WO2016010347A1 - 블루투스 le(low energy) 기술을 이용하여 디바이스의 위치를 측정하기 위한 방법 및 장치 - Google Patents
블루투스 le(low energy) 기술을 이용하여 디바이스의 위치를 측정하기 위한 방법 및 장치 Download PDFInfo
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- WO2016010347A1 WO2016010347A1 PCT/KR2015/007313 KR2015007313W WO2016010347A1 WO 2016010347 A1 WO2016010347 A1 WO 2016010347A1 KR 2015007313 W KR2015007313 W KR 2015007313W WO 2016010347 A1 WO2016010347 A1 WO 2016010347A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W64/00—Locating users or terminals or network equipment for network management purposes, e.g. mobility management
- H04W64/003—Locating users or terminals or network equipment for network management purposes, e.g. mobility management locating network equipment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W64/00—Locating users or terminals or network equipment for network management purposes, e.g. mobility management
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/14—Direct-mode setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/18—Self-organising networks, e.g. ad-hoc networks or sensor networks
Definitions
- the present invention relates to a device for measuring the location of a device using Bluetooth, which is a short-range technology, in a wireless communication system. will be.
- Bluetooth is a short-range wireless technology standard that can transmit and receive data by wirelessly connecting various devices in a short distance.
- a user 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.
- the device may mean an apparatus and an apparatus.
- 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.
- 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.
- An object of the present invention is to provide a method for estimating the position of a device using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- Another object of the present invention is to provide a method for estimating the position of a device by calculating an angle using a multiple antenna scheme using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- Another object of the present invention is to provide a method for estimating the position of another device by controlling a position estimating device by a third device using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- Another object of the present invention is to provide a method in which a third device can select another device to estimate a location by controlling a location estimation device by using a Bluetooth low energy (LE) technology.
- LE Bluetooth low energy
- a third device can search for another device capable of estimating a location by controlling a location estimating device using Blue Bluetooth Low Energy (LE) technology.
- LE Blue Bluetooth Low Energy
- Another object of the present invention is to provide a method in which a third device can set a location estimation period of another device by controlling a location estimation device by using a Bluetooth low energy (LE) technology.
- LE Bluetooth low energy
- Another object of the present invention is to provide a method in which a third device can set a location estimation method of another device by using a Bluetooth Low Energy (LE) technology to control a location estimation device.
- LE Bluetooth Low Energy
- an object of the present invention is to provide a method for a third device to obtain information about a location estimating device and other devices using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the present invention provides a method for estimating the position of a device using Bluetooth Low Energy (LE) technology to solve the above problems.
- LE Bluetooth Low Energy
- the location measurement request message requesting the location measurement of the first device from the third device Receiving; Sending a first request message to the first device requesting location information associated with the location of the first device; Receiving a first response message including the location information from the first device in response to the request message; Estimating location value information indicating a location of the first device based on the location information; Transmitting a location measurement response message including the estimated location value information to the third device, wherein the location value information is a latitude information, longitude information, altitude information of the first device or a transmission signal representing the strength of the transmitted signal At least one of the intensity information.
- the location value information is a latitude information, longitude information, altitude information of the first device or a transmission signal representing the strength of the transmitted signal At least one of the intensity information.
- the location measurement request message includes at least one of ID information indicating the first device, address information, or type information indicating the type of the first device.
- the present invention the step of transmitting a connection request message for the Bluetooth connection to the first device; And establishing the Bluetooth connection with the first device based on the connection request message.
- the location measurement request message is transmitted in a unicast or broadcast manner.
- the present invention if the location measurement request message is transmitted in the unicast (Unicast) method, receiving a connection request message for the Bluetooth connection from the third device; And establishing a Bluetooth connection with the third device based on the connection request message.
- Unicast unicast
- the present invention also includes receiving a control message for requesting a specific operation from the third device to the second device; Performing the particular operation based on the control message; And sending a second response message to the third device in response to the control message.
- the specific operation is an operation of setting an interval in which the request message is transmitted.
- the present invention includes the steps of receiving a second request message for requesting connection information or status information of the second device from the third device; And sending a second response message including the at least one of the connection information or status information to the third device in response to the second request message.
- the present invention also includes receiving a control message for requesting a specific operation from the third device to the first device; Sending the control message to the first device.
- the communication unit for communicating with the outside by wireless or wired; And a processor operatively connected to the communication unit, wherein the processor receives a location measurement request message for requesting location measurement of the first device from the third device, and sends the first device to the first device.
- Transmit a first request message requesting location information associated with a location receive a first response message including the location information from the first device in response to the request message, and based on the location information; Estimating location value information indicating a location of one device and controlling to transmit a location measurement response message including the estimated location value information to the third device, wherein the location value information Latitude information, longitude information, altitude information of the first device or three of the transmitted signal
- the indicating provides a device comprising at least one of a transmitted signal strength information.
- the location measurement request message includes at least one of ID information indicating the first device, address information, or type information indicating the type of the first device.
- the processor transmits a connection request message for a Bluetooth connection to the first device, and controls to form the Bluetooth connection with the first device based on the connection request message.
- the location measurement request message is transmitted in a unicast or broadcast manner.
- the processor when the location measurement request message is transmitted in the unicast scheme, the processor receives a connection request message for a Bluetooth connection from the third device and based on the connection request message. To establish a Bluetooth connection with the third device.
- the processor receives a control message for requesting a specific operation from the third device to the second device, performs the specific operation based on the control message, and transmits to the third device. Control to transmit a second response message in response to the control message.
- the specific operation is an operation of setting an interval in which the request message is transmitted.
- the processor receives a second request message for requesting connection information or status information of the second device from the third device, and in response to the second request message, the connection information or status. Control to transmit a second response message including at least one of the information to the third device.
- the processor receives a control message for requesting a specific operation from the third device to the first device, and controls to transmit the control message to the first device.
- the effect of accurately estimating the position of the device by calculating the angle using a multiple antenna scheme is effective. have.
- the third device can estimate the position of another device using a location measuring device using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the third device can select the other device to estimate the position by controlling the position measuring device by using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the third device can search for devices capable of estimating the location of the location estimating device using the Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the third device can set the position estimation period by controlling the position estimation device by using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the third device can set the position estimation method by controlling the position estimation device by using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- the third device can obtain information about the position estimation device and the device by using the Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
- FIG. 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.
- FIG. 2 shows an example of an internal block diagram of a device that can implement the methods proposed herein.
- FIG. 3 shows an example of a Bluetooth low power energy topology.
- FIG. 4 is a diagram illustrating an example of a Bluetooth communication architecture to which the methods proposed herein may be applied.
- FIG. 5 is a diagram illustrating an example of a structure of a GATT (Generic Attribute Profile) of Bluetooth low power energy.
- GATT Generic Attribute Profile
- FIG. 6 is a diagram illustrating an example of estimating a location using a Bluetooth low power energy technology proposed in the present specification.
- FIG. 7 is a flowchart illustrating an example of estimating a location using the Bluetooth low power energy technology proposed in the present specification.
- FIG. 8 is a flowchart illustrating an example in which a third device estimates a location using a Bluetooth low power energy technology proposed in the present specification.
- FIG. 9 is a diagram illustrating an example of a device-to-device message flow for estimating a location of a third device using the Bluetooth low power energy technology proposed herein.
- FIGS. 10 and 11 are diagrams illustrating an example of a method and data format for estimating a location of a third device using the Bluetooth low power energy technology proposed herein.
- FIG. 12 and 13 illustrate another example of a method and data format for estimating a location of a third device by using the Bluetooth low power energy technology proposed herein.
