WO2016108646A1 - Method and apparatus for controlling device using bluetooth le technique - Google Patents

Abstract

The present invention relates to a method and an apparatus for controlling, by a first device, a second device using Bluetooth low energy (LE), the method comprising the steps of: receiving, from the second device, an advertisement message comprising at least one of information related to pairing control service, or attribute information related to attributes which the second device can support; performing a connection procedure with the second device on the basis of the advertisement message; transmitting, to the second device, a first writing request message for setting a first password for a controlling function included in the attributes; and receiving a first writing response message comprising first setting information which indicates whether the first password is set or not in response to the first writing request message.

Description

[Correction 29.01.2016 by Rule 26] 방법 Method and Apparatus for Controlling a Device Using Bluetooth LE Technology

The present invention relates to a method and apparatus for forming a device-to-device connection using Bluetooth, which is a short-range technology, in a wireless communication system. A method and apparatus are disclosed.

Bluetooth is a short-range wireless technology standard that can transmit and receive data by wirelessly connecting various devices in a short distance. When performing wireless communication between two devices using Bluetooth communication, a user performs a procedure of searching for a Bluetooth device and requesting a connection. do. In the present invention, the device may mean an apparatus and an apparatus.

In this case, the user may perform a connection after searching for the Bluetooth device according to the Bluetooth communication method to use using the Bluetooth device.

The Bluetooth communication method includes a basic rate / enhanced data rate (BR / EDR) method and a low energy (LE) method, which is a low power method. The BR / EDR scheme may be referred to as Bluetooth Classic. The Bluetooth classic includes Bluetooth technology that has been adopted since Bluetooth 1.0 using Basic Rate and Bluetooth technology that has used Enhanced Data Rate supported since Bluetooth 2.0.

Bluetooth Low Energy (hereinafter referred to as Bluetooth LE) technology has been applied since Bluetooth 4.0, and can consume hundreds of kilobytes (KB) of information stably with low power consumption. The Bluetooth low energy energy technology uses an attribute protocol to exchange information between devices. This Bluetooth LE method can reduce energy overhead by reducing the header overhead and simplifying the operation.

Some Bluetooth devices do not have a display or a user interface. The complexity of connection / management / control / disconnection between various kinds of Bluetooth devices and similarly applied Bluetooth devices is increasing.

In addition, Bluetooth can achieve a relatively high speed at a relatively low power, low cost, but the transmission distance is generally limited to a maximum of 100m, it is suitable for use in a limited space.

It is an object of the present invention to provide a method for controlling a device using Bluetooth Low Energy (LE) technology.

Another object of the present invention is to provide a method for controlling a connection of a device using Bluetooth low energy (LE) technology.

Another object of the present invention is to provide a method for acquiring status information of a device using Bluetooth low energy (LE) technology.

In addition, an object of the present invention is to define a Generic Attribute Profile (GATT) structure for controlling the connection between devices using Bluetooth Low Energy (LE) technology.

Another object of the present invention is to provide a method for setting and releasing a password for controlling a connection between devices using Bluetooth LE technology.

Another object of the present invention is to provide a method for setting a device for controlling a device-to-device connection by using a Bluetooth low energy (LE) technology.

The technical problems to be achieved in the present specification are not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

The present invention provides a method for a first device to control a second device using Bluetooth Low Energy (LE) technology to solve the above-mentioned problem.

Specifically, a method for a first device to control a second device using Bluetooth Low Energy (LE) technology according to an embodiment of the present invention may include information related to a pairing control service from the second device or the second device. Receiving an advertisement message including at least one of characteristic information related to a characteristic supportable by the device; Performing a connection procedure with the second device based on the advertisement message; Sending a first write request message for setting a first password to a control function included in the property to the second device, the first write request message including the first password; And receiving a first write response message including first setting information indicating whether the first password is set in response to the first write request message.

In addition, the present invention includes the steps of transmitting a second write request message requesting UnLock of the first password; And receiving a second write response message including release information indicating whether the first password is released.

The present invention may also include transmitting a third write request message for setting the second password to a control function included in the property, to the second device, wherein the third write request message is the second message. 2 passwords; And receiving a third write response message including second setting information indicating whether the second password is set in response to the third write request message.

The present invention may further include transmitting, to the second device, a second write request message including instruction information and a second password for instructing the second device to perform a specific operation.

The present invention may further include receiving a second write response message including result information indicating performance of the specific operation from the second device when the second password is the same as the first password.

Further, the present invention further includes receiving an error response message including result information indicating that the password is different if the second password is different from the first password.

The present invention also provides a method comprising: transmitting an advertisement message including at least one of information related to a pairing control service or characteristic information related to a characteristic supported by the second device to the first device; Performing a connection procedure with the first device based on the advertisement message; Receiving from the first device a first write request message for setting a first password to a control function included in the property, the first write request message including the first password; And receiving a first write response message including first setting information indicating whether the first password is set in response to the first write request message.

The present invention also includes receiving a second write request message requesting writing of control device information indicating a control device for controlling a specific operation of the second device from the first device; And sending a second write response message to the first device in response to the second write request message.

The present invention also includes receiving a connection request message for controlling the second device from a third device; And performing a connection procedure with the third device if the third device matches the control device.

In addition, the present invention, the communication unit for communicating with the outside by wireless or wired; And a processor operatively connected to the communication unit, wherein the processor includes at least one of information related to a pairing control service from the second device or characteristic information related to a characteristic supported by the second device. A first write request message for receiving an advertisement message, performing a connection procedure with the second device based on the advertisement message, and setting a first password to a control function included in the property to the second device; Wherein the first write request message includes the first password and a first write response message including first setting information indicating whether the first password is set in response to the first write request message. Provide a device that controls to receive.

According to the method for controlling a device using Bluetooth Low Energy (LE) technology according to an embodiment of the present invention, there is an effect that can control the connection between other devices through the control device.

In addition, according to the present invention, it is possible to control the connection of another device by acquiring information of a network interface supported by another device through a control device using Bluetooth Low Energy (LE) technology.

In addition, according to the present invention, by using the Bluetooth Low Energy (LE) technology to obtain the information of the network interface supported by the other device through the control device to control the connection of other devices can efficiently perform the connection between different devices It has an effect.

In addition, according to the present invention, by using the Bluetooth Low Energy (LE) technology to control the connection between other devices through the control device there is an effect that can efficiently perform the connection of the device without a UI (User Interface).

In addition, according to the present invention, there is an effect of forming a Bluetooth LE connection that provides low power consumption and stable connectivity by using Bluetooth Low Energy (LE) technology.

In addition, according to the present invention, there is an effect that can set and release the password for controlling the connection between devices using the Bluetooth Low Energy (LE) technology.

In addition, according to the present invention, there is an effect that can set the device for controlling the connection between devices using Bluetooth LE (Low Energy) technology.

Effects obtained in the present specification are not limited to the above-mentioned effects, and other effects not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

1 is a schematic diagram illustrating an example of a wireless communication system using the Bluetooth low power energy technology proposed in the present specification.

2 shows an example of an internal block diagram of a device that can implement the methods proposed herein.

3 shows an example of a Bluetooth low power energy topology.

4 is a diagram illustrating an example of a Bluetooth communication architecture to which the methods proposed herein may be applied.

5 is a diagram illustrating an example of a structure of a GATT (Generic Attribute Profile) of Bluetooth low power energy.

6 is a flowchart illustrating a method of forming a connection using Bluetooth low energy (LE) between devices.

7 is a diagram schematically illustrating a method of controlling connection formation between other devices through a control device according to an embodiment of the present invention.

8 is a diagram illustrating an example of characteristics of a GATT (Generic Attribute Profile) for controlling a device through a Bluetooth Low Energ (LE) technology according to an embodiment of the present invention.

9 to 14 are diagrams showing an example of each characteristic according to an embodiment of the present invention.

15 illustrates an example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

16 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

17 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

18 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

19 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

20 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

21 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

22 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

23 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

FIG. 24 is a diagram illustrating another example of characteristics of a GATT (Generic Attribute Profile) for controlling a device through a Bluetooth Low Energ (LE) technology according to an embodiment of the present invention.

FIG. 25 is a diagram illustrating an example of characteristic information indicating characteristic that a device can provide according to an embodiment of the present invention. FIG.

26 is a diagram illustrating an example of a method for setting a control device according to an embodiment of the present invention.

27 is a diagram illustrating an example of a method for transmitting / receiving image information of a device according to an embodiment of the present invention.

28 is a diagram illustrating an example of a method for setting a password for controlling a device according to an embodiment of the present invention.

29 and 30 are diagrams illustrating still another example of a method and characteristic for setting a password for controlling a device according to an embodiment of the present invention.

31 is a diagram illustrating an example of a method for changing a password according to an embodiment of the present invention.

The above objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. However, the present invention may be modified in various ways and may have various embodiments. Hereinafter, specific embodiments will be illustrated in the drawings and described in detail. Like numbers refer to like elements throughout. In addition, when it is determined that the detailed description of the known function or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, a method and apparatus related to the present invention will be described in more detail with reference to the accompanying drawings. The suffixes "module" and "unit" for components used in the following description are given or used in consideration of ease of specification, and do not have distinct meanings or roles from each other.

1 is a schematic diagram illustrating an example of a wireless communication system using the Bluetooth low power energy technology proposed in the present specification.

The wireless communication system 100 includes at least one server device 120 and at least one client device 110.

