay monthly communication fees.

Therefore, although it may be possible to mount GPS module and mobile communication module in expensive assets such as a car, expanding to a relatively low-cost asset such as a motorcycle or a bicycle is costly and the market is not activated.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a system and method for providing a location service for an object Internet device having no GPS function and / or mobile communication function.

According to an aspect of the present invention, there is provided an object Internet device location confirmation service system, which, when receiving a location confirmation request for a registered object Internet device from a first user terminal, And a second user terminal for outputting a beacon signal and searching for the object Internet device upon receiving the object Internet device search request message from the message service center.

The location service server may provide the first user terminal with a location confirmation result of the registered destination internet device based on the search result of the destination internet device by the second user terminal.

According to another aspect of the present invention, there is provided a method for locating a destination Internet device, the method comprising: registering a destination Internet device from a first user terminal; receiving, from the first user terminal, Receiving a location information request for location information from the message service center, receiving a location information request for location information from the message service center, transmitting the location information request message to the message service center in response to the location request, Receiving the object Internet device search result, and providing the location information of the registered object internet device to the first user terminal based on the object internet device search result.

The location confirmation request for the object Internet device may include the identification information of the registered object Internet device and the search object location information.

The method may further include selecting the second user terminal to transmit the search request message based on the search target location information.

The object Internet device search request message may be transmitted as a short message.

The object Internet device search request message may be transmitted to the second user terminal located at the base station determined based on the search target location information through a paging channel.

The second user terminal outputs a beacon signal upon receipt of the object Internet device search request message and receives object Internet device identification information transmitted from the object internet device in response to the beacon signal.

The destination Internet device search request message may include identification information of the destination Internet device for which location confirmation is requested.

The second user terminal can transmit the object Internet device discovery message if the object internet device identification information transmitted from the object internet device corresponds to the beacon signal and the identification information of the object internet device for which the position confirmation is requested.

The method includes collecting object Internet device identification information transmitted from the object Internet device corresponding to the beacon signal from the second user terminal, and transmitting the object Internet device identification information and the location confirmation collected from the second user terminal And comparing the identification information of the registered object Internet device with the registered object Internet device.

According to another aspect of the present invention, there is provided an apparatus for checking the location of a destination Internet device, comprising: a registration unit for registering a destination Internet device from a first user terminal; And a second user terminal for receiving the location information request message transmitted from the message service center, wherein the location information request message is transmitted from the first user terminal to the second user terminal, A management unit for receiving the object Internet device search result, and a reporting unit for providing the location information of the registered object internet device to the first user terminal based on the search result of the object internet device.

The management unit may select the second user terminal to transmit the object Internet device search request message based on the search target location information.

Wherein the management unit collects the object Internet device identification information transmitted from the object Internet device in response to the beacon signal from the second user terminal and transmits the object Internet device identification information collected from the second user terminal The identification information of the registered object Internet device can be compared.

According to the present invention, it is possible to provide a location service for a destination Internet device that does not have a GPS function and / or a mobile communication function using a conventional commercial message service method.

FIG. 1 is a view for explaining a method for providing a location-related object Internet service according to the related art.
2 is a diagram for explaining an object Internet device location service system according to an embodiment of the present invention.
3 is a diagram showing the configuration of the location service server of FIG. 2 in more detail.
4 is a flowchart illustrating a method for locating an object Internet device according to an exemplary embodiment of the present invention.
FIG. 5 is a flowchart illustrating an object Internet device location service according to another embodiment of the present invention. Referring to FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

2 is a diagram for explaining an object Internet device location service system according to an embodiment of the present invention.

2, the object Internet device location service system according to the present invention includes a first user terminal 100, a second user terminal 200, a location service server 300, a communication network 400, (Hereinafter referred to as " IoT device ") 500.

The communication network 400 may be a local area network (LAN), a metropolitan area network (MAN), a wide area network (WAN), the Internet, 2G, 3G, 4G, LTE mobile communication network, Wi-Fi, WiBro, satellite communication network, etc. The communication method is not limited to wired and wireless, and any communication method may be used. That is, the communication network 400 may include any wired / wireless network capable of connecting people, things, and services.

The communication network 400 may include an exchange 410 and a message service center 430.

The message service center 430 may provide a message service for transmitting the IoT device search request message transmitted from the location service server 300 to the second user terminal 200 through the exchange 410. [

The message service center 430 may include a Short Message Service Center (SMSC) and / or a Cell Broadcasting Service Center (CBSC). The SMSC supports a method of transmitting an IoT device search request message to the second user terminal 200 designated by the location service server 300. The CBSC supports a method of transmitting an IoT device search request message to a paging channel to all the second user terminals 200 located in the base station corresponding to the designated location in the location service server 300.

