KR102305051B1 - Device ID management method in disposable Internet of Things environment - Google Patents

Abstract

Provided is a method for managing a device ID in a disposable Internet of things (IoT) environment. In accordance with one embodiment of the present invention, a device ID management method comprises: a step in which an edge/fog gateway is registered to an IoT cloud server; a step in which the registered edge/fog gateway registers a deployed disposable IoT device and assigns an ID; and a step in which when an existing disposable IoT device is disposed while an IoT service is being provided, the registered edge/fog gateway registers a new disposable IoT device and re-maps an ID. Accordingly, the loss of continuity of an IoT service caused by unexpected disposal of one-time disposable IoT devices which have been increasingly used in various IoT environments and fields can be resolved.

Description

Device ID management method in Disposable IoT environment {Device ID management method in disposable Internet of Things environment}

The present invention relates to a method of managing an ID of an IoT device, and more particularly, to a method of managing a device ID in a Disposable IoT environment.

Disposable IoT infrastructure environment provides interconnectivity between various IoT standards-based cloud servers (IoT Cloud Server) to provide existing IoT services and Disposable IoT devices and an edge/fog gateway to manage devices, It consists of an ultra-small Disposable IoT Device that can be used and thrown away at a low price.

As shown in FIG. 1 , each micro-disposable IoT device communicates with an edge/fog gateway by using a heterogeneous network and protocol with mutual connectivity.

The edge/fog gateway manages the underlying Disposable IoT devices, provides simple-level applications and services by itself, and provides device data to various standards-based IoT cloud servers.

Finally, the IoT cloud server provides large-scale IoT services across various application fields based on data from edge/fog gateways and devices connected to the bottom.

In such a Disposable IoT environment, in the process of providing large-scale IoT services, the Disposable IoT device in operation may be discarded in real time, and a new device may be reinstalled to replace the existing discarded device. The connectivity of the existing device referenced by is permanently lost, resulting in a situation in which it is impossible to maintain service continuity.

Therefore, even in a situation where the Disposable IoT device is discarded in real time and a new device is reinstalled to replace the existing discarded device, it is required to find a way to maintain service continuity in terms of infrastructure.

The present invention has been devised to solve the above problems, and an object of the present invention is to solve the problem of loss of continuity of IoT services due to the unexpected disposal of one-time Disposable IoT devices, which are increasingly used in various IoT environments and fields. It is to provide a method for managing device IDs in the infrastructure that can be used.

According to an embodiment of the present invention for achieving the above object, a device ID management method includes: registering an edge/fog gateway with an IoT cloud server; registering, by the registered edge/fog gateway, the distributed Disposable IoT device and assigning an ID; and when an existing Disposable IoT device is discarded while providing an IoT service, the registered edge/fog gateway registers a new Disposable IoT device and re-mapping IDs.

And the step of registering the Disposable IoT device and allocating ID may include, by the edge/fog gateway, performing a registration procedure of the Disposable IoT device distributed in the gateway; allocating, by the edge/fog gateway, a unique device identification ID to the registered Disposable IoT device; and making, by the edge/fog gateway, a registration request of the Disposable IoT device to the IoT cloud server by mapping the edge/fog gateway ID and the device identification ID.

And in the step of making a registration request of a Disposable IoT device to the IoT cloud server, the edge/fog gateway maps the edge/fog gateway ID assigned from the IoT cloud server, the device identification ID assigned within the gateway, and the device original ID. A (Mapping) ID is generated and a registration request of a Disposable IoT device can be made to the IoT cloud server by using the generated mapping ID.

Also, the IoT cloud server may convert sensing data received from the Disposable IoT device to suit a preset resource model and store it according to a mapping ID.

In addition, the preset resource model is divided by edge/fog gateway ID, and a container in which sensing data is to be stored may be designated for each device identification ID.

In addition, in the registration and ID remapping of the new Disposable IoT device, when the existing Disposable IoT device is discarded, the edge/fog gateway registers the new Disposable IoT device in the gateway and remaps the ID to maintain service continuity. can do.

In addition, the registration and ID remapping of the new Disposable IoT device includes: if the existing Disposable IoT device is discarded while providing the IoT service, the edge/fog gateway performs a registration procedure of the new Disposable IoT device in the gateway; and re-mapping, by the edge/fog gateway, the device identification ID unique to the registered new Disposable IoT device to the discarded existing device identification ID.

