JP2017102627A - IoT device network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an IoT device network that reduces a burden on an installation worker and an operator by minimizing work at a site where IoT devices are installed and introduced, and thereby enhances profitability and efficiency of services.SOLUTION: An IoT device has a short-range wireless communication function such as Wi-Fi, Bluetooth (R) and ZigBee (R), and performs data communication with a data relay device such as a smart phone, wireless router and access point. The data relay device includes wide-area communication means such as LTE, GSM, FTTH and ADSL to connect with the Internet, relays all data arriving from the IoT device to a server on the Internet by function of a mounted software gateway, and has the server perform individual authentication of the IoT device.SELECTED DRAWING: Figure 5

Description

The present invention relates to data communication of an IoT device (small electronic device wirelessly connected to the Internet via a data relay device).

In recent years, the development of short-range wireless communication technology has been remarkable, and many technical standards have been developed using various frequency bands. Wireless LANs are frequently used for data communication with computers in offices and homes, and free wireless LAN networks that can be used by tourists in public areas are also being developed. Also, wireless technologies such as Bluetooth and ZigBee have a wide range of uses such as control of headsets, wireless speakers, remote controls, and lighting devices. Many mobile phones, smartphones and tablets have wireless LAN and Bluetooth as standard. The miniaturization and power saving of parts that realize these wireless technologies are progressing day by day, and further expansion of use is expected.

As a concept of a new communication environment using this short-range wireless communication technology, the Internet of Things (IoT: Internet of Thing), in which every device in the world is connected to the Internet and exchanges information, was introduced. The industry's efforts toward it have begun actively. Demand forecast reports that hundreds to hundreds of billions of devices will be connected to the Internet over the next 10 years are also being improved, such as technology development and application support, huge data communication to the Internet where personal computers have been connected so far A new system is expected to be built.

In the IoT, the number of devices connected to the Internet increases exponentially, and all data is collected on the Internet, or everything is controlled from the Internet. A large amount of data is collected on an Internet server, but each one is small and usually communicates data that is discrete in time.

A large amount of data will continue to be connected to the Internet, and the amount of data will continue to expand, but data communication networks are becoming faster and larger in capacity, and the momentum is unknown. As a result, the cost per bit for data transfer continues to decline dramatically, and the cost of individual devices used in the IoT to communicate with Internet servers is very low, and devices used in the IoT Since the unit price of parts continues to decrease, the IoT world seems to have the potential to expand further.

Data gathered on the Internet reaches the server from the device via short-range communication and wide-area communication network. For example, near field communication includes Ethernet and near field communication. The wide area network includes a wired telephone line, a mobile telephone line, a cable TV network, an internet network connected by an optical fiber or the like. It is very difficult to connect each device to the Internet by wire in the process of popularizing IoT devices, so short-range wireless communication technology is used. Many methods for installing and using IoT devices are under consideration.

For example, devices that communicate with a wireless LAN or access point installed in a home or business office perform initial registration with those devices, and data acquired by the devices is transmitted to the Internet via the devices. ing.

In addition, there are applications that connect to the Internet using wireless communication functions such as smartphones that you own, the target device installs the application on the smartphone, performs initial registration of the device, and wide area communication lines such as smartphones Is connected to the Internet via

JP2013-54743A (P2013-54743A)

A conventional device that uses short-range wireless communication technology as a communication means is the first to transmit data (temperature, humidity, acceleration, on / off status, brightness, etc.) acquired by the device to an Internet server. In this setting, after the other party is authenticated using a predetermined means between the same device and the terminal that relays data, the apparatus is used to communicate with the Internet server. Or, it is necessary to perform an initial setting operation for setting information of the other party in both the device and the device that relays data. Specifically, a pass code generated by one device is input to the other device. That is, a procedure for starting data transmission after setting and authenticating is limited to devices that are wireless communication partners. This procedure is important for restricting unnecessary communication data from being connected to the network server using an undesired device or the equipment, and is a widely used method.

In the future, when IoT devices are introduced into the market in large quantities, the number of individual connection settings becomes enormous and cumbersome, and managing individual terminals will be a heavy burden on the user or administrator . In addition, if an IoT device handler who is not necessarily familiar with wireless communication settings registers the device and verifies the usefulness of the communication equipment, it may become a high hurdle when introducing a new service. is there. Therefore, at the site where IoT devices are installed and introduced, the challenge is to reduce the burden on installers and handlers with as little work as possible. And it is strongly demanded to provide a quick service to the user.

In addition, many devices that relay IoT devices and data are driven by batteries, and when using these devices, the battery replacement period should be extended as much as possible, and the battery replacement work man-hours should be reduced to reduce the economics of the service. In order to improve performance, it is important to reduce power consumption by simplifying processing in each device (especially IoT devices).