- FIG. 14 is a diagram illustrating an example of a message flow of a method for a third device to control a tag and obtain information by using the Bluetooth low power energy technology proposed herein.
- GATT generic attribute profile
- FIG. 17 is a diagram illustrating an example of a control point for controlling a tag by a third device by using the Bluetooth low power energy technology proposed herein.
- 18 to 20 are diagrams illustrating an example of a method and a data format for a third device to control a tag by using the Bluetooth low power energy technology proposed herein.
- 21 and 22 are diagrams illustrating an example of a method and a host controller interface (HCI) command for a third device to control a tag by using the Bluetooth low power energy technology proposed herein.
- HCI host controller interface
- FIG. 23 is a diagram illustrating an example of characteristics of a locator proposed in the present specification.
- 24 is a diagram illustrating an example of an indication for providing status information of a tag proposed in the present specification.
- 25 to 26 are diagrams illustrating an example of a method and a data format for a third device to control a locator using the Bluetooth low power energy technology proposed herein.
- FIG. 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.
- BLE Bluetooth Low Energy
- BLE technology 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.
- BR / EDR Bluetooth Basic Rate / Enhanced Data Rate
- the BLE technology simplifies the connection procedure between devices, and the packet size is smaller than that of the Bluetooth BR / EDR technology.
- the number of RF channels is 40
- the data rate supports 1Mbps
- the topology is a scatternet structure
- latency is 3ms
- (6) output power is less than 10mW (10dBm)
- (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, a slave, a server, a conductor, a host device, a gateway, and a sensing device.
- Sensing Device a monitoring device (monitoring device), a Tag (Positioning Host Device), a tag (tag) or a first device, etc.
- the client device 110 may be a master device (master device), master (master) ), Client, Member, Sensor Device, Sink Device, Collector, Positioning Client Device, Positioning Device, Controller, Locator, Controller , A locator controller, a second device, or a third device.
- the server device 120 and the client device 110 correspond to the main components of the wireless communication system, and the wireless communication system may include other components in addition to the server apparatus and the client apparatus.
- the server device 120 When the server device 120 receives data from the client device 110 and directly communicates with the client device 110, when receiving a data request from the client device 110, the server device 120 responds with the response. Refers to an apparatus for providing data to the client device (110).
- the server device 120 also sends a notification message and an indication message to the client device 110 to provide data information to the client device 110.
- the server device 120 transmits an indication message to the client device 110
- the server device 120 receives a confirmation message corresponding to the indication message from the client 110.
- the server device 120 provides data information to a user through an output unit in the process of transmitting and receiving Notification, Indication, and Confirmation messages with the client device 110. Or may receive a request input from a user through a user input interface.
- the server device 120 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 110.
- one server device 120 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 110 refers to an apparatus for requesting server apparatus to transmit data information and data.
- the client device 110 receives data from the server device 120 through a notification message, an indication message, and the like, and when receiving the indication message from the server device 120, the indication message. Send a confirmation message in response to
- the client device 110 may provide information to the user through an output unit or receive an input from the user through the input unit in the process of transmitting and receiving messages with the server device 120.
- the client device 110 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 120.
- the client device 110 (hereinafter, referred to as a locator or second device) may have a multi antenna, and may receive a signal or a message transmitted from the server device 120 (hereinafter, referred to as a tag or a first device).
- the position of the tag 120 may be estimated or measured.
- the locator 110 may measure the distance to the tag 120 by measuring the strength of the signal or message transmitted from the tag 120 in order to estimate or measure the position of the tag 120.
- the position of the tag may be estimated or measured by measuring the distance with at least three tags.
- the method of measuring the strength of the received signal or message can be reached through a large number of reflections, etc., thus inferring through the accurate measurement of the received signal or message. Distance will be less accurate. This problem can be solved by using multiple antennas to improve the accuracy by calculating the angle between the locator 110 and the tag 120.
- the position measuring method may not measure the position of the tag 120 through a third device (hereinafter, a control device), and the control device may measure the position of the tag 120. There is a problem that can not control).
- the present invention proposes a method for measuring the position of the tag by controlling the locator through the control device to solve this problem.
- FIG. 2 shows an example of an internal block diagram of a device that can implement the methods proposed herein.
- the tag 200 may include an output unit 210, a user input interface 220, a power supply unit 230, a processor 240, Memory (Memory Unit, 250), Bluetooth Interface (Bluetooth Interface, 270), other communication interface (Other Interface, 280) and the communication unit (or transceiver unit 260).
- the output unit 210, the input unit 220, the power supply unit 230, the processor 240, the memory 250, the Bluetooth interface 270, the other communication interface 280, and the communication unit 260 are proposed herein. It is functionally linked to perform the method.
- the locator 300 may include an output unit 310, a user input interface 320, a power supply unit 330, a processor 340, and a memory unit 350. ), A Bluetooth interface 370, and a communication unit (or a transceiver unit 360).
- the output unit 310, the input unit 320, the power supply unit 330, the processor 340, the memory 350, the Bluetooth interface 370, and the communication unit 360 may perform the method proposed in the present specification. Functionally connected
- the control device illustrated in FIG. 1 may include the same internal configuration as the locator 300.
- the Bluetooth interfaces 270 and 370 refer 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 250 and 350 are units implemented in various kinds of devices and refer to units in which various kinds of data are stored.
- the processor 240, 340 refers to a module that controls the overall operation of the server device or the client device.
- the processor 240 or 340 controls the transmission of the message and the received message through the Bluetooth interface and other communication interfaces.
- the processors 240 and 340 may be represented by a controller, a control unit, a controller, or the like.
- the processors 240 and 340 may include application-specific integrated circuits (ASICs), other chipsets, logic circuits, and / or data processing devices.
- ASICs application-specific integrated circuits
- the processors 240 and 340 control the communication unit to receive an advertising message from a server device, transmit a scan request message to the server device, and scan 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 processors 240 and 340 may read or write data from the server device using an attribute protocol. To control.
- the memories 250 and 350 may include read-only memory (ROM), random access memory (RAM), flash memory, memory cards, storage media, and / or other storage devices.
- ROM read-only memory
- RAM random access memory
- flash memory memory cards, storage media, and / or other storage devices.
- the communication unit 260 and 360 may include a baseband circuit for processing a radio signal.
- 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 250 and 350 may be inside or outside the processors 240 and 340, and may be connected to the processors 240 and 340 through various well-known means.
- the output units 210 and 310 refer to modules for providing device status information and message exchange information to a user through a screen.
- the power supply unit 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.
- BLE technology has a small duty cycle, and the low data rate can greatly reduce power consumption, so that the power supply is required for the operation of each component with less output power (10 mW (10 dBm or less)). Can supply power.
- the input units 220 and 320 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.
- FIG. 3 shows an example of a Bluetooth low power energy topology.
- device A corresponds to a master in a piconet (piconet A, shaded portion) having device B and device C as slaves.
- 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.
- the BLE slave does 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.
- 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.
- Device D is an advertiser and device A is an initiator (group D).
- Device E is a scanner and device C is an advertiser (group C).
- Device H is an advertiser and devices I and J are scanners (group H).
- Device K is also an advertiser and device N is an initiator (group K).
- 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.
- 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.
- 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.
- devices K and L use one BLE piconet physical channel.
- Devices K and M use another BLE piconet physical channel.
- device K advertises using an advertisement event connectable onto an advertising physical channel
- device N is an initiator.
- Device N may form a connection with device K.
- device K becomes a slave of two devices and simultaneously becomes a master of one device.
- devices O and P use one BLE piconet physical channel.
- Devices O and Q use another BLE piconet physical channel.