In addition, the remapping to the device identification ID includes deleting the device original ID of the existing Disposable IoT device connected to the mapping ID so that the discarded existing Disposable IoT device can be replaced by the new Disposable IoT device, and the device of the new Disposable IoT device. The original ID can be remapped to the mapping ID.

In addition, in the registration and ID remapping steps of the new Disposable IoT device, when the existing Disposable IoT device is discarded, the process of registering the new Disposable IoT device to the IoT cloud server by the edge/fog gateway can be omitted to maintain service continuity. have.

Meanwhile, according to another embodiment of the present invention, a device ID management system includes: a Disposable IoT device that transmits sensing data every preset period according to an IoT service; Edge/fog gateway that registers one or more distributed Disposable IoT devices, allocates IDs, and registers new Disposable IoT devices when discarding existing Disposable IoT devices, and re-mapping IDs; and an IoT cloud server that registers one or more edge/fog gateways.

And according to another embodiment of the present invention, a device ID management method includes: registering, by an edge/fog gateway, a distributed Disposable IoT device, and allocating an ID; and when an existing Disposable IoT device is discarded while providing an IoT service, the registered edge/fog gateway registers a new Disposable IoT device and re-mapping IDs.

In addition, according to another embodiment of the present invention, a device ID management system includes: a Disposable IoT device that transmits sensing data every preset period according to an IoT service; and an edge/fog gateway that registers one or more distributed Disposable IoT devices, allocates IDs, and registers new Disposable IoT devices to re-mapping IDs when existing Disposable IoT devices are discarded. .

As described above, according to the embodiments of the present invention, it is possible to solve the problem of loss of continuity of the IoT service due to the unexpected disposal of the one-time disposable IoT device, which is being used in various IoT environments and fields.

1 is a diagram provided for the description of an existing Disposable IoT infrastructure environment;
2 is a view provided for the description of the resourceization-based service provision structure of the IoT device;
3 is a diagram provided for the description of a device ID management system in a Disposable IoT environment according to an embodiment of the present invention;
4 is a diagram provided for the description of Disposable IoT device initial registration and ID assignment procedure;
5 is a diagram provided for the description of a new Disposable IoT device 100b replacement scenario when disposing of a Disposable IoT device;
6 is a diagram provided for the explanation of a new Disposable IoT device 100b ID remapping procedure when disposing of a Disposable IoT device;
7 is a diagram provided for explaining the configuration of a Disposable IoT device according to an embodiment of the present invention, and
8 is a diagram provided to explain the configuration of an edge/fog gateway according to an embodiment of the present invention.

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

2 is a diagram provided to explain the resourceization-based service provision structure of the IoT device.

As shown in FIG. 2, the existing IoT standard-based cloud server such as oneM2M expresses information about various gateways and devices connected underneath in the form of resources, and the service collects and provides data by referring to the resource.

In this way, in order to express devices in the form of resources within the infrastructure, it is common to assign and manage a unique identifier (ID) for each device. Even if is discarded, the identification ID of the device is not reused.

The service providing data by referring to the identification ID of the currently operating device can maintain service continuity only by manually re-mapping the identification ID of a newly added device after the device is discarded.

3 is a diagram provided to explain a device ID management system (hereinafter, collectively referred to as a 'device ID management system') in a Disposable IoT environment according to an embodiment of the present invention.

The present device ID management system grants the same identification ID so that a new device can replace the discarded Disposable IoT device 100 in terms of infrastructure, so that service continuity can be maintained.

To this end, the present device ID management system may include the Disposable IoT device 100 , the edge/fog gateway 200 , and the IoT cloud server 300 .

The Disposable IoT device 100 is an IoT device that can be used and disposed of once at a low price, and may transmit sensing data at predetermined intervals according to an IoT service.

The edge/fog gateway 200 may provide connectivity between an IoT device and an IoT platform and provide a function for device management.

Specifically, the edge/fog gateway 200 registers one or more distributed Disposable IoT devices 100, assigns IDs, and registers a new Disposable IoT device 100b when the existing Disposable IoT device 100a is discarded. In this way, the ID can be re-mapping (Re-mapping).

For example, the edge/fog gateway 200 maps the unique identification ID of the disposable IoT device 100 connected to the lower part to a unique ID within the gateway as shown in FIG. It can be managed and registered in the cloud server based on this mapping ID to provide IoT services.