The exchange 410 transmits the IoT device search request message transmitted from the message service center 430 to the second user terminal 200.

The IoT device 500 may support a Wi-Fi, Bluetooth local area network (WLAN) as an apparatus attached to an object such as an automobile, a motorcycle, a bicycle, or the like. Particularly, the IoT device 500 according to the present invention can use a relatively low-cost device that does not support the GPS function and / or the mobile communication function.

When the IoT device 500 receives the beacon signal output from the second user terminal 200, the IoT device 500 may transmit the IoT device identification information corresponding thereto. The IoT device identification information may be a Mac address or a product serial number uniquely assigned to the IoT device 500, for example. Of course, in addition to a Mac address or a product serial number, if it is uniquely assigned to the corresponding IoT device 500, it can be used as IoT device identification information.

The first user terminal 100 may be implemented as a smart phone, a tablet computer, a notebook computer, a desktop computer, or the like as an information communication terminal used by a user (hereinafter, IoT device holder) holding the IoT device 500. The IoT device holder includes not only the user who owns the IoT device 500 but also a user who leases it. The IoT device holder also includes a user who is entrusted with management from a person who owns the IoT device 500. [

The IoT device holder can register the IoT device 500 in the location service server 300 using the first user terminal 100. [ The IoT device registration information and the IoT device holder information of the registration target IoT device 500 may be stored in association with each other.

The second user terminal 200 can be implemented as an information communication terminal used by a user who supports the IoT device location service, such as a smart phone or a tablet computer, and an information communication terminal supporting a GPS function.

The second user terminal 200 may be provided with an app for supporting the IoT device location service. When the second user terminal 200 receives the IoT device search request message, the IoT device location confirmation application is executed to output a beacon signal to the vicinity of the second user terminal 200. In response to the beacon signal from the IoT device 500 Lt; RTI ID = 0.0 > IoT < / RTI > device identification information.

The IoT device location confirmation application can cause the second user terminal 200 to transmit the GPS information corresponding to the location where the IoT device identification information and the IoT device identification information are received to the location service server 300. [ In this case, the second user terminal 200 outputs a beacon signal and can transmit all the received IoT device identification information to the location service server 300.

Also, according to the embodiment, when the IoT device location confirmation application receives the IoT device identification information matching the search target IoT device identification information, the second user terminal 200 transmits an IoT device discovery report message to the location service server 300 It is also possible to implement it.

The IoT device location confirmation application is executed in the background in the second user terminal 200, and when the IoT device search request message is received, the above described operation can be executed. Of course, if a push alarm for executing the IoT device location confirmation application is transmitted to the second user terminal 200 and the IoT device search request message is received while the user is executing the IoT device location confirmation application, It is also possible to do. Of course, the IoT device location confirmation application may be executed in the second user terminal 200 in various ways and the IoT device location search may be performed by the above-described method.

The location service server 300 transmits an IoT device search request message to the second user terminal 430 via the message service center 430 if the IoT device 500 registered in the location service requests a location confirmation from the IoT device holder 200). The location service server 300 may report the IoT device location confirmation result to the IoT device holder based on the IoT device search result in the second user terminal 200. [

3 is a diagram showing the configuration of the location service server of FIG. 2 in more detail.

3, the location service server 300 according to the present invention may include a registration unit 310, a reception unit 320, a management unit 330, and a reporting unit 340.

The registration unit 310 can register the IoT device 500 of the IoT device holder from the first user terminal 100. [ The IoT device holder information and the IoT device identification information may be registered. To this end, the registering unit 310 may provide a page for service subscription and an page for IoT device registration to the first user terminal 100. When the IoT device location service application is installed in the first user terminal 100, the registration unit 310 may perform the service registration and the IoT device registration procedure in cooperation with the corresponding application.

The accepting unit 320 may accept the IoT device location confirmation request from the first user terminal 100. [ The IoT device holder can request the location service server 300 to confirm the location of the IoT device 500 when it is necessary to request the location of the automobile, the motorcycle, the bicycle, etc. to which the IoT device 500 is attached. The accepting unit 320 may provide a page to the first user terminal 100 to request a location confirmation or may request a location confirmation request in conjunction with the oT device location service application. Specifically, the location confirmation request may include information on the IoT device identification information and the search target location. When the IoT device location confirmation service application installed in the first user terminal 100 is executed, the IoT device list registered by the IoT device holder can be displayed on the screen. The IoT device holder can select the target IoT device from the IoT device list and then select the target location to search. The search target location may be set as a building address or the like, or may be set as Yeoksam-dong or Gangnam Station intersection. Of course, when the first user terminal 100 does not have an IoT device location service application installed therein, the first user terminal 100 accesses the location service server 300 to provide location information The IoT device identification information and the search target location for the confirmation request can be selected.