Therefore, the present invention provides a service that utilizes IoT devices by reducing the processing of IoT devices and data relays without initial registration of communication devices by IoT device users in order to solve the above problems. It is to provide a means to construct an information and communication network for IoT devices that can be received easily and quickly.

The IoT device has a wireless communication function for performing short-range wireless communication, for example, Wifi, Bluetooth, ZigBee, and the like. IoT devices use this wireless communication function to perform data communication with data relay devices such as smartphones, wireless routers, and access points. Data relay devices such as smartphones, wireless routers, and access points have wide-area communication means for performing wide-area communication such as LTE, GSM, FTTH, and ADSL in order to connect to the Internet. Data relay devices such as smartphones, wireless routers, and access points are equipped with software called software gateways, and the software gateways have a function of connecting IoT device information to an Internet server. The connection destination is registered in the software gateway, relays all data received from the IoT device to the Internet server, and transmits information received from the Internet server to the IoT device.

Software gateways installed in smartphones, wireless routers, access points, etc. are not restricted by model, owner, region, etc., and can be installed in any device with short-range wireless communication technology and Internet connection means. is there. In order to minimize power consumption, the software gateway has a mode that operates in the background of the installed equipment, and also has an appropriate sleep function. Furthermore, the software gateway has a function that makes it possible to select and change the Internet server address to be connected from the list by the identifier of the data received from the IoT device.

A server on the Internet that receives information from an IoT device via a data relay device has a means to analyze the received IoT device information and a means to authenticate, and based on the information stored in the server, Has a function to perform individual authentication.

The software gateway adds location information, time information, and signal strength of the communicating IoT device to the data from the IoT device and transfers the information to the Internet server. The server has a function of integrating information such as time, position, and radio wave intensity added by the software gateway with individual information and history data of the IoT device, and the service is provided based on a contract with the user.

IoT devices have a function to perform startup operations (for example, press the power button), and when installing IoT devices for the first time, IoT device information can be obtained via the software gateway via the software gateway. Connected to the server. The server receives the individual information of the IoT device along with its location, time, wireless signal strength, etc. via the software gateway installed in the data relay device such as smartphone, wireless router, access point, etc., and grasps the introduction status before that It has the function to do. The service can be started for the user without performing initial settings etc. at the site where the startup operation of the IoT device is performed by the authentication function and accumulated data of the server's IoT device.

In this way, information from all IoT devices with short-range wireless communication technology does not authenticate individual devices with devices that relay data (smartphones, wireless routers, access points), and devices that relay data By having a mechanism (software gateway) to transmit data to the Internet server, the processing load of IoT devices and data relay devices and the labor of those who handle them are reduced. And speeding up service provision to users.

Overall view showing an embodiment of the present invention Detailed view of IoT devices Detailed view of data relay device IoT device and Internet transmission concept diagram Examples using the present invention

FIG. 1 shows an embodiment of the present invention. The 101 IoT device is connected to the 103 data relay device by 102 short-distance non-communication means. The 103 data relay device is connected to the 105 Internet by 104 wide area communication means. There are 106 servers in the 105 Internet, and 101 IoT devices connect to 106 servers by 102 short-range wireless communication and 104 wide area communication.

Figure 2 shows a detailed view of IoT devices. The 201IoT device is a 202 short-distance wireless communication means such as Bluetooth, Wifi, Zigbee, etc., 202 input terminal that converts external state and situation into electronic signals and collects it as data, 203 output terminal that transmits electrical signals to the outside 204 Short-range wireless communication function, individual data of 201 IoT device, data acquired from 202 input end, 205 data storage device holding information received via 204 short-range wireless communication means, authentication and data encryption Have 206 keys to use.

FIG. 3 shows a detailed view of the data relay device. 301 data relay device is a 302 near field communication function such as Bluetooth, Wifi, Zigbee, etc., 303 software gateway function for connecting 101 IoT devices and 106 servers, authentication and data encryption 305 wide area wireless communication function such as LTE or GSM and / or 306 wide area wired communication means such as ADSL or FTTH, or both, and the time, position, and 302 short distance wireless communication function It has 307 various data such as the radio field intensity of the IoT device being received.

Figure 4 shows a conceptual diagram of data communication between an IoT device and an Internet server. In the normal operation of a), the 401IoT device transmits the 404IoT device data acquired at the input terminal 202 to the 402 data relay device by the 102 short-range wireless communication means. In the 402 data relay device, 307 various data are added by the 303 software gateway and sent to the 403 Internet server as 405 IoT device information by the 305 wide area wireless communication means or 306 wide area wired communication means. The 403 Internet server (specifically, the 106 server shown in FIG. 1) authenticates the 401 IoT device from the 405 IoT device information and performs processing such as decryption if the data is encrypted. Provide the desired service.