- 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.
- device O becomes a slave of two devices and simultaneously becomes a master of one device.
- FIG. 4 is a diagram illustrating an example of a Bluetooth communication architecture to which the methods proposed herein may be applied.
- 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.
- BR Basic Rate
- EDR Enhanced Data Rate
- LE Bluetooth Low Energy
- 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.
- HCI host controller interface
- 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.
- GFSK Gaussian Frequency Shift Keying
- 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).
- LMP link manager protocol
- the link manager layer 16 may perform the following functions.
- 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), a security manager (SM, 22), an attribute protocol (Protocol, 23), a generic attribute profile, GATT 24), Generic Access Profile (GAP) 25, BR / EDR Profile 26.
- L2CAP logical link control and adaptation protocol
- SM security manager
- GATT Generic Access Profile
- GAP Generic Access Profile
- 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 Security Manager (SM) 22 is a protocol for authenticating a device and providing key distribution.
- the generic attribute profile GATT 24 may be operable as a protocol describing how the attribute protocol 23 is used in the construction of services.
- the general attribute profile 24 may be operable to define how ATT attributes are grouped together into services, and may be operable to describe features associated with the services.
- the generic attribute profile 24 and the attribute protocol 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 properties Protocol (23) and Profiles (26) define the definition of a service (profile) using Bluetooth BR / EDR and an application protocol for sending and receiving these data, and the Generic Access Profile (GAP) 25 ) Defines how devices are discovered, connected, and presented to users, and provides privacy.
- GAP Generic Access Profile
- 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).
- 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.
- 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.
- PHY physical layer
- link layer 34 link layer
- host controller interface 36 host controller interface
- 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.
- GFSK Gausian Frequency Shift Keying
- 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.
- GAP generic access profile
- L2CAP logical link control and adaptation protocol
- SM security manager
- ATT attribute protocol
- 440 general attribute profile
- GATT Generic Attribute Profile
- GATT Generic Access Profile
- LT profile 46 may be included.
- 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.
- 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.
- Bluetooth LE uses three fixed channels (one for the signaling channel, one for the Security Manager, and one for the Attribute protocol).
- BR / EDR Base Rate / Enhanced Data Rate
- 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).
- the Request message is a message for requesting specific information from the client device to the server device
- the Response message is a response message to the request message, which is a message transmitted from the server device to the client device.
- Command message A message sent 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.
- 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.
- 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.
- ATT attribute protocol
- UUID Consumer User Data
- 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.
- 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.
- 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 be, for example, Battery, Time, FindMe, Proximity, Time, Object Delivery Service, and the like. Details of GATT-based Profiles are as follows.
- 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.
- 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.
- the generic attribute profile 44 and the attribute protocol may use features to describe the state and services of a device, and how features relate to each other and how they are used.
- 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.
- 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.
- 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.
- 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.
- the scanning device when the scanning device receives some advertising packets from the advertising device, the scanning device should send a scan request to the advertising device.
- 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.
- the advertising device performs an advertising procedure to perform a non-directional broadcast to the devices in the area.
- non-directional broadcast refers to broadcast in all directions rather than broadcast in a specific direction.
- Non-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.
- the advertising procedure may be used to provide periodic broadcast of user data to the scanning devices that are listening on the advertising 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.
- 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 user data from the advertising device.
- the advertising device transmits a scan response that is a response to the scan request, including additional user 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.
- the scanning device 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.
- the scanning device 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.
- Bluetooth devices 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.
- 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.
- the advertising procedure can be the goal, so that only one device will respond to the advertising.
- the connection may be initiated by sending a connection request to the advertising device via the advertising (broadcast) physical channel.
- 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.
- PDUs advertisement packet data units
- 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.
- 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.
- scanning states There are two types of scanning states: passive scanning and active scanning, each scanning type being determined by the host.
- ScanInterval is defined as the interval (interval) between the starting points of two consecutive scan windows.
- 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.
- the link layer When passive scanning, the link layer only receives packets and does not transmit any packets.
- the link layer 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.
- the link layer enters the initiation state by the indication of the host (stack).
- the link layer When the link layer is in the initiating state, the link layer performs listening for the advertising channel indexes.
- the link layer listens for the advertising channel index during the scan window period.
- 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.
- connection 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.
- 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.
- BLE devices use the packets defined below.
- 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.
- the PDU 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
- PDU Packet Data Unit
- the PDU type field of the advertising channel PDU included in the header indicates a PDU type as defined in Table 1 below.
- 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.
- 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.
- 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.
- the data channel PDU has a 16-bit header, payloads of various sizes, and may include a message integrity check (MIC) field.
- MIC message integrity check
- the procedure, state, packet format, etc. in the BLE technology may be applied to perform the methods proposed herein.
- FIG. 5 is a diagram illustrating an example of a structure of a GATT profile of Bluetooth low power energy.
- the GATT Generic Attribute Profile
- a peripheral device for example, a sensor device serves as a GATT server, and has a definition of a service and a characteristic.
- 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).
- UUID Universal Unique Identifier
- 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.
- Type the type of the attribute
- the present invention proposes a method in which a control device controls an operation of a tag or a locator or retrieves information of the tag or the locator using the GATT structure of the Bluetooth LE.
- FIG. 6 is a diagram illustrating an example of estimating a location using a Bluetooth low power energy technology proposed in the present specification.
- the locator 300 may measure the position of the tag 200 by calculating an angle with the tag 200 through a signal or a message received from the tag 200 using a multi-antenna technique. have.
- the locator 300 has multiple antennas, and the tag 200 has a single antenna.
- the tag 200 may broadcast or unicast a signal or message for estimating its location, and the locator 300 may receive a signal or message transmitted from the tag 200. Can be received via an antenna.
- the locator 300 may calculate an angle with the tag 200, the calculated angle and the signal received from the tag 200.
- the strength of the message may be measured to estimate or measure the location of the tag.
- the estimated or measured position of the tag may be represented by information such as distance, longitude, latitude, and / or height from the tag.
- information such as distance, longitude, latitude, and / or height from the tag.
- the tag When the tag is located in a building, the tag is located. It may also include floor information.
- FIG. 7 is a flowchart illustrating an example of estimating a location using the Bluetooth low power energy technology proposed in the present specification.
- the locator 300 provides information for position estimation or measurement of the tag 200.
- the position of the tag 200 may be estimated or measured.
- the tag 200 transmits an advertising message to the locator 300 (S7010).
- 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.
- the locator 300 transmits a connection request message for requesting a Bluetooth LE connection to the tag 200 after checking the information included in the advertisement message transmitted by the tag 200; In operation S7020, the tag 200 and the locator 300 form a Bluetooth Low Energy (LE) connection (S7030). In the state where the Bluetooth LE connection is formed, the tag 200 and the locator 300 share a channel capable of transmitting and receiving data with each other.
- L Bluetooth Low Energy
- the locator 300 transmits a request message to the tag 200 to request a packet including location information for position estimation or measurement of the tag 200 (S7040).
- the PDU Type of the request message may be LL_AoA_REQ.
- the tag 200 may transmit a packet including the location information in a response message to the locator 300 in response to the request message (S7050), and the PDU type of the response message may be LL_AoA_RSP. .
- the locator 300 may calculate an angle by using the location information transmitted by the tag 200 and / or the response message received through the multiple antennas, and the tag 200 according to the method described with reference to FIG. 6. Estimate or measure the position of.
- this method may be used only in the tag 200 and the locator 300, and the tag 200 or the locator 300 through a third device other than the tag 200 or the locator 300. ) Or to obtain information of the tag 200 or the locator 300 did not exist.