The IoT cloud server 300 is a server that provides a cloud-based platform that provides connectivity between the edge/fog gateway 200 and devices to provide IoT services.

Specifically, the IoT cloud server 300 registers one or more edge/fog gateways 200 to receive sensing data every preset period from the Disposable IoT devices 100 connected through the edge/fog gateway 200. can

In addition, the IoT cloud server 300 may convert sensing data received from the Disposable IoT device 100 to suit a preset resource model and store it according to a mapping ID.

Here, the configuration of the mapping ID may be implemented as {Cloud_ID}/{Edge/Fog_Gateway_ID}/{Device_ID}.

In addition, the preset resource model is divided by edge/fog gateway ID, and a container in which sensing data is to be stored may be designated for each device identification ID.

For example, the container in which the sensing data is to be stored may store the sensing data in a path such as http://<domain_address>/C-ID1/E-ID1/D-ID1 according to the mapping ID.

4 is a diagram provided for the description of the Disposable IoT device 100 initial registration and ID assignment procedure.

The edge/fog gateway 200 registered in the IoT cloud server 300 may register the distributed Disposable IoT device 100 and assign an ID.

Specifically, after the edge/fog gateway 200 is initially registered with the IoT cloud server 300 (S410), when the Disposable IoT device 100 is distributed (installed) (S420), the Disposable distributed within the gateway By performing the registration procedure of the IoT device 100 (S430), allocating a unique device identification ID to the registered Disposable IoT device 100 (S440), and mapping the edge/fog gateway ID and the device identification ID, IoT A request for registration of the Disposable IoT device 100 may be made to the cloud server 300 (S450).

Here, when the edge/fog gateway 200 makes a registration request for the Disposable IoT device 100 to the IoT cloud server 300 , the edge/fog gateway ID allocated from the IoT cloud server 300 is allocated within the gateway A mapping ID is generated by mapping the device identification ID and the device original ID, and a registration request of the Disposable IoT device 100 is made to the IoT cloud server 300 using the generated mapping ID.

5 is a diagram provided to explain a replacement scenario of a new Disposable IoT device 100b when the Disposable IoT device 100 is discarded.

FIG. 5 shows a scenario in which the Disposable IoT device 100a operated on the Disposable IoT infrastructure ID structure shown in FIG. 3 is discarded and a new Disposable IoT device 100b replaces it.

This device ID management system is, as in the scenario illustrated in FIG. 5, in order to maintain continuity of the service that provided data with reference to the identification ID of the currently operating device, 1. When 100a) is discarded, 2. When a new Disposable IoT device 100b replaces the existing Disposable IoT device 100a, 3. A newly installed Disposable IoT device 100b can replace the discarded Disposable IoT device 100a In order to do this, the Device Origin ID of the discarded Disposable IoT device 100a connected with the Device Mapping ID may be deleted and the Device Origin ID of the new Disposable IoT device 100b may be re-mapping to operate.

6 is a diagram provided to explain the ID remapping procedure of the new Disposable IoT device 100b when the Disposable IoT device 100a is discarded.

The edge/fog gateway 200 registered in the IoT cloud server 300, as described above with reference to FIG. 5, when disposing the existing Disposable IoT device 100a while providing the IoT service, the new Disposable IoT device 100b You can register and re-mapping IDs.

Specifically, the edge/fog gateway 200 registers a new Disposable IoT device 100b within the gateway to maintain service continuity when the existing Disposable IoT device 100a is discarded, and may remap IDs. .

For example, when the edge/fog gateway 200 is providing an IoT service (S660), and the existing Disposable IoT device 100a is discarded (S670), a new Disposable IoT device 100b is added (S680), A registration procedure of the new Disposable IoT device 100b may be performed in the gateway (S690), and a device identification ID unique to the registered new Disposable IoT device 100b may be remapped to the discarded existing device identification ID (S695). ).

At this time, the edge / fog gateway 200, when remapping to the device identification ID, the existing Disposable IoT device connected to the mapping ID so that the new Disposable IoT device 100b can replace the discarded existing Disposable IoT device 100a ( The device original ID of 100a) is deleted, and the device original ID of the new Disposable IoT device 100b is remapped to the mapping ID.