The server device and the client device perform Bluetooth communication using Bluetooth Low Energy (BLE) technology.

First, compared to Bluetooth Basic Rate / Enhanced Data Rate (BR / EDR) technology, BLE technology has a relatively small duty cycle, enables low-cost production, and significantly reduces power consumption through low data rates. If you use a coin cell battery, it can operate for more than a year.

In addition, the BLE technology simplifies the connection procedure between devices, and the packet size is smaller than that of the Bluetooth BR / EDR technology.

In BLE technology, (1) the number of RF channels is 40, (2) the data rate supports 1Mbps, (3) the topology is a scatternet structure, (4) latency is 3ms, and (5) maximum current Is less than 15mA, (6) output power is less than 10mW (10dBm), and (7) is mainly used in applications such as mobile phones, watches, sports, healthcare, sensors, device control.

The server device 120 may operate as a client device in relation to other devices, and the client device may operate as a server device in relation to other devices. That is, in the BLE communication system, any one device may operate as a server device or a client device, and if necessary, operate as a server device and a client device.

The server device 120 may include a data service device, a slave device device, a slave, a server, a conductor, a host device, a gateway, and a sensing device. (Sensing Device), a monitoring device (monitoring device), the first device, the second device and the like.

The client device 110 may be a master device, a master, a client, a member, a sensor device, a sink device, a collector, a third device, a fourth device, or the like. Can be expressed.

The server device and the client device correspond to the main components of the wireless communication system, and the wireless communication system may include other components in addition to the server device and the client device.

When the server device receives data from the client device and directly communicates with the client device, and receives a data request from the client device, the server device provides the data to the client device through a response.

In addition, the server device sends a notification message and an indication message to the client device to provide data information to the client device. In addition, when the server apparatus transmits an instruction message to the client apparatus, the server apparatus receives a confirmation message corresponding to the instruction message from the client.

In addition, the server device provides data information to the user through a display unit or receives a request input from the user through a user input interface in the process of transmitting and receiving notification, instruction, and confirmation messages with the client device. can do.

In addition, the server device may read data from a memory unit or write new data to a corresponding memory in a process of transmitting and receiving a message with the client device.

In addition, one server device may be connected to a plurality of client devices, and may be easily reconnected (or connected) with client devices by using bonding information.

The client device 120 refers to a device for requesting data information and data transmission from a server device.

The client device receives data from the server device through a notification message, an instruction message, and the like, and when receiving an instruction message from the server device, sends a confirmation message in response to the instruction message.

Similarly, the client device may provide information to the user through an output unit or receive an input from the user through an input unit in the process of transmitting and receiving messages with the server device.

In addition, the client device may read data from a memory or write new data to a corresponding memory in a process of transmitting and receiving a message with the server device.

Hardware components such as an output unit, an input unit, and a memory of the server device and the client device will be described in detail with reference to FIG. 2.

In addition, the wireless communication system may configure Personal Area Networking (PAN) through Bluetooth technology. For example, in the wireless communication system, by establishing a private piconet between devices, files, documents, and the like can be exchanged quickly and securely.

2 shows an example of an internal block diagram of a device that can implement the methods proposed herein.

As illustrated in FIG. 2, the server device may include an output unit 111, a user input interface 112, a power supply unit 113, a processor 114, and a memory unit. , 115), a Bluetooth interface 116, another communication interface 117, and a communication unit (or a transceiver unit 118).

The output unit 111, the input unit 112, the power supply unit 113, the processor 114, the memory 115, the Bluetooth interface 116, the other communication interface 117 and the communication unit 118 are proposed herein. It is functionally linked to perform the method.

In addition, the client device may include a display unit 121, a user input interface 122, a power supply unit 123, a processor 124, a memory unit 125, and a Bluetooth interface. (Bluetooth Interface) 126 and a communication unit (or a transceiver unit 127).

The output unit 121, the input unit 122, the power supply unit 123, the processor 124, the memory 125, the Bluetooth interface 126, and the communication unit 127 are used to perform the method proposed in this specification. Functionally connected

The Bluetooth interface 116, 126 refers to a unit (or module) capable of transmitting data or request / response, command, notification, indication / confirmation message, etc. between devices using Bluetooth technology.

The memories 115 and 125 are units implemented in various types of devices and refer to units in which various kinds of data are stored.

The processor 114, 124 refers to a module that controls the overall operation of the server device or the client device, and controls to process a message request and a received message through a Bluetooth interface and another communication interface.

The processors 114 and 124 may be represented by a controller, a control unit, a controller, or the like.

The processors 114 and 124 may include application-specific integrated circuits (ASICs), other chipsets, logic circuits, and / or data processing devices.

The processor 114, 124 controls the communication unit to receive an advertising message from a server device, transmits a scan request message to the server device, and scans in response to the scan request from the server device. The communication unit controls the communication unit to receive a scan response message, and controls the communication unit to transmit a connect request message to the server device for establishing a Bluetooth connection with the server device.

The processor 114 and 124 may also read or write data from the server device using a property protocol after a Bluetooth LE connection is formed through the connection procedure. To control.

The memories 115 and 125 may include read-only memory (ROM), random access memory (RAM), flash memory, memory cards, storage media, and / or other storage devices.

The communication unit 118 and 127 may include a baseband circuit for processing a radio signal. When the embodiment is implemented in software, the above-described technique may be implemented as a module (process, function, etc.) for performing the above-described function. The module may be stored in memory and executed by a processor.

The memories 115 and 125 may be inside or outside the processors 114 and 124, and may be connected to the processors 114 and 124 by various well-known means.

The output units 111 and 121 refer to modules for providing device status information and message exchange information to a user through a screen.

The power supply unit (power supply unit 113, 123) refers to a module for supplying power required for the operation of the components by receiving the external power, the internal power under the control of the controller.

As we saw earlier, BLE technology has a small duty cycle, and the low data rate can significantly reduce power consumption.

The input units 112 and 122 refer to a module that provides a user's input to the controller like a screen button so that the user can control the operation of the device.

3 shows an example of a Bluetooth low power energy topology.

Referring to FIG. 3, device A corresponds to a master in a piconet (piconet A, shaded portion) having device B and device C as slaves.

Here, a piconet means a set of devices occupying a shared physical channel in which any one of a plurality of devices is a master and the remaining devices are connected to the master device.

BLE slaves do not share a common physical channel with the master. Each slave communicates with the master through a separate physical channel. There is another piconet (piconet F) with master device F and slave device G.

Device K is on scatternet K. Here, a scatternet means a group of piconets in which connections between other piconets exist.

Device K is a master of device L and a slave of device M.

Device O is also on scatternet O. Device O is a slave of device P and a slave of device Q.

As shown in FIG. 2 above, there are five different device groups.

1. Device D is an advertiser and device A is an initiator (group D).

2. Device E is a scanner and device C is an advertiser (group C).

3. Device H is an advertiser and devices I and J are scanners (group H).

4. Device K is also an advertiser and device N is an initiator (group K).

5. Device R is the advertiser and device O is the initiator (group R).

Devices A and B use one BLE piconet physical channel.

Devices A and C use another BLE piconet physical channel.

In group D, device D advertises using an advertisement event connectable onto an advertising physical channel, and device A is an initiator. Device A may establish a connection with device D and add the device to piconet A.

In group C, device C advertises on the ad physical channel using some type of advertisement event captured by scanner device E.

Group D and Group C may use different advertising physical channels or use different times to avoid collisions.

Piconet F has one physical channel. Devices F and G use one BLE piconet physical channel. Device F is the master and device G is the slave.

Group H has one physical channel. Devices H, I and J use one BLE advertising physical channel. Device H is an advertiser and devices I and J are scanners.

In scatternet K, devices K and L use one BLE piconet physical channel. Devices K and M use another BLE piconet physical channel.

In group K, device K advertises using an advertisement event connectable onto an advertising physical channel, and device N is an initiator. Device N may form a connection with device K. Here, device K becomes a slave of two devices and simultaneously becomes a master of one device.

In scatternet O, devices O and P use one BLE piconet physical channel. Devices O and Q use another BLE piconet physical channel.

In group R, device R advertises using an advertisement event connectable onto an advertising physical channel, and device O is an initiator. Device O may form a connection with device R. Here, device O becomes a slave of two devices and simultaneously becomes a master of one device.

4 is a diagram illustrating an example of a Bluetooth communication architecture to which the methods proposed herein may be applied.

Referring to FIG. 4, (a) of FIG. 4 shows an example of a protocol stack of Bluetooth Basic Rate (BR) / Enhanced Data Rate (EDR), and (b) shows a protocol stack of Bluetooth Low Energy (LE). An example is shown.

Specifically, as shown in FIG. 4A, the Bluetooth BR / EDR protocol stack has an upper controller stack 10 and a lower controller stack based on a host controller interface (HCI) 18. It may include a host stack (20) of.

The host stack (or host module) 20 refers to a wireless transceiver module for receiving a 2.4 GHz Bluetooth signal and hardware for transmitting or receiving a Bluetooth packet. The host stack (or host module) 20 is connected to a Bluetooth module which is the controller stack 10 to connect a Bluetooth module. Control and perform actions.

The host stack 20 may include a BR / EDR PHY layer 12, a BR / EDR baseband layer 14, and a link manager layer 16.

The BR / EDR PHY layer 12 is a layer for transmitting / receiving a 2.4 GHz radio signal and may transmit data by hopping 79 RF channels when using Gaussian Frequency Shift Keying (GFSK) modulation.

