KR101381448B1 - Wban controlling apparatus and method for discovery wban using wake-up chjannel and method for detecting wake-up pattern signal of wban controlling apparatus - Google Patents

Abstract

A WBAN control device is disclosed. The WBAN controller is a wake-up channel modem connected to a wake-up channel to modulate / demodulate a signal transmitted / received through a wake-up channel, and modulates / demodulates a signal to be transmitted / received through a data channel connected to a plurality of data channels. When a data channel modem and a WBAN search command are input, the wake-up channel modem is controlled to transmit a search signal for searching for a WBAN located in a wireless communication area to at least one WBAN-related device through a wake-up channel, and corresponding to the search signal. When the response message is received from at least one WBAN-related device, the WBAN control unit for detecting and collecting identification information of the WBAN corresponding to the response message.

Description

WAN control device using Wake-up channel and its WAN search method, and Wake pattern signal detection method {WBAN CONTROLLING APPARATUS AND METHOD FOR DISCOVERY WBAN USING WAKE-UP

The present invention relates to a WBAN control device using a wake-up channel, a WBAN search method thereof, and a wake-up pattern signal detection method thereof. More particularly, the present invention relates to a WBAN located in a wireless communication area using a wake-up channel at a high speed. The present invention relates to a WBAN control device for searching and wake-up, a WBAN search method thereof, and a wake-up pattern signal detection method thereof.

WBAN (Wireless Body Area Network) is a short-range wireless communication technology that can communicate by connecting various devices inside or outside the human body and clothes. These technologies support the combina- tion or exchange of data between various devices around a person's body through a network of people's clothes or devices attached to the human body.

WBAN can be classified into a medical device that measures and transmits a biological signal of a person such as blood sugar or an electrocardiogram, wirelessly or drives devices in the human body, and a non-medical device that transmits audio or video data or provides entertainment around the human body.

Medical WBAN is classified into a wearable device that is attached to and utilized in the body, and an implantable device that is implanted and utilized in the human body. WBAN technology measures bio signals inside and outside the human body and connects them to a network through various devices, which can provide a broader concept of healthcare services than conventional healthcare services.

WBAN is composed of one WBAN coordinator and multiple WBAN sensors. WBAN implanted in the human body is a low power technology is more important because it is not easy to recharge or replace the battery. Most WBAN sensors do not have a large amount of data and have periodic data as well as non-periodic data. Therefore, a large amount of energy is consumed in idle listening for receiving data that may be present at any time. Accordingly, the WBAN saves power by maximizing the sleep period as much as possible by operating the sleep mode in which data transmission and reception and the active mode in which data communication is possible for energy saving. The sensor network saves a lot of energy by using the slotd protocol, which operates in the sleep mode and the activation mode periodically, like the IEEE 802.15.4 MAC. However, the slot method periodically increases the activation time regardless of data transmission. There was a problem with synchronization. In particular, when the two nodes lose synchronization or the wireless link is lost for a long time, the initialization process is repeated, which limits the power consumption.

Meanwhile, a user needs a WBAN personal device (server) to control and manage his / her WBAN. However, if a WBAN personal device is difficult to operate, such as a child, critically ill or animal, it may be managed by another person. In this case, the WBAN management apparatus searches for a WBAN located in its wireless communication area and manages the discovered WBAN as the managing person moves.

The conventional WBAN personal device (server) is a device that manages only its own WBAN, and searches for and joins its own WBAN coordinator using a method of scanning a data channel during an initialization process when initial power is supplied. The method of scanning data channels is a method of detecting an intensity above a threshold by measuring a received signal strength of each data channel in units of channels. In this case, when the intensity of the threshold value or more is detected, the WBAN control device recognizes that a WBAN using the corresponding data channel exists. Using this approach, the WBAN personal device cannot detect the strength above the threshold until the WBAN sends any data over the data channel, so the received signal strength must be measured for a sufficient time.

In addition, when there are N data channels, the search time increases because all N data channels must be measured.

In addition, unlike the WBAN personal device, the WBAN management device needs to search for a WBAN that is frequently connected and disconnected, and establish a connection. Therefore, the WBAN management device requires a separate operation of analyzing a message received from a nearby WBAN coordinator.