In addition, the edge/fog gateway 200 remaps the device identification ID unique to the registered new Disposable IoT device 100b to the discarded existing device identification ID when the existing Disposable IoT device 100a is discarded, but the new Disposable IoT By omitting the process of registering the device 100b with the IoT cloud server 300, continuity of the service can be maintained without changing the reference content of the existing IoT service.

7 is a diagram provided to explain the configuration of the Disposable IoT device 100 according to an embodiment of the present invention.

Referring to FIG. 7 , the Disposable IoT device 100 may include a sensor unit 110 , a first communication unit 120 , and a first processor 230 .

The sensor unit 110 is provided to collect data necessary to support the IoT service, and the first communication unit 120 includes a communication module for connecting to the first communication unit 110 .

The first processor 130 may collect sensing data through the sensor unit 110 every preset sensing period, and transmit it to the edge/fog gateway 200 through the first communication unit 120 . In this case, a mapping ID may be added to the transmitted sensing data and transmitted.

8 is a diagram provided to explain the configuration of the edge/fog gateway 200 according to an embodiment of the present invention.

Referring to FIG. 8 , the edge/fog gateway 200 may include a second communication unit 210 , a second processor 220 , and a second storage unit 230 .

The second communication unit 210 may be connected to the first communication unit 110 and the IoT cloud server 300 to provide connectivity between the IoT device and the IoT platform.

The second storage unit 230 is a storage medium for storing programs and data necessary for the operation of the second processor.

The second processor 220 maps the unique identification ID of the Disposable IoT device 100 connected in the Disposable IoT infrastructure to a unique ID within the gateway and manages it by itself, and registers the IoT with the cloud server based on the mapping ID. service can be provided.

In addition, the second processor 220 registers one or more distributed Disposable IoT devices 100, assigns IDs, and when discarding the existing Disposable IoT device 100a, registers a new Disposable IoT device 100b, ID can be re-mapping (Re-mapping).

Specifically, when the Disposable IoT device 100 is distributed (installed) after being initially registered with the IoT cloud server 300 , the second processor 220 registers the Disposable IoT device 100 distributed within the gateway. The procedure is performed, a unique device identification ID is assigned to the registered Disposable IoT device 100, and an edge/fog gateway ID and a device identification ID are mapped to the IoT cloud server 300 of the Disposable IoT device 100. You can request registration.

In addition, when the existing Disposable IoT device 100a is discarded, the second processor 220 may register a new Disposable IoT device 100b in the gateway and remap IDs in order to maintain service continuity.

For example, if the existing Disposable IoT device 100a is discarded while providing the IoT service, the second processor 220 adds a new Disposable IoT device 100b and a new Disposable IoT device 100b in the gateway. may perform the registration procedure of , and remap the device identification ID unique to the registered new Disposable IoT device 100b to the discarded existing device identification ID.

At this time, the second processor 220, when remapping to the device identification ID, the existing Disposable IoT device 100a connected to the mapping ID so that the new Disposable IoT device 100b can replace the discarded existing Disposable IoT device 100a. ) is deleted, and the device original ID of the new Disposable IoT device 100b is remapped to the mapping ID.

And when the existing Disposable IoT device 100a is discarded, the second processor 220 remaps the device identification ID unique to the registered new Disposable IoT device 100b to the discarded existing device identification ID, but the new Disposable IoT device By omitting the process of registering (100b) to the IoT cloud server 300, the continuity of the service can be maintained without changing the reference contents of the existing IoT service.

On the other hand, it goes without saying that the technical idea of the present invention can also be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical ideas according to various embodiments of the present invention may be implemented in the form of computer-readable codes recorded on a computer-readable recording medium. The computer-readable recording medium may be any data storage device readable by the computer and capable of storing data. For example, the computer-readable recording medium may be a ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, or the like. In addition, the computer-readable code or program stored in the computer-readable recording medium may be transmitted through a network connected between computers.