The BR / EDR baseband layer 14 plays a role of transmitting a digital signal, selects a channel sequence hopping 1400 times per second, and transmits a 625us length time slot for each channel.

The link manager layer 16 controls the overall operation (link setup, control, security) of the Bluetooth connection by using a link manager protocol (LMP).

The link manager layer 16 may perform the following functions.

ACL / SCO logical transport, logical link setup and control

Detach: Stops the connection and tells the other device why.

-Perform power control and role switch.

-Perform Security (authentication, pairing, encryption) function.

The host controller interface layer 18 provides an interface between the host module and the controller module so that the host can provide commands and data to the controller, and the controller can provide events and data to the host.

The host stack (or host module) 20 may include a logical link control and adaptation protocol (L2CAP, 21), an attribute protocol (Protocol, 22), a generic attribute profile (GATT, 23), and a generic access profile. Profile, GAP, 24), BR / EDR profile 25.

The logical link control and adaptation protocol (L2CAP) 21 may provide one bidirectional channel for transmitting data to a specific protocol or profile.

The L2CAP 21 may multiplex various protocols, profiles, etc. provided by a higher layer of Bluetooth.

L2CAP of Bluetooth BR / EDR uses dynamic channel, supports protocol service multiplexer, retransmission, streaming mode, and provides segmentation, reassembly, per-channel flow control, and error control.

The generic attribute profile GATT 23 may be operable as a protocol describing how the attribute protocol 23 is used in the construction of services. For example, the general attribute profile 23 may be operable to specify how ATT attributes are grouped together into services, and may be operable to describe features associated with the services.

Thus, the generic attribute profile 23 and the attribute protocol ATT 22 may use features to describe the state and services of a device and to describe how features relate to each other and how they are used.

The attribute protocol 22 and the BR / EDR profile 25 define a service profile using Bluet BR / EDR and an application protocol for sending and receiving these data, and the Generic Access Profile. , GAP, 24) defines device discovery, connectivity, and security levels.

As shown in FIG. 4B, the Bluetooth LE protocol stack is a controller stack 30 operable to handle timing-critical radio interface and a host operable to process high level data. It contains a stack (Host stack, 40).

First, the controller stack 30 may be implemented using a communication module that may include a Bluetooth radio, for example, a processor module that may include a processing device such as a microprocessor.

The host stack may be implemented as part of an OS running on a processor module, or as an instance of a package on the OS.

In some instances, the controller stack and the host stack can be operated or executed on the same processing device in the processor module.

The controller stack 30 includes a physical layer (PHY) 32, a link layer 34, and a host controller interface 36.

The physical layer (PHY) 32 is a layer that transmits and receives a 2.4 GHz radio signal and uses GFSK (Gaussian Frequency Shift Keying) modulation and a frequency hopping technique composed of 40 RF channels.

The link layer 34, which transmits or receives a Bluetooth packet, creates a connection between devices after performing advertising and scanning functions using three advertising channels, and generates up to 257 bytes of data packets through 37 data channels. Provides the ability to send and receive.

The host stack includes a generic access profile (GAP) 40, a logical link control and adaptation protocol (L2CAP, 41), a security manager (SM, 42), an attribute protocol (ATT, 440), and a general attribute profile. (Generic Attribute Profile, GATT, 44), Generic Access Profile (25), LT profile 46 may be included. However, the host stack 40 is not limited to this and may include various protocols and profiles.

The host stack uses L2CAP to multiplex the various protocols, profiles, etc. provided by Bluetooth.

First, L2CAP (Logical Link Control and Adaptation Protocol) 41 may provide one bidirectional channel for transmitting data to a specific protocol or profile.

The L2CAP 41 may be operable to multiplex data among higher layer protocols, segment and reassemble packages, and manage multicast data transmission.

In Bluetooth LE, three fixed channels (one for the signaling channel, one for the Security Manager, and one for the Attribute protocol) are used by default. And, if necessary, the dynamic channel may be used.

On the other hand, BR / EDR (Basic Rate / Enhanced Data Rate) uses dynamic channels by default and supports protocol service multiplexer, retransmission, and streaming mode.

The SM (Security Manager) 42 is a protocol for authenticating a device and providing key distribution.

Attribute Protocol (ATT) 43 defines a rule for accessing data of a counterpart device in a server-client structure. ATT has six message types (Request, Response, Command, Notification, Indication, Confirmation).

① Request and Response message: The Request message is a message for requesting and delivering specific information from the client device to the server device, and the Response message is a response message for the request message, which can be used for transmission from the server device to the client device. Say.

② Command message: A message sent mainly from the client device to the server device to indicate a command of a specific operation. The server device does not transmit a response to the command message to the client device.

③ Notification message: This message is sent from the server device to the client device for notification such as an event. The client device does not transmit a confirmation message for the notification message to the server device.

④ Indication and Confirm message: This message is transmitted from the server device to the client device for notification such as an event. Unlike the notification message, the client device transmits a confirmation message for the Indication message to the server device.

The present invention transmits a value for the data length when a long data request is made in the GATT profile using the attribute protocol (ATT, 43) so that the client can know the data length clearly, and from the server using the UUID (Characteristic) Can receive the value.

The General Access Profile (GAP) 45 is a newly implemented layer for Bluetooth LE technology, and is used to control role selection and multi-profile operation for communication between Bluetooth LE devices.

In addition, the general access profile 45 is mainly used for device discovery, connection creation, and security procedures, and defines a method of providing information to a user, and defines the type of an attribute as follows.

① Service: Defines the basic behavior of the device with a combination of behaviors related to data.

② Include: Define the relationship between services

③ Characteristics: data value used in service

Behavior: A computer readable format defined by UUID (Universal Unique Identifier, value type).

The LE profile 46 is mainly applied to a Bluetooth LE device as profiles having a dependency on GATT. The LE profile 46 may include, for example, Battery, Time, FindMe, Proximity, Time, and the like. Details of GATT-based Profiles are as follows.

① Battery: How to exchange battery information

② Time: How to exchange time information

③ FindMe: Provides alarm service according to distance

④ Proximity: How to exchange battery information

⑤ Time: How to exchange time information

The generic attribute profile GATT 44 may be operable as a protocol describing how the attribute protocol 43 is used in the construction of services. For example, the generic attribute profile 44 may be operable to specify how ATT attributes are grouped together into services, and may be operable to describe features associated with the services.

Thus, the generic attribute profile 44 and the attribute protocol (ATT, 43) may use features to describe the state and services of a device, and how features relate to each other and how they are used.

In the following, the procedure of the Bluetooth Low Energy (BLE) technology will be briefly described.

The BLE procedure may be classified into a device filtering procedure, an advertising procedure, a scanning procedure, a discovery procedure, a connecting procedure, and the like.

device Filter  Device Filtering Procedure

The device filtering procedure is a method for reducing the number of devices performing a response to a request, an indication, a notification, and the like in the controller stack.

When all devices receive a request, it is unnecessary to respond to it, so the controller stack can control the number of requests sent, reducing power consumption in the BLE controller stack.

The advertising device or scanning device may perform the device filtering procedure to limit the device receiving the advertising packet, scan request or connection request.

Here, the advertising device refers to a device that transmits an advertising event, that is, performs an advertisement, and is also referred to as an advertiser.

The scanning device refers to a device that performs scanning and a device that transmits a scan request.

In BLE, when the scanning device receives some advertising packets from the advertising device, the scanning device should send a scan request to the advertising device.

However, if a device filtering procedure is used so that a scan request transmission is unnecessary, the scanning device may ignore the advertisement packets transmitted from the advertisement device.

The device filtering procedure may also be used in the connection request process. If device filtering is used in the connection request process, it is not necessary to transmit a response to the connection request by ignoring the connection request.

Advertising Procedure

The advertising device performs an advertising procedure to perform a non-directional broadcast to the devices in the area.

Here, non-directional broadcast refers to broadcast in all directions rather than broadcast in a specific direction.

In contrast, directional broadcasts refer to broadcasts in a particular direction. Non-directional broadcasts occur without a connection procedure between an advertising device and a device in a listening (or listening) state (hereinafter referred to as a listening device).

The advertising procedure is used to establish a Bluetooth connection with a nearby initiating device.

Alternatively, the advertising procedure may be used to provide periodic broadcast of user data to the scanning devices that are listening on the advertising channel.

In the advertising process, all advertisements (or advertisement events) are broadcast over an advertising physical channel.

The advertising devices may receive a scan request from listening devices that are listening to obtain additional user data from the advertising device. The advertising device transmits a response to the scan request to the device that sent the scan request through the same advertising physical channel as the received advertising physical channel.

Broadcast user data sent as part of an advertisement packet is dynamic data, while scan response data is generally static data.

The advertising device may receive a connection request from the initiating device on the advertising (broadcast) physical channel. If the advertising device used a connectable advertising event and the initiating device was not filtered by the device filtering procedure, the advertising device stops the advertising and enters the connected mode. The advertising device may start advertising again after the connected mode.

Scanning Procedure

The device performing the scanning, i.e., the scanning device, performs a scanning procedure to listen to the non-directional broadcast of the user data from the advertising devices using the advertising physical channel.

The scanning device sends a scan request to the advertising device via the advertising physical channel to request additional data from the advertising device. The advertising device transmits a scan response that is a response to the scan request, including additional data requested by the scanning device over the advertising physical channel.

The scanning procedure can be used while connected to other BLE devices in the BLE piconet.