- the present invention controls the locator 300 to estimate or measure the position of the tag 200 and to determine the information of the tag 200 or the locator 300. We propose a way to obtain.
- FIG. 8 is a flowchart illustrating an example in which a third device estimates a location using a Bluetooth low power energy technology proposed in the present specification.
- step S8010 to step S8030 are the same as step S7010 to step S7030 of FIG. 7, so description thereof will be omitted.
- the control device 400 may transmit a location measurement request message for requesting location estimation or measurement of the tag 200 to the locator 300 in order to find the tag 200 (S8040).
- control device 400 sets an interval at which the locator 300 estimates or measures the position of the tag 200 through the position information measurement message, or sets the position of the locator 300. Request a change in the list of devices that can be estimated or measured.
- the locator 300 transmits a request message (eg, LL_AoA_REQ) for requesting a packet for position estimation or measurement of the tag 200 to the tag 200 (S8050).
- a request message eg, LL_AoA_REQ
- the control device 400 transmits an interval for estimating or measuring the position of the tag 200 in the location information request message
- the locator 300 transmits the interval. According to the request message will be transmitted.
- the tag 200 transmits the packet to the locator 300 by including the packet in a response message (for example, LL_AoA_RSP) in response to the request message (S8060), and the packet is related to the position of the tag. Location information may be included.
- a response message for example, LL_AoA_RSP
- S8060 request message
- the locator 300 calculates an angle using the response message received through the packet and / or multiple antennas transmitted by the tag 200, and positions the tag 200 according to the method described with reference to FIG. 6. May be estimated or measured, and the estimated value or position information of the tag 200 is included in the position measurement response message and transmitted to the control device (S8070).
- the control device 400 which is a third device that receives the location value or the location information, can identify the location of the tag 200.
- the third device can check the position of the tag by controlling the tag.
- FIG. 9 is a diagram illustrating an example of a device-to-device message flow for estimating a location of a third device using the Bluetooth low power energy technology proposed herein.
- the control device 400 is a device for estimating or measuring a location, that is, the tag 200 such as an address, name, interface information, service information, and / or device type information of the tag 200.
- Information is obtained (S9010).
- the location measurement request message requesting estimation or measurement may be transmitted (S9020).
- the request message may be transmitted through a broadcast or unicast scheme.
- the locator 300 transmits a request message for requesting a packet including location information for position estimation or measurement of the tag 200 to the tag 200 (S9030).
- the PDU Type may be LL_AoA_REQ.
- the tag 200 may transmit a packet including the location information in a response message to the locator 300 in response to the request message (S9040).
- the PDU type of the response message is LL_AoA_RSP. Can be.
- the locator 300 calculates an angle using the position information transmitted by the tag 200 and / or the response message received through the multiple antennas, and then positions the tag 200 according to the method described with reference to FIG. 6.
- Estimate or measure S9050
- FIGS. 10 and 11 are diagrams illustrating an example of a method and data format for estimating a location of a third device using the Bluetooth low power energy technology proposed herein.
- control device 400 may request the locator 300 to estimate or measure the position of the tag 200 through a broadcast method.
- the control device 400 broadcasts an advertisement message (or a location measurement request message) for requesting the locator 300 to estimate or measure the location of the tag 200 (S10010).
- the advertisement message may have a structure as shown in FIG. 11A and may have a PDU type such as ADV_PRA_AoA_Find_Tag_IND.
- the advertisement message may include a preamble field, an access code field, a PDU field, and a CRC field.
- the preamble field may be composed of one octet, the access code field is 4 octets, the PDU field is at least 2 to 39 octets, and the CRC field is 3 octets.
- This octet structure is only one example, and is not limited to this structure.
- the preamble field indicates a signal used for synchronizing two systems in data communication
- the access code field may indicate an access address
- the PDU (Packet Data Unit) field refers to a part including data.
- the PDU field may be divided into a header and a payload (not shown), and the CRC field is a field for detecting an error when the data packet is transmitted.
- the payload may include an AdvA field indicating an address of the control device 400 and an AdvData field indicating transmission data.
- the AdvData field may again include a Bcst interval field, a Bcst channel field, a Mode field, a Locator ID field, a Target Tag ID field, a Target Tag Address field, an Interval field, and an Add Tag ID to Whitelist of Locator field. have.
- the Bcst interval field may indicate information about how long after the advertisement message is to be transmitted, and the Bcst channel field indicates in which frequency hopping pattern the data packet will be delivered. Can be represented.
- the Mode field may indicate whether the message is to be transmitted from the control device 400 by broadcast or unicast after the advertisement message is transmitted.
- the locator ID field may include information for identifying the locator 300, and the target tag ID field includes information for identifying the tag 200 to estimate or measure a location. do.
- the target tag address field indicates an address of the tag 200 to estimate or measure a location.
- the interval field is a field for changing or setting the period in which the locator 300 updates the position value or position information of the tag 200.
- the interval of the interval field indicates that the control device 400 uses the interval field.
- the locator 300 may set a period for estimating or measuring the position of the tag 200.
- the Add Tag Id to Whitelist of Tag field is a field for adding an identifier (ID) of a tag to a whitelist, which is a list of tags to which the locator 300 can connect.
- ID an identifier
- a tag to which the locator 300 can be connected may be added through an Add Tag Id to Whitelist of Tag field.
- the locator may know a device to estimate or measure a location based on information included in a target tag ID field of the advertisement message, and inform the tag 200 corresponding to the device.
- An activation message for requesting activation of a function for position estimation or measurement of the tag 200 is transmitted (S10020). In this case, the activation message may be transmitted through a broadcast method.
- the tag 200 receiving the activation message activates a function for position estimation or measurement so that the locator 300 can estimate or measure its position.
- the locator 300 may set a channel and an interval to be used by tags, and an initial connection request message for performing a Bluetooth LE connection with the tag 200 using the set channel and interval. message) and transmit it to the tag 200.
- the initial connection request message may include type information of the locator 300, address information, and address information of the tag.
- the tag 200 configures an interval and a channel to be used by the tag 200 among the channels and intervals received from the locator 300, and sends the tag 200 to the locator 300 in response to the initial connection request message.
- the initial connection response message is transmitted (S10040).
- the tag 200 sets channels for frequency hopping in order to minimize interference with other tags or other positioning devices.
- the interval setting is an interval for setting the interval at which the tag 200 transmits a packet for position measurement.
- the interval may be shortened to precisely measure or estimate the position (in this case, battery consumption may be large. By setting the interval long, it is possible to reduce the battery consumption for position measurement or estimation.
- the locator 300 which has established a Bluetooth connection through the initial connection request message and the initial connection response message, tells the tag 200 the location of the tag 200 to estimate or measure the location of the tag 200.
- a packet request message (or a first request message) requesting a packet including information is transmitted (S10050), and the PDU type of the packet request message may be LL_AoA_REQ.
- the tag 200 may transmit a response message to the locator 300 in response to the request message (S10060).
- the PDU type of the response message may be LL_AoA_RSP.
- the response message includes information such as a channel or interval set from the tag 300.
- the locator 300 may receive a packet including the location information through a location message (or a first response message) transmitted from the tag 200 based on the information included in the response message (S10070).
- the angle may be calculated using the received location information and / or the packet or message received through the multiple antennas to estimate or measure the location of the tag 200 according to the method described with reference to FIG. 6.
- the packet may be transmitted through a broadcast method or a unicast method, and may be periodically transmitted separately from the response message.
- the locator 300 includes the estimated or measured position value or position information of the tag 200 in an advertisement message (or a position measurement response message) and transmits it to the control device (S10080).