An embodiment of the present invention is to provide a WBAN control device and a WBAN related device discovery method capable of searching for at least one or more WBANs located in a wireless communication area through one search operation.

Also, an embodiment of the present invention provides a WBAN control apparatus capable of detecting a wakeup packet signal by detecting a wakeup channel during a first section, and reducing power consumption by operating in a sleep mode for a second section longer than the first section. And a wake-up pattern signal detection method thereof.

WBAN control apparatus according to an embodiment of the present invention is a wake-up channel modem connected to the wake-up channel for the modulation / demodulation process of the signal transmitted and received through the wake-up channel, connected to a plurality of data channels and transmitted and received through the data channel When a data channel modem and a WBAN search command for modulating / demodulating a signal are input, the wake-up is transmitted to at least one WBAN-related device through a wake-up channel to transmit a search signal for searching for a WBAN located in a wireless communication area. And a WBAN controller for controlling a channel modem and detecting and collecting identification information of a WBAN corresponding to the response message when a response message is received from the at least one WBAN related device in response to the discovery signal.

In addition, the WBAN search method of the WBAN control apparatus according to an embodiment of the present invention, the step of receiving a WBAN search command, a search signal for searching for at least one WBAN-related device located in the wireless communication area through the wake-up channel Transmitting and detecting identification information of the WBAN corresponding to the response message when a response message is received from the at least one WBAN related device in response to the discovery signal.

In addition, the method for detecting a wake-up packet signal of the WBAN control apparatus according to an embodiment of the present invention, by operating the wake-up channel in the active mode that can receive a signal during the first period from the at least one WBAN-related device to the wake-up channel Detecting the received wake-up pattern signal and if the wake-up pattern signal is not detected during the first period, the wake-up channel to operate the wake-up channel in a sleep mode for a second period longer than the first period. Controlling the step.

The WBAN control apparatus according to an embodiment of the present invention can search at high speed by searching for at least one or more WBAN related devices (WBAN sensor or WBAN coordinator device) located in a wireless communication area through one search operation.

In addition, the WBAN control device detects a wake-up packet signal during a first period, transmits and receives data with a WBAN-related device, and operates in a sleep mode for a second period longer than the first period, thereby reducing power consumption.

1 is a view showing a WBAN system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a WBAN control apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of an RF transceiver of the WBAN control apparatus illustrated in FIG. 2.
4 is a flowchart illustrating a WBAN search method of the WBAN control apparatus shown in FIG. 2.
FIG. 5 is a flowchart for describing a wakeup packet signal detection method of the WBAN control apparatus illustrated in FIG. 3.
6 and 7 are views for explaining a communication method between the WBAN control device and the WBAN according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terminologies used herein are terms used to properly represent preferred embodiments of the present invention, which may vary depending on the user, the intent of the operator, or the practice of the field to which the present invention belongs. Therefore, the definitions of the terms should be made based on the contents throughout the specification.

1 is a view showing a WBAN system according to an embodiment of the present invention. Referring to FIG. 1, a wireless body area network (WBAN) system includes a WBAN control device 100 and WBAN related devices 1-10 embedded in people 1 to 3.

The WBAN control apparatus 100 is a device for searching for a WBAN related device 1-10 located in a wireless communication area using a wake-up channel, and collecting and managing data from the WBAN related device 1-10. Devices (eg, cellular phones, PDAs, other digital devices, etc.).

In addition, the WBAN related device 1-10 may be embedded in a human body, an animal, or a garment to measure various biometric data and provide the measured data to the WBAN control device 100. The WBAN related devices 1-10 may include WBANs 2, 3, and 5-10, or WBAN coordinator devices 1 and 4 managing WBANs. As shown in FIG. 1, the WBAN coordinator device may be selectively embedded in the human body.