If the scanning device is in an initiator mode that can receive the broadcasted advertising event and initiate a connection request, the scanning device sends the connection request to the advertising device via the advertising physical channel to the advertising device. You can start a Bluetooth connection with.

When the scanning device sends a connection request to the advertising device, the scanning device stops initiator mode scanning for further broadcast and enters the connected mode.

Discover  Discovery Procedure

Devices capable of Bluetooth communication (hereinafter referred to as "Bluetooth devices") perform an advertisement procedure and a scanning procedure to find devices that are nearby or to be found by other devices within a given area.

The discovery procedure is performed asymmetrically. A Bluetooth device that attempts to find another device around it is called a discovering device and listens for devices that advertise a scannable advertisement event. Bluetooth devices discovered and available from other devices are referred to as discoverable devices, and actively broadcast advertising events so that other devices can scan through an advertising (broadcast) physical channel.

Both the discovering device and the discoverable device may already be connected with other Bluetooth devices in the piconet.

Connecting Procedure

The connection procedure is asymmetric, and the connection procedure requires the other Bluetooth device to perform the scanning procedure while the specific Bluetooth device performs the advertisement procedure.

That is, the advertising procedure can be the goal, so that only one device will respond to the advertising. After receiving the accessible advertising event from the advertising device, the connection may be initiated by sending a connection request to the advertising device via the advertising (broadcast) physical channel.

Next, an operation state of the BLE technology, that is, an advertising state, a scanning state, an initiating state, and a connection state will be briefly described.

Advertising State

The link layer LL enters the advertisement state by the instruction of the host (stack). If the link layer is in the advertisement state, the link layer sends advertisement packet data units (PDUs) in the advertisement events.

Each advertising event consists of at least one advertising PDU, which is transmitted via the advertising channel indexes used. The advertisement event may terminate when the advertisement PDU is transmitted through each of the advertisement channel indexes used, or may terminate the advertisement event earlier when the advertisement device needs to make space for performing another function.

Scanning State

The link layer enters the scanning state by the indication of the host (stack). In the scanning state, the link layer listens for advertising channel indices.

There are two types of scanning states: passive scanning and active scanning, each scanning type being determined by the host.

There is no separate time or advertisement channel index for performing scanning.

During the scanning state, the link layer listens for the advertising channel index during the scanWindow duration. ScanInterval is defined as the interval (interval) between the starting points of two consecutive scan windows.

If there is no scheduling conflict, the link layer must listen for completion of all scan intervals in the scan window as instructed by the host. In each scan window, the link layer must scan a different advertising channel index. The link layer uses all available advertising channel indexes.

When passive scanning, the link layer only receives packets and does not transmit any packets.

When active scanning, the link layer performs listening to rely on the advertising PDU type, which may request advertising PDUs and additional information related to the advertising device from the advertising device.

Initiating State

The link layer enters the initiation state by the indication of the host (stack).

When the link layer is in the initiating state, the link layer performs listening for the advertising channel indexes.

During the initiation state, the link layer listens for the advertising channel index during the scan window period.

Connection state

The link layer enters the connected state when the device performing the connection request, i.e., the initiating device, sends the CONNECT_REQ PDU to the advertising device or when the advertising device receives the CONNECT_REQ PDU from the initiating device.

After entering the connected state, the connection is considered to be created. However, it does not need to be considered to be established at the time the connection enters the connected state. The only difference between the newly created connection and the established connection is the link layer connection supervision timeout value.

When two devices are connected, the two devices act in different roles.

The link layer that performs the master role is called a master, and the link layer that performs the slave role is called a slave. The master controls the timing of the connection event, and the connection event is the point in time when the master and the slave are synchronized.

Hereinafter, the packet defined in the Bluetooth interface will be briefly described. BLE devices use the packets defined below.

Packet Format

The link layer has only one packet format used for both advertisement channel packets and data channel packets.

Each packet consists of four fields: Preamble, Access Address, PDU, and CRC.

When one packet is sent on an advertising physical channel, the PDU will be an advertising channel PDU, and when one packet is sent on a data physical channel, the PDU will be a data channel PDU.

Advertising channel PDU (Advertising Channel PDU )

The advertising channel PDU (Packet Data Unit) has a 16-bit header and payloads of various sizes.

The PDU type field of the advertising channel PDU included in the header indicates a PDU type as defined in Table 1 below.

PDU Type	Packet Name
0000	ADV_IND
0001	ADV_DIRECT_IND
0010	ADV_NONCONN_IND
0011	SCAN_REQ
0100	SCAN_RSP
0101	CONNECT_REQ
0110	ADV_SCAN_IND
0111-1111	Reserved

Advertising PDU (Advertising PDU )

The following advertising channel PDU types are called advertising PDUs and are used in specific events.

ADV_IND: Connectable Non-Oriented Ads Event

ADV_DIRECT_IND: Connectable Directional Advertising Event

ADV_NONCONN_IND: Non-Connectable Non-Oriented Ads Event

ADV_SCAN_IND: Scannable Non-Oriented Ads Event

The PDUs are transmitted at the link layer in the advertisement state and received by the link layer in the scanning state or initiating state.

scanning PDU (Scanning PDU )

The advertising channel PDU type below is called a scanning PDU and is used in the state described below.

SCAN_REQ: Sent by the link layer in the scanning state and received by the link layer in the advertising state.

SCAN_RSP: Sent by the link layer in the advertising state and received by the link layer in the scanning state.

Start PDU (Initiating PDU )

The advertising channel PDU type below is called the initiating PDU.

CONNECT_REQ: Sent by the link layer in the initiating state and received by the link layer in the advertising state.

Data channel PDU (Data Channel PDU )

The data channel PDU has a 16-bit header, payloads of various sizes, and may include a message integrity check (MIC) field.

As described above, the procedure, state, packet format, etc. in the BLE technology may be applied to perform the methods proposed herein.

5 is a diagram illustrating an example of a structure of a GATT profile of Bluetooth low power energy.

Referring to FIG. 5, a structure for exchanging profile data of Bluetooth low power energy may be described.

In detail, the GATT (Generic Attribute Profile) defines a method of exchanging data using services and characteristics between Bluetooth LE devices.

In general, a peripheral device (for example, a sensor device) serves as a GATT server, and has a definition of a service and a characteristic.

To read or write data, the GATT client sends a data request to the GATT server, and all transactions begin at the GATT client and receive a response from the GATT server.

The GATT-based operating structure used in the Bluetooth LE is based on Profile, Service, and Characteristic, and may form a vertical structure as shown in FIG. 5.

The profile consists of one or more services, and the service may consist of one or more features or other services.

The service divides data into logical units and may include one or more characteristics or other services. Each service has a 16-bit or 128-bit identifier called the Universal Unique Identifier (UUID).

The characteristic is the lowest unit in the GATT based operation structure. The property contains only one data and has a UUID of 16 bits or 128 bits similar to the service.

The property is defined as a value of various pieces of information and requires one attribute to contain each piece of information. Multiple properties of the above properties can be used.

The attribute consists of four components and has the following meaning.

handle: the address of the property

Type: the type of attribute

Value: the value of the property

Permission: permission to the property

The present invention proposes a method in which a sensor measures and stores human activity using a GATT-based operation structure of the Bluetooth LE, and a client retrieves stored information from the sensor.

6 is a flowchart illustrating a method of forming a connection using Bluetooth low energy (LE) between devices.

As shown in FIG. 6, the first device 300 transmits an advertising message to the second device for the Bluetooth LE connection between the first device 300 and the second device 400. (S6010).

As described above, the advertisement message is used to provide its own information to other devices using Bluetooth LE, and may include various information such as service information and user information provided by the device.

After the second device 400 checks the information included in the advertisement message transmitted by the first device 300, a connection request message for requesting a Bluetooth LE connection to the sound first device 300 (Connection request) message (S6020), and the first device 300 and the second device 400 form a Bluetooth Low Energy (LE) connection (S6030).

In such a method, if there is no user interface (UI) in the first device 300 and / or the second device 400, connection formation cannot be controlled, and PIN number confirmation and connection setting control are impossible. There is a disadvantage.

Accordingly, the present invention proposes a method of forming a connection between the first device 300 and the second device 400 by using a third device to solve such a problem.

7 is a diagram schematically illustrating a method of controlling connection formation between other devices through a control device according to an embodiment of the present invention.

As shown in FIG. 7, in order to form a connection between the first device 300 and the second device 400, a third device 500 is required, and the third device 500 is A new control protocol is needed to control the first device 300 and the second device 400.

Hereinafter, a control device indicating a device for controlling connection formation between the first device 300 and the second device 400 is referred to as the third device 500.

The third device 500 controls the connection state of other devices (eg, Bluetooth devices) without using an actual service or profile.

In this case, the third device 500 needs to know information (eg, interface information, service information, etc.) of the other devices in order to control the connection state of the other devices.

8 is a diagram illustrating an example of characteristics of a GATT (Generic Attribute Profile) for controlling a device through a Bluetooth Low Energ (LE) technology according to an embodiment of the present invention.

A description of the characteristics included in the GATT Data Base included in FIG. 8 is as follows.

-Peer Device: Uses the address value of the peer device to be paired and the name of the device. The value of the paired device can be provided by setting the value.

agent device: may provide information of a control device capable of controlling pairing or connection.

-Group Info: Use the name or address of the group to which the device belongs. Names or addresses of multiple groups can be used, and the device can be identified as a group owner or a member.