The management unit 330 transmits an IoT device search request message to the message service center 430 in response to the location request from the first user terminal 100 and receives the IoT device search request message transmitted from the message service center 430 can do.

The management unit 330 can collect the IoT device identification information transmitted from the second user terminal 200 and confirm the location of the IoT device 500 to be searched. Of course, the management unit 330 may receive the IoT device discovery report message from the second user terminal 200 according to the embodiment.

The management unit 330 can receive and manage its own location information from the second user terminal 200 at normal times. For example, the second user terminal 200 periodically provides its own location information or provides its own location information whenever a predetermined event occurs (e.g., when the second user terminal 200 performs a handover) It can also be implemented. Here, the GPS information acquired through the GPS function provided in the second user terminal 200 may be used as the location information.

If there is a second user terminal 200 located at the requested location from the first user terminal 100, the management unit 330 may transmit the IoT device search request message to the second user terminal 200 as a short message have.

On the other hand, when the second user terminal 200 located at the requested location from the first user terminal 100 is not recognized, the management unit 330 may transmit the IoT device search request message in the CBSC manner.

The reporting unit 340 may receive the IoT device search result from the second user terminal 200 and may report the location confirmation result to the first user terminal 100 based on the search result. The location confirmation result may include the IoT device identification information and the GPS information of the location where the IoT device is searched.

4 is a flowchart illustrating a method for locating an object Internet device according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the first user terminal 100 may access the location service server 300 and register the IoT device 500 held by the IoT device holder (S410). The IoT device registration can be stored in association with the IoT device identification information (Mac address, product serial number, etc.) of the registration target IoT device 500 and the IoT device holder information.

The IoT device holder can request the location service server 300 to confirm the position of the IoT device 500 when it is necessary to request the location of the automobile, the motorcycle, the bicycle, etc. to which the IoT device 500 is attached (S420) . In step S420, the IoT device holder can select the search target IoT device 500 on the IoT device location confirmation service application installed in the first user terminal 100, and select the search target location. Of course, the first user terminal 100 may access the location service server 300 and select a search target IoT device and a search target location on the location confirmation request page.

Next, the location service server 300 may transmit an IoT device search request message to the message service center 430 (S430). In step S430, the SMSC method or the CBSC method may be selected as the IoT device search request message. If it is determined that the second user terminal 200 is located at the search target location, the location service server 300 transmits the IoT device search request message to the corresponding user service terminal 200 through the SMSC method to the message service center 430 Can be requested. If it is not found that the second user terminal 200 is located at the search target location, the message service center 430 may transmit the IoT device search request message through the CBSC method. Of course, even when the second user terminal 200 is located at the search target position, if the search target location is relatively wide, the IoT device search request message may be transmitted using the CBSC method.

In step S450, the message service center 430 transmits an IoT device search request message to the switch 410 in step S440 and transmits the IoT device search request message to the second user terminal 200 through the SMSC method or the CBSC method.

Next, when the second user terminal 200 receives the IoT device search request message from the switchboard 410, the second user terminal 200 performs the IoT device search in the vicinity (S460). More specifically, upon receiving the IoT device search request message, the second user terminal 200 executes the IoT device location confirmation application to output a beacon signal around the second user terminal 200 (S461) IoT device identification information transmitted in response to the beacon signal from the IoT device 500 (S463).

Then, the IoT device location confirmation application transmits the IoT device search result including the GPS information corresponding to the location where the IoT device identification information and the IoT device identification information are received to the location service server 300 by the second user terminal 200 (S470). In step S470, the IoT device location confirmation application may cause the second user terminal 200 to output the beacon signal and transmit all the IoT device identification information received to the location service server 300. [ The GPS position information is obtained in a GPS module (not shown) of the second user terminal 200, and the information obtained when outputting the beacon signal or when receiving the IoT device identification information can be used.

In step S470, the IoT device search result may be transmitted to the location service server 300 in the form of a short message through the exchange 410 and the message service center 430. [ Of course, it is also possible to transmit through the data communication network without going through the exchange 410 and the message service center 430.

Lastly, the location service server 300 may collect the IoT device search result from the second user terminal 200, generate the IoT device location check result based on the collected IoT device location information, and provide the result to the first user terminal 100 (S480) .

In the present embodiment, the location service server 300 does not need to include the IoT device identification information when requesting the second user terminal 200 to search for the IoT device, and may be used when performing location verification for the IoT device have.

FIG. 5 is a flowchart illustrating an object Internet device location service according to another embodiment of the present invention. Referring to FIG.