- the advertisement message may have a structure as shown in FIG. 11B and may have a PDU type such as ADV_PRA_AoA_Find_Tag_RSP.
- the advertisement message may include a preamble field, an access code field, a PDU field, a CRC field, and an AoD extension field.
- the AoD Extension field is a field that enables position estimation by calculating an Angle of Departure (AoD).
- a long bit sequence is transmitted through the AoD Extension field, and the locator 300 receives the tag.
- An angle with the antenna array of 200 may be calculated.
- the PDU field may include a header field and a data field.
- the data field may include a locator ID field, a target tag ID field, a target tag address field, an interval field, a position information field, and the like. And / or a response code field of the Add Tag Id to Whitelist of Tag field.
- the location information field may include information related to the location of the tag 200 estimated or measured by the locator 300 and may include parameters as shown in Table 2 below.
- the Coordinates (East) may represent latitude, and the Coordinates (North) may represent longitude.
- an ID of a tag requested by the control device 400 through the Add Tag Id to Whitelist of Tag field is added to a whitelist of the locator 300. It may include information indicating whether or not or whether the ID of the added tag.
- FIG. 12 and 13 illustrate another example of a method and data format for estimating a location of a third device by using the Bluetooth low power energy technology proposed herein.
- control device 400 may request the locator 300 to estimate or measure the position of the tag 200 through a unicast scheme.
- control device 400 may transmit a connection request message to the locator 300 to establish a Bluetooth connection with the locator 300 (S12010), the locator 300 for the connection request message In response to the connection response message may be transmitted to the control device (S12020).
- the control device 400 receiving the connection response message forms a Bluetooth connection with the locator 300, and requests the locator 300 to estimate or measure the position of the tag 200 through the Bluetooth connection.
- the location measurement request message may have a structure as shown in FIG. 13A, and may have a PDU type such as LL_AoA_Find_Tag_REQ.
- each field of FIG. 13A is the same as each field of FIG. 11A, description thereof will be omitted.
- steps S12040 to S12090 are the same as steps S10020 to S10070 of FIG. 10, description thereof will be omitted.
- the locator 300 includes the position value information or the position information of the estimated or measured tag 200 in the position information response message and transmits it to the control device (S12100).
- the advertisement message may have a structure as shown in FIG. 13B and may have a PDU type such as LL_AoA_Find_Tag_RSP.
- each field of FIG. 13B is the same as each field of FIG. 11B, description thereof will be omitted.
- FIG. 14 is a diagram illustrating an example of a message flow of a method for a third device to control a tag (Positioning Host Device) and obtain information by using a Bluetooth low power energy technology proposed in the present specification.
- control device can control the operation of the locator or tag by transmitting a control message to the locator, and can obtain information of the locator or tag.
- control device 400 is a device for estimating or measuring a location, that is, the tag such as an address, name, interface information, service information, and / or device type information of the tag 200.
- Information 200 is acquired (S14010).
- the control device 400 When the tag 200 or the tag 200 is in the form of a tag, the control device 400 requests the position measurement or estimation of the device to which the tag 200 is attached and information about the locator or the locator. In order to transmit the measurement request message to the locator 300 (S14020).
- the request message may be transmitted through a broadcast or unicast scheme, and the PDU type of the measurement request message may be AoA_Track_Device_REQ.
- the locator 300 transmits a request message for requesting a packet including location information for position estimation or measurement of the tag 200 to the tag 200 (S14030).
- the PDU Type may be LL_AoA_REQ.
- the tag 200 may transmit a packet including the location information in a response message to the locator 300 in response to the request message (S14040), wherein the PDU type of the response message is LL_AoA_RSP. If the control device 400 requests the information of the tag, the control device 400 may include the requested information.
- the locator 300 calculates an angle using the position information transmitted by the tag 200 and / or the response message received through the multiple antennas, and then positions the tag 200 according to the method described with reference to FIG. 6. It estimates or measures (S14050), including the estimated or measured position value or position information of the tag 200 in the measurement response message and transmits it to the control device (S14060).
- the measurement response message may include the requested information, and the PDU type of the measurement response message may be AoA_Track_Device_RSP. have.
- control device 400 may transmit a control message to the locator 300 (S14070). For example, the control device may add the device to the list of devices for which the locator 300 has to estimate or measure the location, or transmit the control message to request an update of the list.
- the locator 300 may add a specific device to a list of devices that need to estimate or measure a location according to the control message, or update the list and transmit a response message to the control device in operation S14080.
- the PDU type of the response message may be AoA_Track_Device_RSP.
- control device can control the tag or locator or obtain information of the tag or locator.
- GATT generic attribute profile
- the GATT of the locator includes a locator control service, which is a service for controlling the locator, and characteristics (Characteristics) for providing the service, and a tag tracker service, which is a service for estimating or measuring a tag position, and the service. Characteristic to provide is included.
- control device can acquire information of the locator or control the locator.
- FIG. 16 a characteristic for providing the service described with reference to FIG. 15 is illustrated, and a description of each characteristic is as follows.
- -Peer Device indicates the address value and name of the counterpart device to be paired, and can provide the address of the device to be paired through the setting.
- Device State means the link layer state of the controlled device and can specify one or more states. You can request to perform the function of the state through Write, you can know the state of the device controlled through Read, and you can see the state change of the device controlled through Indication.
- -Scanning Duration When the controlled device is operating as Scanning State, it indicates the running time. If it is other State, the value is meaningless.
- -Standby Duration The time duration when the controlled device operates in Standby State. If the device is in another state, the value is meaningless.
- -Initiating Duration When the controlled device operates as an initiating state, it represents the operating time. In other state, the value is meaningless.
- -Connection Duration The time duration when the controlled device operates as a connection state. If it is another state, the value is meaningless.
- -Advertising Type Defines a specific advertising operation method when requesting an advertising operation from a controlled device.
- Locator Control Point A control point function that indicates what actions the controlled device will perform.
- connection state property for the controlled device to provide connection information to the control device
- Control function to manage whitelist managed by the controlled device
- Bondable Determines whether the controlled device provides a bonding function
- control device 400 may obtain information of the locator 300 or control the locator 300 to perform a specific operation.
- FIG. 17 is a diagram illustrating an example of a control point for a third device to control a tag (Positioning Host Device) using the Bluetooth low power energy technology proposed herein.
- the locator may be controlled to perform a specific operation or not to perform a specific operation through a locator control point among the characteristics described with reference to FIG. 16.
- -Refresh Bonding Refresh the bonding information (or delete the bonding information altogether).
- Retry security procedures authentication, authorization, encryption
- update information key values for each security procedure
- Update Interval Period for updating location information of devices included in a whitelist, which is a list of accessible devices managed by the locator.
- FIGS. 18 to 20 are diagrams illustrating an example of a method and data format for a third device to control a tag (Positioning Host Device) by using the Bluetooth low power energy technology proposed in the present specification.
- control device may transmit a control message or a request message to control the operation of the locator or obtain information of the locator or the tag.
- the locator 300 is scanning an advertisement packet or message and the tag 1 200-1 may be in unicasting mode.
- the control device 400 may transmit a control request message (or control message) for estimating or measuring the position of the tag 1 200-1 and controlling the locator 300 to the locator 300 (S18010).
- the control request message may have a structure as shown in FIG. 20A and may have a PDU type such as AoA_Track_Device_REQ.
- a control field may be a field for managing tracking or power management for positioning or estimating the locator 300 or the tag 200.
- a control field may be a field for managing tracking or power management for positioning or estimating the locator 300 or the tag 200.