-Device State: means Scanning, Standby, Advertising, Initiating, or Connection State corresponding to the Link Layer State of the controlled device. One state and several states can be specified. . Write allows the user to request the corresponding status function and reads the current status of the controlled device. Indications can be used to identify changes in the state of the controlled device.

pairing / connection control point: A control point function that indicates which action the controlled device will perform.

Connection State: property for the controlled device to provide connection information to the controlling device.

WhiteList: Contains information of devices that a controlled device can connect to, and can be extended to connect to multiple devices if necessary.

WhiteList Control Point: Represents a control function for managing a white list managed by a controlled device.

Bondable: may indicate whether the controlled device provides a bonding function.

-Security: Indicates whether to provide authentication, authorization, encryption, and data signing functions.

-Connected Tech Type & Service Type: Indicates the type of communication method (eg WiFi, Ethernet, BR / EDR, BLE, etc.) and the connected service type to be connected.

Scheduled Time: A time value for requesting a connection at a specific time.

FIG. 9 illustrates an example of a peer device and an agent device having the characteristics shown in FIG. 8, wherein FIG. 8 (a) shows a peer device and FIG. 8 (b) shows information about an agent device. An example is shown.

FIG. 10 illustrates an example of a device state of the characteristic shown in FIG. 8, wherein the type of the device state is a device operable with a current device state indicating a state of a current device as shown in FIG. It can be divided into Operated Device States indicating the state of, can be distinguished through the mode of FIG. For example, if the Mode has a value of '0', it indicates Current Device State and if it has a value of '1', it indicates Operated Device States.

In this case, when the mode indicates the current device state, only one state information indicating the state of the current device may be provided, and when the mode indicates the operated device state, the state information may be provided for operating the current device. can do.

For example, when the Mode indicates Current Device State, only one bit among the bits indicating the device state shown in FIG. 10B is available (the value of the specific bit indicating the state is' 1). In the case of an Operated Device States, multiple bits can be used (multiple bit values can be '1').

FIG. 11 illustrates an example of a paring / connection control point of the characteristic shown in FIG. 8, and a control device may control a device by instructing a device to perform a specific operation through the paring / connection control point. have.

Each operation of the paring / connection control point illustrated in FIG. 11 may be defined as follows.

Execute: Provides the states defined in Device States to the device (multiple states can be provided)

-Advertising Start: If the Advertising is not in operation, start the operation.

  (Start the feature immediately and / or enable it if the state is disabled in Device States)

-Advertising Stop: If the Advertising is in operation, the operation stops.

 (Stops the function immediately and / or disables it if the state is enabled in Device States.)

-Scanning Start: Start Scanning if not scanning

 (Start the feature immediately and / or enable it if the state is disabled in Device States)

-Scanning Stop: If the Advertising is in operation, the operation stops

  (Stops the function immediately and / or disables it if the state is enabled in Device States.)

-Connecting Request: Set up Peer Device and Connection

-Connection Stop: Stop the Peer Device and Connection

-Refresh Bonding: Refresh the bonding information (or delete the bonding information altogether).

-Refresh Security: Retry security procedures (authentication, authorization, encryption) between two devices and update information (key values for each security procedure)

-Pairing Request: Execute pairing procedure with peer device

-Pairing Stop: End Pairing with Peer Device

-Authentication: execute authentication with peer device

Encryption: Peer Device and Encryption

-Authorization: Run Peer Device and Authorization

FIG. 12 illustrates an example of a connection status of the characteristic illustrated in FIG. 8, and may provide status information of a controlled device. In this case, the following case may exist in the provision of the state information.

-Simply provide connection

-Provides connection status and connected device information (address or friendly name of peer device)

-Provide various state (initiating, advertising, scanning) including connection

-Initiating state can provide peer device information

-In advertising and scanning state, detailed information (advertising / scanning method and operation mode) can be provided together

-If necessary, connection related information such as Connected Tech Type, Service Type, Security, and Group Info can be provided.

Through the connection state, the control device can know the state of the controlled device.

FIG. 13 illustrates two examples of the connection tech type of the characteristic shown in FIG. 8, through which a control device can control which communication technology method the controlled device connects through, and which communication You can tell if it is connected through the technical method.

The communication technology scheme shown in FIG. 13 is one example and may include various communication technology schemes.

FIG. 14 illustrates an example of the security of the characteristic shown in FIG. 8, through which the security mode and / or security level provided by the device may be controlled.

(A) of FIG. 14 shows a security mode of the device, (b) shows a security level of the device, and (c) shows a security mode and a security level.

Through the Security Mode and Security Level, it is possible to determine whether to provide authentication, authorization, encryption, and data signing functions. The control device may match the security mode and / or security level of the two devices through a write message when the security mode and / or security level do not match while controlling the connection of the two devices.

The characteristics of the Bluetooth GATT described with reference to FIGS. 8 to 14 may be used in embodiments of the present invention to be described below.

15 illustrates an example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 15, a third device that is a control device may control a connection through a peer device and a pairing control point included in a characteristic stored in a GATT database.

In detail, the first device 300 transmits an advertisement message to the third device 500 (S15010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, and role information of the first device.

For example, as illustrated in FIG. 15, the first device 300 may include a pairing control service and an object transfer service in the advertisement message. Information to provide and information that the server itself serves as a server may be transmitted to the third device (300).

Here, the pairing control service (Pairing Control Service) refers to a service supported by the BLE to control the connection of another device through the control device in Bluetooth communication.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Like the first device 300, the second device 400 may transmit an advertisement message to the third device 500 (S15020). The advertisement message is service information that can be provided by the second device 400, information related to the second device 400, and the second device 400 like the advertisement message transmitted by the first device 300. ) May include role information.

Thereafter, the third device 500 requests a connection to form a Bluetooth LE connection with the second device 400 based on an advertisement message transmitted from the first device 300 and the second device 400. A message (Connection Request Message) is transmitted (S15030).

Subsequently, the third device 500, which forms a connection with the second device 400 through BLE, has the characteristics illustrated in FIG. 8 so that the second device 400 is connected with the first device. Request writing of the address of the first device 300 to a peer device of the characteristic (S15040).

In this case, the third device 500 may also provide information of the first device 300 while requesting writing.

The third device 500, which has requested the second device 400 to write the address of the first device 300, sends the second device 400 '0x06' of the pairing / connection control point described with reference to FIG. 8. The connection with the first device 300 may be instructed by requesting a write in operation S15050.

After receiving the advertisement message from the first device 300, the second device 400, which has received an instruction to connect with the first device 300 from the third device 500 (S15060), The connection request message is transmitted to the first device (S15070).

Thereafter, the first device 300 and the second device 400 form a connection (S15080), and the third device 500 uses the indication message to indicate the connection state information shown in FIG. 8. It may be transmitted to (S15090).

In this case, in order for the third device 500 to receive the indication message, it is necessary to manage bonding information and maintain a continuous connection state between the second device 400.

Through the above method, the third device 500 may control the connection by receiving information for connection control from the first device 300 and the second device 400.

16 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 16, a third device which is a control device adds information of a second device to a whitelist representing a list of connectable devices of the first device through connection with a first device. And control of the connection of the second device.

In detail, the first device 300 transmits an advertisement message to the third device 500 (S16010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, and role information of the first device.

For example, as illustrated in FIG. 15, the first device 300 may include a pairing control service and an object transfer service in the advertisement message. Information to provide and information that the server itself serves as a server may be transmitted to the third device (300).

Here, the pairing control service (Pairing Control Service) refers to a service supported by the BLE to control the connection of another device through the control device in Bluetooth communication.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Thereafter, the third device 500 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300. (S16020).

The third device 500 connected to the first device 300 through the Bluetooth LE is configured to obtain whitelist information indicating a list and / or information of devices to which the first device is connectable. A white list read request is made to the first device 300 in operation S16030.

The first device 300 transmits the white list information to the third device 500 in response to the request of the third device 500 (S16040).

In this case, the white list information may be transmitted through a read response message or an L2CAP channel.

The third device 500 that has received the whitelist information from the first device 300 sends the first device 300 to the first device 300 when there is information of the second device 400 in the whitelist information. The registration request of the second device 400 is not performed.

However, if the information of the second device 400 is not included in the white list information, in order to add the second device 400 to the white list of the first device 300 in FIG. The write request of the WhiteList Control Point described above is performed (S16050).

In this case, the third device 500 may transmit the information of the second device 400 together to add the information of the second device 400 to the white list.

The first device 300 may add the information of the second device 400 to the white list and transmit the changed white list information to connected devices and / or bonded devices through an indication message. (S16060).

Thereafter, when the advertisement message is transmitted from the second device 400 (S16070), the first device 300 transmits a connection request message to the second device 400 to be connected with the second device 400. It may be (S16080).

As such, the third device 500 may control devices to which the first device 300 can connect by adding or deleting device information to the white list of the first device 300.

According to another embodiment of the present invention, the third device controls the list of devices to which the first device 300 does not connect by adding or deleting device information to a blacklist different from the whitelist. can do.

17 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 17, a third device, which is a control device, may control the first device to perform a security procedure and a bonding procedure with the second device by activating a bonding function or a security function of the first device.

First, since step S17010 and step S17020 are the same as step S16010 and step S16020 of FIG. 16, description thereof will be omitted.

The third device 500 may activate a bonding function of the first device 300 by making a write request of Bondable to the property shown in FIG. 8 (S17030).