In the embodiment of FIG. 5, steps S510 to S560 may be performed corresponding to steps S410 to S460 in the embodiment of FIG. However, the IoT device search request may include the IoT device identification information to be searched in steps 530 to S550.

The second user terminal 200 performs IoT device search to acquire IoT device identification information from the neighbor IoT device 500 (S560).

If the second user terminal 200 receives the IoT device identification information corresponding to the IoT device identification information included in the IoT device search request (S565-Y), the second user terminal 200 transmits the IoT device discovery report message To the location service server 570 (S570). The IoT device discovery report message may include IoT device identification information and GPS location information.

The IoT device discovery report message may be delivered to the location service server 300 in the form of a short message through the exchange 410 and the message service center 430 in step S570. Of course, it is also possible to transmit through the data communication network without going through the exchange 410 and the message service center 430.

Finally, the location service server 300 may generate the IoT device location confirmation result based on the IoT device discovery report message and provide the IoT device location confirmation result to the first user terminal 100 (S580).

Embodiments of the present invention include a computer-readable medium having program instructions for performing various computer-implemented operations. The medium records a program for executing the above-described method for locating the object Internet device. The medium may include program instructions, data files, data structures, etc., alone or in combination. Examples of such media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD and DVD, programmed instructions such as floptical disk and magneto-optical media, ROM, RAM, And a hardware device configured to store and execute the program. Or such medium may be a transmission medium, such as optical or metal lines, waveguides, etc., including a carrier wave that transmits a signal specifying a program command, data structure, or the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or 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, Of the right.

Claims (15)

delete Registering the object Internet device from the first user terminal,
Receiving a location confirmation request for the registered object Internet device from the first user terminal,
Transmitting an object Internet device search request message to a message service center in response to the location request;
Receiving a search result of the object Internet device from the second user terminal that has received the object internet device search request message transmitted from the message service center, and
Providing a location confirmation result of the registered object Internet device to the first user terminal based on the object internet device search result
Lt; / RTI >
The location request for the < RTI ID = 0.0 >
The identification information of the registered object Internet device and the search target location information,
Wherein the object Internet device search request message is transmitted to the second user terminal located at a base station determined based on the search object location information through a paging channel. delete 3. The method of claim 2,
Further comprising the step of selecting the second user terminal to transmit the object Internet device search request message based on the search target location information,
Wherein the object Internet device search request message is transmitted as a short message. delete 3. The method of claim 2,
Wherein the second user terminal comprises:
And outputting a beacon signal upon receipt of the object Internet device search request message and providing object Internet device identification information transmitted from the object internet device in response to the beacon signal. The method of claim 6,
Wherein the object Internet device search request message includes identification information of the object Internet device requested to be located,
The second user terminal transmits the beacon signal to the object internet device, which transmits the beacon Internet device discovery message if the object internet device identification information transmitted from the object internet device matches the identification information of the object internet device requested to be located, Location service method. The method of claim 6,
Collecting the object Internet device identification information transmitted from the object Internet device corresponding to the beacon signal from the second user terminal, and
Comparing the object internet device identification information collected from the second user terminal with the identification information of the registered object internet device for which position confirmation is requested
Further comprising the steps of: A registration unit for registering the object Internet device from the first user terminal,
A reception unit for receiving a location confirmation request for the registered object Internet device from the first user terminal,
And a management server for receiving a search result of the object Internet device from the second user terminal that has received the object internet device search request message transmitted from the message service center, , And
And providing a result of the location of the registered object Internet device to the first user terminal based on the object internet device search result,
Lt; / RTI >
Wherein the location information request to the destination Internet device includes identification information of the registered destination Internet device and location information of the destination to be searched,
Wherein the object Internet device search request message is transmitted to the second user terminal located at a base station determined based on the search object location information through a paging channel. delete The method of claim 9,
Wherein,
Selects the second user terminal to transmit the object Internet device search request message based on the search target location information,
Wherein the object Internet device search request message is transmitted as a short message. delete The method of claim 9,
Wherein the second user terminal comprises:
Upon receipt of the object Internet device search request message, outputs a beacon signal and provides the object Internet device identification information transmitted from the object Internet device in response to the beacon signal. The method of claim 13,
Wherein the object Internet device search request message includes identification information of the object Internet device requested to be located,
The second user terminal transmits the beacon signal to the object internet device, which transmits the beacon Internet device discovery message if the object internet device identification information transmitted from the object internet device matches the identification information of the object internet device requested to be located, Location location service device. The method of claim 13,
Wherein,
Collecting the object Internet device identification information transmitted from the object Internet device in response to the beacon signal from the second user terminal and transmitting the object Internet device identification information collected from the second user terminal to the registered object An object Internet device location service device that compares identification information of an Internet device.

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