The WBAN control apparatus 100 transmits a discovery signal to a WBAN related device according to a WBAN discovery command input by a user (or an administrator). In this case, when the WBAN coordinator device is built in, such as people 1 to 2, the WBAN control device 100 transmits a search signal to the WBAN coordinator device 1 and 4 to search from the WBAN coordinator device 1 and 4. Receive a response message corresponding to the signal. In this case, the response message may include identification information for the WBANs 2, 3, 5, 6, and 7 managed by the WBAN coordinator devices 1 and 4. Accordingly, the WBAN control apparatus 100 may detect and collect identification information of the WBANs 2, 3, 5, 6, and 7 from the response message.

In addition, when the WBAN coordinator device is not built in like the person 3, the WBAN control apparatus 100 directly transmits a search signal to the WBANs 8, 9, and 10 to receive a response message. That is, the WBAN control device 100 may perform a function of the WBAN coordinator device. The WBAN control apparatus 100 may detect and collect identification information of the WBANs 8, 9, and 10 from the response message. Accordingly, the WBAN control apparatus 100 may search for a plurality of WBANs located in the wireless communication area through one search process.

Meanwhile, the WBAN control apparatus 100 detects a wake-up pattern signal received from at least one WBAN-related device by operating the wake-up channel in an activation mode capable of receiving a signal during the first period.

In addition, when the wake-up packet signal is received from the WBAN-related device during the first period, the WBAN control apparatus 100 checks whether the wake-up packet signal is the identification information request signal, and if the identification information request signal is the identification information request signal. Checks whether it corresponds to its identification information.

If the identification information request signal corresponds to the identification information of the user, the WBAN control apparatus 100 waits for a random back-off time, and then transmits a response message to the WBAN related device through the wake-up channel. Control the wake-up channel. The WBAN control apparatus 100 transmits a response message to the corresponding WBAN-related device and then controls the wakeup channel to operate the wakeup channel in the sleep mode during the second period.

On the other hand, when the wakeup packet signal is a wakeup request signal, the WBAN management apparatus 100 checks whether the wakeup request signal corresponds to its own identification information. If the wakeup request signal corresponds to its identification information, the WBAN related device 100 controls the wakeup channel to transmit a response message to the corresponding WBAN related device through the wakeup channel, and activates the data channel. Switch to That is, the data channel can be woken up to transmit / receive data with the WBAN-related device. In this case, the wake-up of the data channel may be performed by the control module constituting the WBAN control apparatus 100 or may be performed by the wake-up channel module.

Meanwhile, the WBAN control apparatus 100 performs data transmission / reception with a WBAN-related device through a wake-up data channel, and when data transmission / reception is completed, switch the data channel to sleep mode or use the WBAN MAC protocol with a WBAN-related device. Maintain a communications connection. In this case, the WBAN control apparatus 100 switches the data channel to the sleep mode when the communication connection is lost while maintaining the communication connection with the WBAN related device using the WBAN MAC protocol.

Meanwhile, when the wakeup pattern signal is not detected during the first period, the WBAN control apparatus 100 controls the wakeup channel to operate in the sleep mode for a second period longer than the first period. In an embodiment of the present invention, the first interval and the second interval may be one wakeup packet confirmation period, and the wakeup packet confirmation period may be repeated.

In addition, the WBAN control apparatus 100 may operate the wake-up channel in the activation mode during the first period to receive the WBAN discovery signal and operate in the sleep mode during the second period, thereby reducing power consumption.

2 is a block diagram showing the configuration of a WBAN control apparatus according to an embodiment of the present invention. The WBAN control device 100 shown in FIG. 2 is a device constituting the WBAN system, and is connected to WBAN or WBAN coordinator devices to collect various biometric data. Therefore, the administrator can check the biometric data using the WBAN control device 100, and thus can manage the people embedded in the WBAN.

In addition, the WBAN control apparatus 100 may be a user terminal device that is portable and wirelessly communicates with an external device. The WBAN control apparatus 100 may search for a WBAN by communicating with a WBAN or a WBAN coordinator device located in a wireless communication area through a wake-up channel, and receive data from the discovered WBAN to manage the WBAN.

The WBAN control apparatus 100 illustrated in FIG. 2 includes an RF transceiver 110, a wake up channel modem 120, a data channel modem 130, a WBAN controller 140, and a storage 150.