When the bonding function is activated, if the attempt to reconnect by maintaining the bonding information of the connected devices can be quickly reconnected without a pairing procedure.

In addition, when the third device 500 wants to activate a security function of the first device 300, the third device 500 requests the write of the security illustrated in FIG. Security function can be activated ”(S17040).

In this case, a security mode may be set, and the first device 300 may execute a security function (eg, authentication, authorization, encryption, privacy, etc.) according to the set security mode.

Thereafter, the first device 300 transmits an advertisement message to the second device 400 (S17050), and the second device 400 receiving the advertisement message is connected to the first device 300. The request message may be transmitted to establish a connection with the first device 300 (S17060).

Since the bonding function and the security function are activated by the third device 500, the first device 300 connected to the second device 400 may be in a security mode set with the second device 400. According to the security procedure (S17070), the bonding procedure is performed according to the set Bondable value (S17080).

18 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 18, a third device which is a control device may control the first device to control the first device to connect with the second device through a specific wireless communication technology.

In detail, the first device 300 transmits an advertisement message to the third device 500 (S18010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message includes service information supported by the first device 300, information related to the first device, role information of the first device, and / or a type of wireless communication technology supported by the first device. May contain information.

For example, as illustrated in FIG. 15, the first device 300 may include a pairing control service and an object transfer service in the advertisement message. Information to provide to the third device 300, including information indicating that it serves as a server, and / or the type of wireless communication technology that it supports, such as Bluetooth LE, Wi-Fi, or NFC. Can be.

Here, the pairing control service (Pairing Control Service) refers to a service supported by the BLE to control the connection of another device through the control device in Bluetooth communication.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Thereafter, the third device 500 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300. (S18020).

The third device 500, which has connected with the first device, sends the first device 300 to the first device 300 to set a communication technology type for the first device to establish a connection with the second device 400. A request for writing a Tech Type of the characteristic shown in FIG. 8 may be requested (S18030).

For example, if the third device 500 wants to control the first device 300 to perform a connection with the second device 400 through the Bluetooth LE, the third device 500 is connected to the first device. The device 300 may request writing to set the Tech Type to Bluetooth LE.

Thereafter, like the first device 300, the second device 400 also transmits an advertisement message to the third device 500 (S18040), and the third device 500 transmits the second device 400. In operation S18050, a connection request message may be transmitted to the second device 400.

The advertisement message transmitted by the second device 400 is service information supported by the second device 400, information related to the first device, and the first device, similarly to the advertisement message transmitted by the first device 300. Role information of one device and / or type information of a wireless communication technology supported by the first device.

Like the first device, the third device 500 may request a write request from the second device 400 to set the Tech Type of the second device to Bluetooth LE (S18060).

Thereafter, the third device 500 is configured to connect the first device (Peer device) of the characteristics of the second device 400 to control the second device 400 to connect with the first device 300. 300) The request for writing an address may be provided, and information of the first device 300 may be provided (S18070).

The third device 500 may request writing of a service type to the second device in order to configure a service to be provided through the Bluetooth LE (S18080). For example, if it is desired to provide an object transfer service through the connection of the second device 400 and the first device 300, the third device 500 provides a service type to the second device 400. The write request message requesting the setting may be transmitted to the object transfer service.

The third device 500 that has set the service type requests the second device 400 to write '0x06' of a pairing / connection control point, so that the second device 400 receives the first device 300. ) And the connection procedure can be performed (S18090).

The second device 400, which has been instructed to transmit a connection request to the first device 300 by writing the Pairing / Connection Control Point from the third device 500, receives an advertisement message from the first device. Afterwards (S18100), a connection request message may be transmitted to the first device to form a Bluetooth LE connection with the first device (S18110 and S18120).

19 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 19, after the third device, which is the control device, controls the first device to be connected to the second device, the connection state information is changed when a change in the connection state between the first device and the second device occurs. I can receive it.

First, since step S19010 and step S19020 are the same as step S18010 and step S18020 of FIG. 18, description thereof will be omitted.

After the third device 500 connects with the first device 300, in order to set a device to control pairing / connection of the first device 300, the first device ( 300, a request is made to write an address of a device to control pairing / connection to an agent device (S19030).

Hereinafter, a device to control pairing / connection in an embodiment of the present invention will be described using the third device 500 as an example.

Thereafter, the first device 300 transmits an advertisement message including service information that the first device 300 can provide to the second device 400 (S19040), and receives the second device 400. ) Forms a connection with the first device by transmitting a connection request message to the first device 300 (S19050 and S19060).

The first device 300 forms a connection with the second device 400, so that its connection status is changed, and the changed connection status information is transmitted to the third device, which is a device set in the agent device, through an instruction message. Can be transmitted (S19070).

In this case, the connection state information is information of a device state which is a characteristic indicating a state of the first device as described above with reference to FIG. 10, and information of a peer device which is a characteristic including information of the second device 400 as a counterpart device. And the like.

In order for the third device 500 to receive the indication message, it is necessary to maintain bonding information management and a connection state with the first device 300.

Thereafter, the first device 300 may terminate the connection with the second device 400 by transmitting a connection termination message to the second device (S19080).

The first device 300 is a device configured for the agent device to change the connection state information to the third device 500 since the connection state of the second device 400 has changed since the connection to the second device 400 is terminated. It may transmit to the 3 device via an indication message (S19090).

In this case, the connection state information is a peer that is a characteristic that includes information of the device state, which is a characteristic indicating the state of the first device as described in FIG. It may include information of the device.

As described above, in order for the third device 500 to receive the indication message, the bonding information management and the connection state with the first device 300 must be maintained.

20 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 20, a third device as a control device sets an authentication key for connection to a first device and a second device, and the first device and the second device authenticate each other using the set authentication key. Authentication can be done.

First, since step S20010 and step S20020 are the same as step S18010 and step S18020 of FIG. 18, description thereof will be omitted.

When the first device 400 supports Secure Simple Pairing (SSP), the third device 500 passes a passkey to the first device 300 to set a passkey to be used for the SSP. A write request may be made (S20030).

The SSP is a function for making pairing easier, and refers to a pairing method using a public key encryption format, not a pairing using an existing PIN code. The pass key represents an authentication key used in the SSP, and devices supporting the SSP may authenticate the counterpart device by exchanging and comparing the pass keys.

Thereafter, the third device 500 may perform a connection procedure with the second device 400 to set a pass key for the second device 400 to be connected with the first device 300. .

First, the second device 400 transmits an advertisement message to the third device 500 like the first device 300 (20040). The advertisement message may include service information supported by the second device 400, information related to the second device, role information of the first device, and / or the first message, similar to the advertisement message transmitted by the first device. One device may include type information of a wireless communication technology that can be supported.

In this case, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Thereafter, the third device 500 transmits a connection request message to form a Bluetooth LE connection with the second device 400 based on the advertisement message transmitted from the second device 400. (S20050).

Thereafter, the third device 500 connected to the second device 400 sends the second device 400 to the second device 400 to set the pass key of the second device 400 to be the same as the first device. Request to write a pass key (S20060).

Through this, the same pass key capable of performing the SSP with the first device 300 may be set in the second device 400.

Thereafter, the first device 300 transmits an advertisement message including service information to the second device 400 (S20070), and the second device receives an advertisement message from the first device 300. A connection request message is transmitted to the first device 300 to perform a connection procedure with the first device 300 (S20080).

The first device 300 and the second device 400 perform an authentication procedure for connection, so that if the pass key of the first device 300 and the pass key of the second device 400 are the same, If it is successful and not the same, authentication fails (S200090).

In this way, the control device can control the authentication procedure of the devices by setting a pass key of the devices to control the connection.

21 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 21, unlike FIG. 20, the first device and the second device may request a third device, which is a control device, to set a pass key to perform an authentication procedure through the set pass key.

First, since step S21010 and step S21020 are the same as step S18010 and step S18020 of FIG. 18, description thereof will be omitted.

Thereafter, the third device 500 receives an advertisement message from the second device 400 (S21030).

The advertisement message may include service information supported by the second device 400, information related to the second device, role information of the first device, and / or the first message, similar to the advertisement message transmitted by the first device. One device may include type information of a wireless communication technology that can be supported.

In this case, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Thereafter, the third device 500 transmits a connection request message to form a Bluetooth LE connection with the second device 400 based on the advertisement message transmitted from the second device 400. By connecting to the second device (S21040).

After the first device 300 and the second device 400 are connected to the third device 500, the first device 300 includes service information supporting the second device 400. In operation S21050, the second device 400 transmits a connection request message to the first device 300 to establish a connection with the first device 300 in operation S21060.

Thereafter, the first device 300 and the second device 400 start an authentication procedure for authenticating the mutual device (S21070). In order to perform the authentication procedure, the first device 300 requests a pass key for authentication from the third device 500 (S21080), and the third device 500 responds to the first device 300 in response thereto. The pass key is written to the device 300 (S21090).

Like the first device 300, the second device 400 requests a pass key for authentication from the third device 500 in order to perform an authentication procedure (S21100), and the third device 500. In response to this, the pass key is written to the second device 300 (S21110).

The first device 300 and the second device 400 in which the pass key is set from the third device 500 compare the pass keys with each other, and if the pass keys are the same, the authentication succeeds. Failure to end the authentication procedure (S21120).

22 illustrates another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 22, a third device which is a control device may control the first device and the second device to connect through a specific wireless communication technology.

First, since steps S22010 to S22040 are the same as those of steps S15010 to S15040 of FIG. 15, description thereof will be omitted.