In addition, although preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the claims Various modifications are possible by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

100: Disposable IoT Device
110: sensor unit
120: first processor
130: first communication unit
200: Edge / Fog (Edge / Fog) gateway
210: second communication unit
220: second processor
230: second storage unit
300: IoT Cloud Server

Claims (12)

The edge/fog gateway is registered with the IoT cloud server;
registering, by the registered edge/fog gateway, the distributed Disposable IoT device and assigning an ID; and
When an existing Disposable IoT device is discarded while providing an IoT service, the registered edge/fog gateway registers a new Disposable IoT device, and re-mapping IDs;
The steps of registration and ID assignment of Disposable IoT devices are:
performing, by the edge/fog gateway, a registration procedure of a Disposable IoT device distributed within the gateway;
allocating, by the edge/fog gateway, a unique device identification ID to the registered Disposable IoT device; and
Including, by the edge/fog gateway, mapping the edge/fog gateway ID and the device identification ID to request the registration of the Disposable IoT device to the IoT cloud server;
The step of making a registration request of a Disposable IoT device to the IoT cloud server is:
The edge/fog gateway creates a mapping ID by mapping the edge/fog gateway ID assigned from the IoT cloud server, the device identification ID assigned within the gateway, and the device original ID,
Using the generated mapping ID, make a request to register a Disposable IoT device to the IoT cloud server,
The registration and ID remapping steps of a new Disposable IoT device are:
When an existing Disposable IoT device is discarded, in order to maintain service continuity, the Edge/Fog Gateway registers a new Disposable IoT device within the gateway, remaps IDs,
The registration and ID remapping steps of a new Disposable IoT device are:
performing, by the edge/fog gateway, a registration procedure of a new disposable IoT device within the gateway when the existing disposable IoT device is discarded while providing the IoT service; and
Remapping, by the edge/fog gateway, the device identification ID unique to the registered new Disposable IoT device to the discarded existing device identification ID;
The remapping to the device identification ID comprises:
Delete the device original ID of the existing Disposable IoT device connected to the mapping ID so that a new Disposable IoT device can replace the discarded existing Disposable IoT device, and remap the device original ID of the new Disposable IoT device to the mapping ID,
The registration and ID remapping steps of a new Disposable IoT device are:
When the existing Disposable IoT device is discarded, in order to maintain service continuity, the edge/fog gateway remaps the device identification ID unique to the registered new Disposable IoT device to the discarded existing device identification ID. Device ID management method, characterized in that by omitting the process of registering to the cloud server.
delete delete The method according to claim 1,
IoT cloud server,
Device ID management method, characterized in that the sensing data received from the Disposable IoT device is converted to suit a preset resource model and stored according to the mapping ID.
5. The method according to claim 4,
The preset resource model is
Device ID management method, characterized in that it is classified by edge/fog gateway ID, and a container in which sensing data is to be stored is designated for each device identification ID.
delete delete delete delete Disposable IoT device that transmits sensing data every preset period according to IoT service;
Edge/fog gateway that registers one or more distributed Disposable IoT devices, allocates IDs, and registers new Disposable IoT devices when discarding existing Disposable IoT devices, and re-mapping IDs; and
Including; an IoT cloud server that registers one or more edge/fog gateways;
Edge/fog gateway,
Disposable IoT device to IoT cloud server by performing registration procedure of distributed Disposable IoT device within gateway, assigning unique device identification ID to registered Disposable IoT device, and mapping edge/fog gateway ID and device identification ID make a registration request for
Edge/fog gateway,
When registering a Disposable IoT device in the IoT cloud server, it creates a mapping ID by mapping the edge/fog gateway ID assigned from the IoT cloud server, the device identification ID assigned within the gateway, and the device original ID,
Using the generated mapping ID, make a request to register a Disposable IoT device to the IoT cloud server,
Edge/fog gateway,
When an existing Disposable IoT device is discarded, to maintain service continuity, register a new Disposable IoT device in the gateway, remap ID,
Edge/fog gateway,
If the existing Disposable IoT device is discarded while providing IoT service, the registration procedure of the new Disposable IoT device is performed within the gateway.
Remap the device identification ID unique to the registered new Disposable IoT device to the discarded existing device identification ID,
Edge/fog gateway,
Delete the device original ID of the existing Disposable IoT device connected to the mapping ID so that a new Disposable IoT device can replace the discarded existing Disposable IoT device, and remap the device original ID of the new Disposable IoT device to the mapping ID,
Edge/fog gateway,
In order to maintain service continuity when an existing Disposable IoT device is discarded, the device identification ID unique to the registered new Disposable IoT device is remapped with the discarded existing device identification ID, but the process of registering the new Disposable IoT device to the IoT cloud server Device ID management system, characterized in that omitted. delete delete

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