The RF transceiver 110 transmits and receives signals with WBAN related devices.

The wakeup channel modem 120 is connected to the wakeup channel and transmits a discovery signal for searching for at least one or more WBANs located in a wireless communication area using the wakeup channel. In this case, the discovery signal may be an identification information request signal for requesting identification information of the WBAN.

In addition, the discovery signal may be a broadcast type signal for searching for an unspecified number of WBANs located in a wireless communication area, or may be a unicast signal for searching for a specific WBAN. If the discovery signal is a unicast signal, the discovery signal may include identification information corresponding to a specific WBAN.

In addition, the wakeup channel modem 120 receives a wakeup pattern and a wakeup packet signal from a WBAN related device through a wakeup channel, and transmits a corresponding response message to the WBAN related device.

The data channel modem 130 is connected to a plurality of data channels for data transmission and reception, demodulates data received from the WBAN control device 100 or modulates data to be transmitted to the WBAN control device 100 through the data channel. do.

In addition, the data channel modem 130 operates the plurality of data channels in an active mode or a sleep mode under the control of the WBAN controller 140. Normally, data channel modem 130 operates multiple data channels in sleep mode to reduce power consumption. Therefore, data communication cannot be performed through the plurality of data channels.

Meanwhile, when a plurality of data channels operate in an activation mode, the data channel modem 130 may use only one data channel for data communication, or may combine and use multiple data channels. The use form of the data channel may be set in the initialization process of the WBAN control device 100, and the initialization process is based on the WBAN-related standard.

On the other hand, the wake-up channel connected to the wake-up channel modem 120 may be a wireless channel separate from the plurality of data channels, it may be used by setting any one of the plurality of data channels as a wake-up channel.

The WBAN control unit 140 controls the overall operation of the WBAN control device 100. In this description, an operation of the WBAN control unit 140 related to the WBAN search function and the wake-up pattern signal detection function of the WBAN control device 100 will be described.

When a WBAN search command is input through an input means (not shown), the WBAN control unit 140 switches a wake-up channel assigned to at least one or more WBANs to the activation mode during the WBAN search time. In this case, the WBAN search command may be input periodically or may be input by a user request. The WBAN control unit 140 checks whether the wake-up channel is available, and if so, the WBAN control unit 140 transmits a discovery signal to the WBAN-related devices located in the wireless communication area through the wake-up channel to the WBAN. 120).

On the other hand, if the wake-up channel is not available, the WBAN controller 140 waits for a random back-off time and then re-confirms whether the wake-up channel is available. When the available state of the wake-up channel is confirmed, the wake-up channel modem 120 is controlled to transmit a discovery signal to the WBAN-related devices located in the wireless communication area through the wake-up channel.

Meanwhile, when a response message is received from at least one WBAN during the reception wait time of the wake-up channel modem 120 in response to the discovery signal, the WBAN controller 140 detects and collects identification information of the WBAN corresponding to the response message. . The WBAN control unit 130 stores the collected WBAN identification information in the storage unit 150.

In addition, when the first response message is received, the WBAN controller 140 extends the reception waiting time by a random backoff time and waits for reception of the new response message. If the response message is not received by the wakeup channel modem 120 during the reception waiting time, the WBAN controller 140 switches the wakeup channel to the sleep mode.

On the other hand, after a plurality of WBAN identification information is collected through a search process, if a wake-up request command for any one of them is input, the WBAN control unit 140 wakes up a request signal to the corresponding WBAN-related device through the wake-up channel. Control the wake-up channel modem 120 to transmit. Specifically, the WBAN control unit 140 samples the wakeup preamble, adds the sampled wakeup preamble to the data packet, and transmits it to the WBAN related device. Accordingly, the WBAN or WBAN coordinator device wakes up by detecting the data packet to which the wakeup preamble is added as a wakeup pattern signal. When the response message is received from the WBAN in response to the wakeup request signal, the WBAN controller 140 may perform data communication with the corresponding WBAN.