When performing 401IoT device control (for example, changing the state of the 203 output terminal) from the 403 Internet server, the 406 IoT device control information sent from the 403 Internet server is distributed to the 401IoT device via the 402 data relay device. The The 303 software gateway installed in the 402 data relay device transmits the 406 IoT device control information received from the 403 Internet server as it is to the 401 IoT device as 407 IoT device control information.

Fig. 4 b) shows the initial startup operation. 401IoT data sends 408IoT device data to 402 data relay device in the same way as the normal operation of a). The 303 software gateway installed in the 402 data relay device adds 307 various data and sends 409 IoT device information to the 403 Internet server. The 403 Internet server authenticates the 401 IoT device, recognizes that the 401 IoT device was initially activated from the stored data, and provides the user with a desired service.

FIG. 5 shows a specific embodiment of the present invention. The basic configuration is that an IoT device (501 to 503) performs data communication with a 509 server on the Internet via a data relay device (504 to 508). If the short-range wireless communication means (for example, Bluetooth) of the IoT device (501 to 503) and the short-range wireless communication means (for example, Wifi) of the 508 wireless router are different, the 507 wireless bridge has both short-range wireless communication means. , Relay data of IoT devices (501 to 503) to 508 wireless router.

The 501 IoT device performs data communication with any data relay device (504 to 507) equipped with the 303 software gateway. As an example, it connects to the Internet via a 504 smartphone. At that time, information such as the time of communication with the 504 smartphone, position information, and radio signal strength is added to the data from the 501 IoT device, and the information is transmitted to the 509 server. The 509 server that receives the IoT device information normally authenticates the 501 device from the encrypted received data, and provides the service to the user after confirmation.

Next, when the 501 IoT device moves and comes near the 506 wireless router, for example, data is transmitted to the 509 server together with the additional information via the 506 wireless router. At this time, the 509 server authenticates the 501 IoT device with the received data, which is normally encrypted, and provides the service to the user after confirmation.

In this way, connection with the data relay device (504 to 507) equipped with the 303 software gateway is automatically performed, and information such as time, position information, radio signal strength, etc. is added to the data of the 501 IoT device each time. Sent to the server. Normally, the 303 software gateway operates in the background of the data relay device (504 to 507), and the power consumption is minimized. Since the 501 IoT device has an individual identifier, it can be changed by the 303 software gateway on which the 509 server to which the data relay device (504 to 507) is connected is used. In the 303 software gateway installed in the data relay device (504 to 507), the frequency of data relay can be adjusted.

Next, regarding the initial setting, for example, when a power is turned on to a 502 IoT device that has not started operation, a 505 smartphone equipped with a nearby 303 software gateway is found and communication is started. When a 505 smartphone relays 502 IoT device data, it adds information such as the current time, location, and radio signal strength to the 509 server and sends it to the 509 server. It is determined from the database that it is a startup. Individual information on 502 IoT devices is registered in the 509 server, and services are immediately provided to users.

On the other hand, if a 503 IoT device outside this system service enters this system, unless the 303 software gateway installed in the data relay device (504 to 507) determines that data relay is not required by that identifier, IoT device data is also sent to the 509 server with information such as current time, location information, and radio signal strength added. The 509 server performs authentication of 503 IoT from the received data, and at this point, it is determined that the service is out of scope, and the service is not provided to the user.

101, 201, 401, 501 to 503: IoT devices 103, 301, 402, 504 to 508: Data relay devices 106, 403, 509: Server

Claims (5)

Data relay devices such as mobile phone terminals and wireless gateways in IoT networks that connect IoT device data using short-range wireless communication technology to the Internet via devices such as mobile phone terminals and wireless gateways and transmit information to servers Is an IoT information communication system that relays all data received from IoT devices to an Internet server using the installed software gateway The system according to claim 1, wherein the software gateway installed in the mobile phone terminal or the wireless gateway has a function of selecting a relay frequency of the data and an Internet server to be connected based on an identifier of the data received from the IoT device. IoT information communication system 3. The IoT information communication system according to claim 1, wherein authentication of all IoT devices sent via the software gateway is performed by an Internet server. 4. The system according to claim 3, wherein the information from the IoT device arrives at a server on the Internet with information on a position, time, and wireless signal strength added in a device that relays data on which a software gateway is mounted. IoT information communication system 5. The IoT information communication system according to claim 3, wherein the IoT device allows all IoT devices to communicate with an Internet server without performing initial registration of individual IoT devices to an apparatus that relays data.