- tracking management may be indicated as '2'
- power management may be indicated.
- the control data field is a field for controlling a specific operation for the control field.
- the control data field may indicate start tracking, stop tracking, power on, or power off.
- the Requesting Information field may include information that the control device 400 wants to request from the locator 300.
- Table 3 below shows an example of information that can be requested through the requesting information.
- Each information represents the same characteristic and the same information of FIG.
- the locator After receiving the advertisement message from the tag 1 (200-1) (S18020), 3sec has passed and the tag (200-1) to the tag (200-1) to estimate or measure the position of the tag (200)
- a packet request message (or a first request message) requesting a packet including the location information of 200 is transmitted (S18030), and the PDU type of the packet request message may be LL_AoA_REQ.
- the data packet structure of the advertisement message may have a structure as shown in FIG. 19, and the packet request message may include interval information requested by the control device.
- the tag 200 may transmit a response message to the locator 300 in response to the request message (S18040).
- the PDU type of the response message may be LL_AoA_RSP.
- the response message may include information such as an interval or a channel in which a packet including the location information is subsequently transmitted.
- a location message (or a first response message) including a packet for location measurement or estimation of a location may be received.
- the packet including the location information transmitted from the tag 200 may be received, and the method described with reference to FIG. 6 by calculating an angle using the received location information and / or a packet or a message received through multiple antennas. According to the position of the tag 200 can be estimated or measured.
- the packet may be transmitted through a broadcast method or a unicast method.
- the locator 300 may transmit a control response message (or second response message) including a position value or position information of the estimated or measured tag 200 and a determined interval to the control device ( S18060).
- the control response message has a structure as shown in (b) of FIG. 20 and may have a PDU type such as AoA_Track_Device_RSP.
- an Operation Response field may indicate whether an operation requested by the control device 400 is performed or an operation that the locator 300 may perform, and each operation may be performed. Is the same as described with reference to FIG.
- the Determined interval field indicates a transmission interval of a packet including location information.
- the control device may transmit a device list add request message (or control message) to add the tag 2 200-2 to a white list indicating a list of accessible devices of the locator 300.
- the device list add request message may have a PDU type of LL_AoA_Track_DeviceList_Add_REQ.
- the locator 300 may add the ID of the tag 2 200-2 to the white list of the locator and include the result in a device list add response message to transmit the result to the control device 400 (S18080). .
- control device 400 may transmit a control request message (or control message) for estimating or measuring the position of the tag 2 200-2 and controlling the locator 300 to the locator 300 ( S18090).
- the control device 400 transmits the control request message having the Target Locator ID field to the tag 2 (200-2) and the update interval of 5 sec to the locator 300, the control request.
- a packet request message for requesting a packet including location information for estimating or measuring the location may be transmitted to the tag 2 (200-2) after 5 sec (S18100), and the The PDU Type may be LL_AoA_REQ.
- the structure of the data packet of the advertisement message is shown in FIG. 19, and the packet request message may include interval information requested by the control device.
- the tag 2 200-2 may transmit a response message to the locator 300 in response to the request message (S18110).
- the PDU type of the response message may be LL_AoA_RSP.
- the locator 300 may transmit a control response message including a position value or position information of the estimated or measured tag 200 and a determined interval to the control device (S18120).
- the control response message may have a PDU type such as AoA_Track_Device_RSP.
- 21 and 22 are diagrams illustrating an example of a method for a third device to control a tag (Positioning Host Device) and a host controller interface (HCI) command using the Bluetooth low power energy technology proposed herein.
- control device may control the operation of the locator by transmitting a control message or a request message, through which the locator measures and estimates the position of the tag and reports it.
- the locator may update the list of devices to which the locator can connect.
- control device 400 transmits a control request message (or control message) for estimating or measuring the position of the tag 200 and controlling the locator 300 to a host of the locator 300. It may be (S21010).
- control device 400 may transmit the control request message having the Target Locator ID field as the ID of the tag 200 and an Update Interval of 5 sec to a host of the locator 300. have.
- the host of the locator 300 requests an HCI request command to a controller of the locator 300 to add an ID of the tag 200 to a white list, which is a list of devices to which the locator 300 can connect.
- HCI Request Command is transmitted (S21020).
- the HCI request command may be HCI_LE_Send_AoA_Request_Whitelist_Add, and may include the parameter illustrated in (a) of FIG. 22.
- commands and parameters transmitted through the HCI of the device for position measurement or estimation are as follows.
- the HCI request command is HCI_LE_Send_AoA_Request, which is a basic HCI request command, HCI_LE_Send_AoA_Request_Interval, which is a command for setting a period of position measurement or estimation, and HCI_LE_Send_AoA_Request_Whitelist_Add, which is a command for adding a new tag to the white list, which is a list of tags to which the locator can connect.
- HCI_LE_Send_AoA_Request_Whitelist_Remove may be a command for deleting a specific tag.
- the HCI_LE_Send_AoA_Request may include parameters such as Connection_Handle indicating an ID value for distinguishing a connection between a host and a controller and / or Request_Extension_Length indicating a length of a request message.
- the HCI_LE_Send_AoA_Request_Interval may include a parameter such as the Connection_Handle, the Request_Extension_Length and / or a Requested_Interval indicating a period for measuring or estimating the location of a tag to be requested.
- the HCI_LE_Send_AoA_Request_Whitelist_Add may include parameters such as the Connection_Handle, the Request_Extension_Length and / or a TagID indicating an ID of a tag to be added.
- the HCI_LE_Send_AoA_Request_Whitelist_Remove may include parameters such as the Connection_Handle, the Request_Extension_Length and / or a TagID indicating an ID of a tag to be deleted.
- the controller of the locator 300 receiving the HCI request command adds the ID of the tag 200 to the whitelist, and transmits an HCI report command to the host of the locator 300. It may be informed that the whitelist has been updated (S21030).
- the HCI report command may be HCI_LE_AoA_Report_Event_Whitelist, and may include the parameter illustrated in (b) of FIG. 22.
- commands and parameters transmitted through the HCI of the device for position measurement or estimation are as follows.
- the HCI report command may include HCI_LE_AoA_Report_Event, which is a basic HCI report command, and HCI_LE_AoA_Report_Event_Whitlist, which is a command for reporting a result of the addition or deletion request.
- the HCI_LE_AoA_Report_Event is a Subevent_Code indicating a position measurement operation code, a Connection_Handle indicating an ID value for distinguishing a connection between a host and a controller, a Received Signal Strength Indicator (RSSI) indicating a reception strength, a Frequency_Offset indicating a frequency difference, and a received position measurement Sample_Length indicating the length of the packet for the packet, I_Sample (i) indicating the frequency characteristic I Sample Data in the received packet for position measurement, Q_Sample (i) indicating the frequency specific Q Sample data in the received position measurement packet, measurement or estimation It may include a parameter such as Next_Updat indicating the time when the updated location information or the location value is updated.
- the HCI_LE_AoA_Report_Event_Whitelist indicates an OpCode indicating whether the ID of the tag has been added or deleted (for example, '01' indicates the addition of a tag ID and '02' indicates the deletion of a tag ID) of the added or deleted tag. It may include parameters such as Updated Tag ID in Whitelist indicating an ID.
- the locator 300 enters a scan mode for receiving an advertisement message, and the tag 200 enters a unicast mode for transmitting the advertisement message in a unicast manner.
- the host of the locator 300 may transmit an HCI request command to the controller of the locator 300 in order to set a position estimation or measurement interval of the tag 200 (S21040).
- the HCI request command may be HCI_LE_Send_AoA_Request_Interval, and may include the parameter illustrated in (a) of FIG. 22.