The third device 500 that is connected to the second device 400 has a Tech Type of a characteristic in order to set a wireless communication technology for the second device 400 to connect with the first device 300. In step S22050, a specific wireless communication technology may be requested to be written. Hereinafter, the wireless communication technology is assumed to be Wi-Fi.

The third device 500 having the Tech Type of the characteristic set to Wi-Fi may be configured to instruct the second device 400 to perform a connection procedure with Wi-Fi with the first device 300. 2 The device 400 may request to write '0x06' indicating that the connection request of the pairing / connection control point characteristic is performed (S22060).

The second device 400 that is instructed to perform a connection through the Wi-Fi with the first device 300 from the third device 500 is connected to the first device 300 via Wi-Fi It becomes (S22070).

23 shows another example of a method of controlling a connection of another device through a control device according to an embodiment of the present invention.

Referring to FIG. 23, the third device may control the second device or the first device to allow the second device or the first device to connect at a specific time.

First, since steps S23010 to S23030 are the same as those of steps S15010 to S15030 of FIG. 15, description thereof will be omitted.

The third device 500 connected with the second device 400 instructs a request for writing a Scheduled Time property (S23040) and a connection request to set a time for the second device 400 to transmit a connection request message. In order to do so, the writing of a pairing / connection control point characteristic may be requested (S23050).

Thereafter, at the time written in the Scheduled Time property, the second device 400 transmits a connection request message to the first device 300 in order to connect with the first device 300 (S23060). It is connected to the first device (S23070).

FIG. 24 is a diagram illustrating another example of characteristics of a GATT (Generic Attribute Profile) for controlling a device through a Bluetooth Low Energ (LE) technology according to an embodiment of the present invention.

Referring to FIG. 24, a device may set a password in a characteristic of a GATT to control pairing of another device through Bluetooth, and control an operation of the other device when the set password is input. .

A description of characteristics not described in FIG. 8 among the characteristics included in the GATT Data Base included in FIG. 24 is as follows.

-Password: Password for the authority of a specific user or device

-Pairing Feature: Supported feature information

FIG. 25 is a diagram illustrating an example of characteristic information indicating characteristic that a device can provide according to an embodiment of the present invention. FIG.

Referring to FIG. 25, the device may include the characteristic information in an advertisement message and transmit the characteristic information to the neighboring device, thereby informing the neighboring control device of the characteristic of the GATT that it can provide.

The characteristic information may be referred to as pairing agent feature information.

In addition, the characteristic information illustrated in FIG. 25 may be an example of a pairing feature of FIG. 24.

The characteristic information may be displayed in a bit form, and through the characteristic information, the control device may know which function of the device can be controlled.

Peer Device Supported: Whether or not to provide information of the target to be paired (available as the default connected device id)

-Agent Device Supported: Whether to register information about a specific agent device

-Group Info Supported: Whether to provide information to control the connection to a group of specific devices

Device State Supported: Whether to provide information (Advertising, Scanning, Connectable) on the state provided in the link layer of the controlled device.

Connection Status Supported Pairing / Connection Control Point: Whether to provide connection information (connection state or pairing state) of the controlled device

-WhiteList Supported: Information indicating whether the WhiteList of the controlled device is controllable. If controllable, the device can be added or deleted using the WhiteList Control Point.

-Bondable Supported: Information for knowing whether the information can be provided to use the bonding information when the device is connected or whether the information can be directly controlled. If the bonding information is provided, the authentication step may not be performed when the information is used for the connection.

-Security Supported: Whether to provide the function to set whether authentication, authorization, encryption, and data signing functions are used for connection.

-Passkey Supported: Information that tells you whether or not to provide the ability to utilize Passkey Entry companies when connecting devices.

Password Supported: Information indicating whether password control is enabled or if a password has been set.

26 is a diagram illustrating an example of a method for setting a control device according to an embodiment of the present invention.

Referring to FIG. 26, when the control device configured for the characteristic (Characteristic) requests a connection for the control of the device, it is possible to connect with the controlled device, but the control device that is not set cannot connect.

In detail, the controlled device (hereinafter, the first device 300) transmits an advertisement message to the third device 500 (S26010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, role information of the first device, and / or characteristic information described with reference to FIG. 25. .

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service to the advertisement message, and the characteristic information. A 1st bit corresponding to “Agent Device Supported” may be set to '1' and transmitted to the third device.

Here, the pairing control service (Pairing Control Service) refers to a service supported by the BLE to control the connection of another device through the control device in Bluetooth communication.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

The third device 500 receiving the advertisement message may know that the first device 300 may register information on a pairing control service and an agent device.

The third device 500 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300 (S26020). ).

Thereafter, the third device 500 and the first device 300 may be connected through a Bluetooth LE by performing a connection procedure.

The third device 500 connected to the first device 300 through the Bluetooth LE has its own information (eg, an address value) in an “Agent Device” characteristic indicating a control device of the first device 300. The write request message requesting the write of) may be transmitted (S26030).

Receiving the write request message, the first device 300 writes the information of the third device 500 to the "Agent Device" characteristic indicating the pairing control device of the characteristic shown in FIG.

Thereafter, the first device transmits the advertisement message described in step S26010 to surrounding devices (S26040).

The fourth device 600 that has received the advertisement message may know that the first device 300 supports a pairing control service through the advertisement message, and to control pairing of the first device 300. In operation S26050, a connection request message is transmitted to the first device.

Upon receiving the connection request message, the first device 300 receives device information input to the “Agent Device” and information of the fourth device 600 to determine the connection with the fourth device 600. Can be compared.

As a result of the comparison, since the information of the fourth device 600 is different from the information input to the “Agent Device”, the connection request of the fourth device 600 is not accepted.

Through this method, it is possible to control the connection of the control device capable of controlling the pairing of the device.

27 is a diagram illustrating an example of a method for transmitting / receiving image information of a device according to an embodiment of the present invention.

Referring to FIG. 27, the control device may know a state of a device controlled by receiving information related to characteristics of the controlling device.

In detail, the first device 300 transmits an advertisement message to the third device 500 (S26010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, role information of the first device, and the like.

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service in the advertisement message.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

The third device 500 transmits a connection request message to the first device 300 to control the first device 300 (S27020).

The first device 300 receiving the connection request message may perform a connection procedure with the third device 500 to establish a connection via Bluetooth LE.

The third device 500 connected to the first device 300 through the Bluetooth LE sends the first device 300 the FIG. 24 to know the characteristics supported by the first device 300. In step S27030, a read request message of “Pairing Feature” shown in FIG.

Upon receiving the read request message, the first device 300 includes the “Pairing Feature” in a read response message and transmits the read request message to the third device 500 (S27040).

The “Pairing Feature” may be in the format shown in FIG. 25, in which a bit of “Device State Supported” may be set to “1”.

It can be seen that the first device 300 can provide state information of the device through the “pairing feature”.

Thereafter, the third device 500 transmits a read request message to the first device 300 to request a “Device State” characteristic value indicating the device state (S27050).

Upon receiving the read request message, the first device 300 sends a read response message including a value of a “Device State” characteristic including state information supported by the read device and current state information of the first device. Send to the device (S27060).

Upon receiving the read response message, the third device 500 may know the state information supported by the first device and the state of the first device 300.

28 is a diagram illustrating an example of a method for setting a password for controlling a device according to an embodiment of the present invention.

Referring to FIG. 28, a password may be set to a characteristic for controlling a device so that the controlling device may control the controlled device only when the password matches.

In detail, the controlled device (hereinafter, the first device 300) transmits an advertisement message to the third device 500 (S28010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, role information of the first device, and / or characteristic information described with reference to FIG. 25. .

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service to the advertisement message, and the characteristic information. The 10th bit corresponding to “Password Supported” may be set to '0' and transmitted to the third device.

In this case, when the 10th bit is set to '0', the function of setting a password may be supported, but it may represent that the password is not set.

The pairing control service refers to a service supported by BLE in order to control a connection of another device through a control device in a Bluetooth communication.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

Upon receiving the advertisement message, the third device 500 may recognize that the first device 300 supports password characteristics, but no password is set.

The third device 500 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300 (S28020). ).

Thereafter, the third device 500 and the first device 300 may be connected through a Bluetooth LE by performing a connection procedure.

The third device 500 connected to the first device 300 via the Bluetooth LE requests to write a password (first password) in the “Password” property in order to set the password of the first device 300. In operation S28030, a write request message is transmitted to the first device.

Hereinafter, the case where the password is '1234' will be described as an example.

Upon receiving the write request message, the first device 300 sends a write response message including setting information indicating whether '1234' is written as a password (first password) in a “Password” characteristic. In step 500, it is transmitted (S28040).

The setting information indicates that the password was successfully written when the password was successfully written, and not written if it was not written.

Thereafter, the first device 300 transmits an advertisement message to the fourth device 600 (S28050). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include pairing control service information supported by the first device 300 and / or characteristic information described with reference to FIG. 25.

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service to the advertisement message, and the characteristic information. The 10th bit corresponding to “Password Supported” may be set to '1' and transmitted to the third device.

In this case, when the 10th bit is set to '1', it may support a function of setting a password and may indicate that a password is set.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

The fourth device 600 receiving the advertisement message may know that the first device 300 supports password characteristics and a password is set.

The fourth device 600 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300 (S28060). ).

Thereafter, the fourth device 600 and the first device 300 may be connected through a Bluetooth LE by performing a connection procedure.