- the locator 300 receives an advertisement message from the tag 200 (S21050), and after 5sec has elapsed, estimates the position to the tag 200 or A packet request message (or a first request message) requesting a packet including location information for measurement may be transmitted (S21060), and the PDU type of the packet request message may be LL_AoA_REQ.
- the structure of the data packet of the advertisement message is as shown in FIG. 19, and the packet request message may include interval information requested by the controller.
- the tag 200 may transmit a response message including a determined interval in response to the request message to the locator 300 (S21070).
- the PDU type of the response message is LL_AoA_RSP. Can be.
- the response message may include information such as an interval or a channel in which a packet including the location information is transmitted.
- the response message has a structure as shown in (b) of FIG. 20, and in FIG. 20 (b), the Determined interval indicates a determined transmission interval of a packet including location information.
- the locator 300 waits based on the information included in the response message for the position estimation or measurement, and then includes the location message (or the location information transmitted from the tag 200).
- a first response message) can be received (S21080).
- the packet including the location information transmitted from the tag 200 may be received, and the method described with reference to FIG. 6 by calculating an angle using the received location information and / or a packet or a message received through multiple antennas. According to the position of the tag 200 can be estimated or measured.
- the packet may be transmitted through a broadcast method or a unicast method.
- the controller of the locator 300 receiving the location message may transmit an HCI report command to the host of the locator 300 to report the location estimation or measurement result (S21090).
- the HCI report command may be HCI_LE_AoA_Report_Event and may include a parameter as shown in (b) of FIG. 22.
- the host of the locator 300 transmits a control response message (or a second response message) including a position value or position information of the estimated or measured tag 200 and a determined interval to the control device ( 400 may be transmitted (S21100).
- the control response message may have a PDU Type such as AoA_Track_Device_RSP.
- FIG. 23 is a diagram illustrating an example of a characteristic of a locator (Positioning Client Device) proposed in the present specification.
- a control device controls the operation of a tag and acquires information of the tag through the characteristics of the GATT.
- LE AoA Enable Indicates whether position estimation or measurement can be provided.
- Tag Type indicates the device type of the tag.
- Tag ID / MAC indicates the ID or MAC of the tag.
- Battery Power indicates the battery level of the locator.
- Tag image is displayed.
- -Tag Owner Name indicates the name of the tag's owner
- -Tag Owner ID indicates the ID of the owner of the tag
- FIG. 24 is a diagram illustrating an example of an indication for providing status information of a tag (Positioning Host Device) proposed in the present specification.
- the tag Status Indication of FIG. 24 is for informing the locator 300 or the control device 400 when a tag operating as a GATT server is changed without a request of the locator 300 or the control device 400. As a message, the following information may be provided to the locator 300 or the control device 400.
- tag is tag and connected device information (address or friendly name of peer device)
- connection related information such as Connected Tech Type, Service Type, Security, Group Info, Battery information can be provided.
- control device 400 may obtain the information of the tag 200 via the locator 300.
- 25 to 26 are diagrams illustrating an example of a method and a data format for a third device to control a locator by using a Bluetooth low power energy technology proposed in the present specification.
- control device 400 requests the tag 200 to request a change request (eg, 'yes') for the LE AoA Enable characteristic (Characteristic) of the tag illustrated in FIG. 23 to request activation of the tag 200.
- the first control request message (or the first control message) may be transmitted to the user (S25010).
- the host of the tag 200 which has received the change request may activate a position estimation or position measurement function of the tag 200 by transmitting an HCI command to the tag 200 (S25020).
- the HCI command may be HCI_LE_AoA_Enable and may be in the form shown in FIG. 26A.
- the host may transmit an HCI command in the form of HCI_LE_AoA_Disable to the controller of the tag 200.
- messages and parameters transmitted through the HCI of the device for position measurement or estimation are as follows.
- HCI_LE_AoA_Diable command for deactivating a device's position measurement or estimation function
- HCI_LE_AoA_Enable command for device activation
- HCI_LE_AoA_Update_Interval command for setting an update cycle of position measurement or estimation.
- the HCI_LE_AoA_Diable may include parameters such as Connection_Handle indicating an ID value for distinguishing a connection between a host and a controller, and / or Disable for disabling a function for location measurement or estimation of a tag.
- the HCI_LE_AoA_Enable may include parameters such as Connection_Handle and / or Enable for activating a function for position measurement or estimation of a tag.
- the HCI_LE_AoA_Update_Interval may include parameters such as Connection_Handle and / or Update_Interval for setting an update period of position measurement or estimation.
- the HCI setup command illustrated in FIG. 22B is an HCI setup command for providing information related to a tag state, and a command such as HCI_LE_Set_AoA_Parameters may exist.
- the HCI_LE_Set_AoA_Parameters is Adv_Interval_Min representing the minimum value of the advertisement message transmission cycle, Adv_Interval_Max representing the maximum value of the advertisement message transmission cycle, Own_Address_Type representing the address type of the tag itself, Adv_Channel, Extension_Type, Extenstion_Length, and / or the battery status of the tag. It may include a parameter such as Battery_Status_Indicator indicating.
- the tag 200 enters a unicasting mode to transmit an advertisement message in a unicast manner.
- steps S25030 to S25060 are the same as steps S21010 to S21030 of FIG. 21, description thereof will be omitted.
- the host of the tag 200 may transmit an HCI request command to the controller of the locator 300 in order to set an interval of transmission of the advertisement message (S25070).
- the HCI request command may be HCI_LE_Send_AoA_Updata_Interval, and may include the parameter illustrated in (a) of FIG. 26.
- the controller of the tag 200 may transmit an advertisement message to the locator 300 after 10 sec after receiving the HCI command from the host.
- the host of the locator 300 may transmit an HCI request command to the controller of the locator 300 in order to set a position estimation or measurement interval of the tag 200 (S25080).
- the HCI request command may be HCI_LE_Send_AoA_Request_Interval, and may include the parameter illustrated in (a) of FIG. 22.
- the locator 300 receives an advertisement message from the tag 200 (S25090), and after 5sec has elapsed, estimates a location to the tag 200 or A packet request message (or request message) requesting a packet including location information for measurement may be transmitted (S25100), and the PDU type of the packet request message may be LL_AoA_REQ.
- the structure of the data packet of the advertisement message is shown in FIG. 19, and the packet request message may include interval information requested by the control device 400.
- steps S25110 to S25140 are the same as those of steps S21070 to S21100 of FIG. 21, description thereof will be omitted.
- the present disclosure relates to the transmission and reception of Bluetooth data, and more particularly, to a method and an apparatus capable of positioning and controlling a device using Bluetooth Low Energy (LE) technology.