The fourth device 600 connected to the first device 300 through the Bluetooth LE may use the “Pairing / Connection Control shown in FIG. 8 or FIG. 24 to instruct the first device 300 in a specific operation. Point ”transmits a write request message requesting the writing of a specific operation to the first device 300 (S28070).

The write request message may include indication information indicating a specific operation and a second password.

The first device 300 receiving the write request message compares the first password with the second password.

As a result of the comparison, when the first password and the second password are different, the result information indicating that the password fails to write to the “Pairing / Connection control Point” characteristic because the password is different to the fourth device 600 is included. Send an error response message.

However, when the first password and the second password coincide, the first device 300 has the same password as the fourth device 600, and the writing of the “Pairing / Connection control Point” characteristic is successful. The write response message including the result information indicating that is transmitted is transmitted, and the specific operation is performed (S28080).

In this way, a password for controlling the device can be set, and the operation of the device can be controlled only when the passwords match.

29 and 30 are diagrams illustrating still another example of a method and characteristic for setting a password for controlling a device according to an embodiment of the present invention.

29 and 30, when the password 1 and the password 2 of the characteristics do not match, all requests transmitted from the device may be rejected, and if there is a match, the device may be controlled even if there is no separate password input. Can be.

The characteristic illustrated in FIG. 30 represents a characteristic composed of “Password 1” and “Password 2” instead of the “Password” characteristic illustrated in FIG. 24.

First, step S29010 and step S29020 are the same as step S28010 and step S28020 of FIG. 28 so that description thereof will be omitted.

Thereafter, the third device 500 and the first device 300 may be connected through a Bluetooth LE by performing a connection procedure.

The third device 500 connected to the first device 300 through the Bluetooth LE has a password (first password) in the “Password 1” characteristic of FIG. 30 to set a password of the first device 300. In operation S29030, a write request message requesting the write of the 1) is transmitted to the first device.

Upon receiving the write request message, the first device 300 sends a write response message to the third device 500 including setting information indicating whether a password (first password) is written in a “Password 1” characteristic. Transmit (S29040).

The setting information indicates that the password was successfully written when the password was successfully written, and not written if it was not written.

Thereafter, the first device 300 transmits an advertisement message to the fourth device 600 (S29050). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include pairing control service information supported by the first device 300 and / or characteristic information described with reference to FIG. 25.

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service to the advertisement message, and the characteristic information. The 10th bit corresponding to “Password Supported” may be set to '1' and transmitted to the third device.

In this case, when the 10th bit is set to '1', it may support a function of setting a password and may indicate that a password is set.

In addition, the advertisement message may be transmitted to the third device 500 in a broadcast manner or a unicast manner.

The fourth device 600 receiving the advertisement message may know that the first device 300 supports password characteristics and a password is set.

The fourth device 600 transmits a connection request message to form a Bluetooth LE connection with the first device 300 based on the advertisement message transmitted from the first device 300 (S29060). ).

Thereafter, the fourth device 600 and the first device 300 may be connected through a Bluetooth LE by performing a connection procedure.

The fourth device 600 connected to the first device 300 through the BLUETS LE requests a write of a second password to the “Password 2” characteristic of the first device shown in FIG. 30. To transmit (S29070).

Upon receiving the write request message, the first device 300 transmits a write response message to the third device 500 including setting information indicating whether the second password is written in a “Password 2” characteristic. (S29080).

The setting information indicates that the password was successfully written when the password was successfully written, and not written if it was not written.

Thereafter, the fourth device 600 requests to write a specific operation to the “Pairing / Connection Control Point” characteristic shown in FIG. 8 or 24 to indicate the specific operation to the first device 300. The write request message is transmitted to the first device 300 (S29090).

The write request message may include indication information indicating the specific operation.

Upon receiving the write request message, the first device 300 compares the password 1 written in the “Password 1” characteristic with the password 2 written in the “Password 2” characteristic.

As a result of the comparison, when the first password and the second password are different, the result information indicating that the password fails to write to the “Pairing / Connection control Point” characteristic because the password is different to the fourth device 600 is included. Send an error response message.

However, when the first password and the second password coincide, the first device 300 has the same password as the fourth device 600, and the writing of the “Pairing / Connection control Point” characteristic is successful. The write response message including the result information indicating that is transmitted is transmitted, and the specific operation is performed (S29100).

31 is a diagram illustrating an example of a method for changing a password according to an embodiment of the present invention.

Referring to FIG. 31, the control device may release the password set in the controlled device and reset the password.

Specifically, it is assumed that the first device 300 having a password set through the method described with reference to FIG. 28 or 29 terminates the connection with the third device after the password is set.

Thereafter, the first device 300 transmits an advertisement message to the third device 500 (S31010). The advertisement message may be represented by an advertisement pack data unit (PDU), an advertisement packet, an advertisement, an advertisement frame, an advertisement physical channel PDU, or the like.

The advertisement message may include service information supported by the first device 300, information related to the first device, role information of the first device, and / or characteristic information described with reference to FIG. 25. .

For example, as illustrated in FIG. 15, the first device 300 may include information indicating that the first device 300 provides a pairing control service to the advertisement message, and the characteristic information. The 10th bit corresponding to “Password Supported” may be set to '1' and transmitted to the third device.

Upon receiving the advertisement message, the third device 500 may recognize that the first device 300 supports password characteristics and that a password is not set.

The third device 500 transmits a connection request message to the first device 300 to release or change the password set in the first device 300 to establish a Bluetooth LE connection with the first device 300. Make a connection (S31020).

The third device 500 connected to the first device 300 through the Bluetooth LE transmits a write request message to the first device in order to request the release of the password set in the first device (S31030). .

In this case, the write request message may include an unlock password (first unlock password) which is a password for releasing the password.

Upon receiving the write request message, the first device 300 compares the unlock password (second unlock password) in which the unlock password received from the third device is preset in the first device 300.

As a result of the comparison, when the first unlock password and the second unlock password are the same, the first device releases the previously set password, and writes a write response message including release information indicating that the password is successfully released. Transmitting to the third device (S31040).

However, if the first unlock password and the second unlock password are different from each other, the first device does not release the previously set password and does not release the previously set password, but includes an error response including release information indicating that the password release failed. Send a message to the third device.

The third device 500, which has released the password set in the first device through the step S31040, sends a write request message requesting the writing of a password to the “Password” property to reset the password. Transmit to the first device (S31050).

Upon receiving the write request message, the first device 300 transmits a write response message to the third device 500 including setting information indicating whether the password is written in a “Password” characteristic (S31040). .

The setting information indicates that the password was successfully written when the password was successfully written, and not written if it was not written.

In this manner, the third device may release the previously set password and reset the new password.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

The present disclosure relates to Bluetooth data transmission and reception, and more particularly, to a method and an apparatus capable of controlling pairing and connection between devices using Bluetooth Low Energy (LE) technology.

Claims (10)

1. In the method for the first device to control the second device using Bluetooth Low Energy (LE),

   Receiving, from the second device, an advertisement message including at least one of information related to a pairing control service or characteristic information related to a characteristic supported by the second device;

   Performing a connection procedure with the second device based on the advertisement message;

   Transmitting to the second device a first write request message for setting a first password to a control function included in the property,

   The first write request message includes the first password; And

   And receiving a first write response message including first setting information indicating whether the first password is set in response to the first write request message.
2. The method of claim 1,

   Transmitting a second write request message requesting the unlocking of the first password; And

   And receiving a second write response message including release information indicating whether the first password has been released.
3. The method of claim 2,

   Transmitting to the second device a third write request message for setting the second password to a control function included in the property,

   The third write request message includes the second password; And

   And receiving a third write response message including second setting information indicating whether the second password is set in response to the third write request message.
4. The method of claim 1,

   Sending a second write request message to the second device, the second write request message comprising instruction information and a second password for instructing the second device to perform a particular operation.
5. The method of claim 4, wherein

   If the second password is the same as the first password, receiving from the second device a second write response message that includes result information indicating performance of the particular operation.
6. The method of claim 4, wherein

   If the second password is different from the first password, receiving an error response message including result information indicating that the password is different.
7. In the method for the first device to control the second device using Bluetooth Low Energy (LE),

   Transmitting an advertisement message including at least one of information related to a pairing control service or characteristic information related to a characteristic supported by the second device to the first device;

   Performing a connection procedure with the first device based on the advertisement message;

   Receiving from the first device a first write request message for setting a first password in a control function included in the property,

   The first write request message includes the first password; And

   And receiving a first write response message including first setting information indicating whether the first password is set in response to the first write request message.
8. The method of claim 7, wherein

   Receiving a second write request message requesting writing of control device information indicating a control device controlling a specific operation of the second device from the first device; And

   Sending a second write response message in response to the second write request message to the first device.
9. The method of claim 8,

   Receiving a connection request message for controlling the second device from a third device; And

   Performing a connection procedure with the third device if the third device matches the control device.
10. In the first device for the first device to control the second device using Bluetooth Low Energy (LE),

    Communication unit for communicating with the outside by wireless or wired; And

    Including a processor that is functionally connected with the communication unit, The processor,

    Receiving an advertising message including at least one of information related to a pairing control service or characteristic information related to a characteristic supported by the second device from the second device,

    Perform a connection procedure with the second device based on the advertisement message;

    Send a first write request message for setting a first password to a control function included in the property to the second device,

    The first write request message includes the first password,

    And control to receive a first write response message including first setting information indicating whether the first password is set in response to the first write request message.

Images