- LE Bluetooth Low Energy
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Abstract
Description
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 |
Parameter | Octets |
Coordinates(East) | 2 or 4 octets |
Coordinates(North) | 2 or 4 octets |
Tx Power | 1 octet |
Floor Number | 1 octet |
Altitude | 2 octets |
Information |
Target Locator ID |
Advertising Duration |
Scanning Duration |
Standby Duration |
Initiating Duration |
Connection Duration |
Advertising Type |
Supported Scanning |
Locator Control Point |
Connection Status |
Whitelist |
Whitelist Control Point |
Bondable |
Security |
Update Interval |
Claims (18)
- 블루투스 LE(Low Energy)를 이용하여 제 3 디바이스가 제 1 디바이스의 위치를 추정하기 위한 방법에 있어서, 제 2 디바이스에서 수행되는 방법은,상기 제 3 디바이스로부터 상기 제 1 디바이스의 위치 측정을 요청하는 위치 측정 요청 메시지를 수신하는 단계;상기 제 1 디바이스로 상기 제 1 디바이스의 위치와 관련된 위치 정보를 요청하는 제 1 요청 메시지를 전송하는 단계;상기 제 1 디바이스로부터 상기 요청 메시지에 대한 응답으로 상기 위치 정보를 포함하는 제 1 응답 메시지를 수신하는 단계;상기 위치 정보에 기초하여 상기 제 1 디바이스의 위치를 나타내는 위치 값 정보(location value information)를 추정(estimating)하는 단계;상기 추정된 위치 값 정보를 포함하는 위치 측정 응답 메시지를 상기 제 3 디바이스로 전송하되,상기 위치 값 정보는 상기 제 1 디바이스의 위도 정보, 경도 정보, 고도 정보 또는 전송되는 신호의 세기를 나타내는 전송 신호 세기 정보 중 적어도 어느 하나를 포함하는 방법.
- 제 1 항에 있어서,상기 위치 측정 요청 메시지는, 상기 제 1 디바이스를 나타내는 ID 정보, 주소 정보, 또는 상기 제 1 디바이스의 타입을 나타내는 타입 정보 중 적어도 하나를 포함하는 방법.
- 제 1 항에 있어서,상기 제 1 디바이스로 블루투스 연결을 위한 연결 요청 메시지를 전송하는 단계; 및상기 연결 요청 메시지에 기초하여 상기 제 1 디바이스와 상기 블루투스 연결을 형성하는 단계를 더 포함하는 방법.
- 제 1 항에 있어서,상기 위치 측정 요청 메시지는, 유니 캐스트(Unicast) 또는 브로드 캐스트(Broadcast) 방식으로 전송되는 방법.
- 제 4 항에 있어서,상기 위치 측정 요청 메시지가 상기 유니 캐스트(Unicast) 방식으로 전송되는 경우,상기 제 3 디바이스로부터 블루투스 연결을 위한 연결 요청 메시지를 수신하는 단계; 및상기 연결 요청 메시지에 기초하여 상기 제 3 디바이스와 블루투스 연결을 형성하는 단계를 더 포함하는 방법.
- 제 1 항에 있어서,상기 제 3 디바이스로부터 상기 제 2 디바이스에게 특정 동작을 요청하기 위한 제어 메시지를 수신하는 단계;상기 제어 메시지에 기초하여 상기 특정 동작을 수행하는 단계; 및상기 제 3 디바이스로 상기 제어 메시지에 대한 응답으로 제 2 응답 메시지를 전송하는 단계를 더 포함하는 방법.
- 제 6 항에 있어서,상기 특정 동작은, 상기 요청 메시지가 전송되는 인터벌(interval)을 설정하는 동작인 방법.
- 제 1 항에 있어서,상기 제 3 디바이스로부터 상기 제 2 디바이스의 연결 정보 또는 상태 정보를 요청하는 제 2 요청 메시지를 수신하는 단계; 및상기 제 2 요청 메시지에 대한 응답으로 상기 연결 정보 또는 상태 정보 중 적어도 하나를 포함하는 제 2 응답 메시지를 상기 제 3 디바이스에게 전송하는 단계를 더 포함하는 방법.
- 제 1 항에 있어서,상기 제 3 디바이스로부터 상기 제 1 디바이스에게 특정 동작을 요청하기 위한 제어 메시지를 수신하는 단계;상기 제어 메시지를 상기 제 1 디바이스에게 전송하는 단계를 더 포함하는 방법.
- 블루투스 LE(Low Energy)를 이용하여 제 3 디바이스가 제 1 디바이스의 위치를 추정하기 위한 제 2 디바이스에서,외부와 무선 또는 유선으로 통신하기 위한 통신부; 및상기 통신부와 기능적으로 연결되는 프로세서를 포함하되, 상기 프로세서는,상기 제 3 디바이스로부터 상기 제 1 디바이스의 위치 측정을 요청하는 위치 측정 요청 메시지를 수신하고,상기 제 1 디바이스로 상기 제 1 디바이스의 위치와 관련된 위치 정보를 요청하는 제 1 요청 메시지를 전송하며,상기 제 1 디바이스로부터 상기 요청 메시지에 대한 응답으로 상기 위치 정보를 포함하는 제 1 응답 메시지를 수신하고,상기 위치 정보에 기초하여 상기 제 1 디바이스의 위치를 나타내는 위치 값 정보(location value information)를 추정(estimating)하며,상기 추정된 위치 값 정보를 포함하는 위치 측정 응답 메시지를 상기 제 3 디바이스로 전송하도록 제어하되,상기 위치 값 정보는 상기 제 1 디바이스의 위도 정보, 경도 정보, 고도 정보 또는 전송되는 신호의 세기를 나타내는 전송 신호 세기 정보 중 적어도 어느 하나를 포함하는 디바이스.
- 제 10 항에 있어서,상기 위치 측정 요청 메시지는, 상기 제 1 디바이스를 나타내는 ID 정보, 주소 정보, 또는 상기 제 1 디바이스의 타입을 나타내는 타입 정보 중 적어도 하나를 포함하는 디바이스.
- 제 1 항에 있어서, 상기 프로세서는,상기 제 1 디바이스로 블루투스 연결을 위한 연결 요청 메시지를 전송하고,상기 연결 요청 메시지에 기초하여 상기 제 1 디바이스와 상기 블루투스 연결을 형성하도록 제어하는 디바이스.
- 제 11 항에 있어서,상기 위치 측정 요청 메시지는, 유니 캐스트(Unicast) 또는 브로드 캐스트(Broadcast) 방식으로 전송되는 디바이스.
- 제 13 항에 있어서, 상기 위치 측정 요청 메시지가 상기 유니 캐스트(Unicast) 방식으로 전송되는 경우, 상기 프로세서는,상기 제 3 디바이스로부터 블루투스 연결을 위한 연결 요청 메시지를 수신하고,상기 연결 요청 메시지에 기초하여 상기 제 3 디바이스와 블루투스 연결을 형성하도록 제어하는 디바이스.
- 제 1 항에 있어서, 상기 프로세서는,상기 제 3 디바이스로부터 상기 제 2 디바이스에게 특정 동작을 요청하기 위한 제어 메시지를 수신하고,상기 제어 메시지에 기초하여 상기 특정 동작을 수행하며,상기 제 3 디바이스로 상기 제어 메시지에 대한 응답으로 제 2 응답 메시지를 전송하도록 제어하는 디바이스.
- 제 15 항에 있어서,상기 특정 동작은, 상기 요청 메시지가 전송되는 인터벌(interval)을 설정하는 동작인 디바이스.
- 제 11 항에 있어서, 상기 프로세서는,상기 제 3 디바이스로부터 상기 제 2 디바이스의 연결 정보 또는 상태 정보를 요청하는 제 2 요청 메시지를 수신하고,상기 제 2 요청 메시지에 대한 응답으로 상기 연결 정보 또는 상태 정보 중 적어도 하나를 포함하는 제 2 응답 메시지를 상기 제 3 디바이스에게 전송하도록 제어하는 디바이스.
- 제 11 항에 있어서, 상기 프로세서는,상기 제 3 디바이스로부터 상기 제 1 디바이스에게 특정 동작을 요청하기 위한 제어 메시지를 수신하고,상기 제어 메시지를 상기 제 1 디바이스에게 전송하도록 제어하는 디바이스.
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US15/326,466 US9942871B2 (en) | 2014-07-14 | 2015-07-14 | Method and apparatus for measuring location of device by using bluetooth low energy (LE) technique |
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