Hereinafter, the operation of the WBAN control unit 140 related to the wakeup pattern detection function will be described in detail. The WBAN controller 140 controls the wake-up channel modem 120 to operate the wake-up channel in the active mode during the first period, and operate the wake-up channel in the sleep mode during the second period after the first period. Controls the wake-up channel modem 120. In this case, the first section may be a very short section compared to the second section. Accordingly, the time that the wake-up channel operates in the active mode is reduced, thereby reducing power consumption. In addition, the first interval and the second interval may be one wakeup packet confirmation period, and the wakeup packet confirmation period may be repeated.

The WBAN control unit 140 detects the wakeup channel modem 120 and detects the wakeup packet signal received from the WBAN control device 100 during the first period. In this case, the wakeup packet signal has a structure in which a wakeup preamble is included in the data packet. The wakeup preamble may be set to the same or longer length than one wakeup packet check period, and may be changed according to the wakeup packet check period.

If the wakeup packet signal is not detected during the first period, the WBAN controller 140 controls the wakeup channel modem 120 to operate the wakeup channel in the sleep mode for the second period.

On the other hand, when the wakeup packet signal is detected, the WBAN control unit 140 checks whether the wakeup packet signal is the identification information request signal, and when the identification information request signal corresponds to the identification information request signal, Check it. If the identification information request signal corresponds to its own identification information, the WBAN control unit 140 waits for a random back-off time and then sends a response message through the wake-up channel to the WBAN control device 100. Control the wake-up channel modem (120). The WBAN control unit 140 transmits a response message to the corresponding WBAN-related device, and then controls the wake-up channel modem 120 to operate the wake-up channel in the sleep mode during the second period.

On the other hand, when the wakeup packet signal is not the identification information request signal, the WBAN controller 140 checks whether the wakeup packet signal is a wakeup request signal. In the case of the wakeup request signal, the WBAN control unit 140 checks whether the wakeup request signal corresponds to its own identification information. If the wakeup request signal corresponds to its own identification information, the WBAN controller 140 controls the wakeup channel modem 120 to transmit a response message to the corresponding WBAN-related device through the wakeup channel, and the data channel. The data channel modem 130 is controlled to switch to the activation mode.

Although the WBAN control device 100 is described in FIG. 2, the WBAN coordinator device may also search for the WBAN in the same manner as the WBAN control device 100, and generate and detect a wakeup pattern signal.

3 is a block diagram illustrating a configuration of an RF transceiver of the WBAN control apparatus illustrated in FIG. 2. Referring to FIG. 3, the RF transceiver 110 includes a first switch 111, a second switch 112, a first frequency synthesizer 113, a second frequency synthesizer 114, a band pass filter 115, and a first filter 111. A first voltage controlled oscillator 116, a second voltage controlled oscillator 117, and an antenna 118 are included.

The first switch 111 performs a switching operation according to the signal transmission / reception operation of the WBAN control device 100. Specifically, the first switch 111 contacts the signal transmission terminal during the signal transmission operation with the WBAN-related device, and performs a switching operation for contacting the signal reception terminal during the signal reception operation.

In addition, when the second switch 112 transmits a signal to the WBAN control apparatus 100, when the signal is transmitted in the wake-up channel, the second switch 112 contacts the first terminal connected to the wake-up channel, and when the signal is transmitted in the data channel, A switching operation of contacting the second terminal connected to the data channel is performed.

The first frequency synthesizer 113 is connected to the transmission line of the wake-up channel and the data channel to synthesize a predetermined signal transmitted to the outside from the wake-up channel or the data channel to the frequency of the given channel.

In addition, the second frequency synthesizer 114 synthesizes the signal received from the outside to the frequency of the wake-up channel or data channel. The band filter 115 filters the frequency synthesized by the second frequency synthesizer 114 and transmits the filtered frequency to the wakeup channel or the frequency channel.

The first voltage controlled oscillator 116 and the second voltage controlled oscillator 117 are connected to the first frequency synthesizer 113 and the second frequency synthesizer 114, respectively. The first voltage controlled oscillator 116 controls the frequency of the first frequency synthesizer 113 according to the voltage, and the second voltage controlled oscillator 117 controls the frequency of the second frequency synthesizer 114 according to the voltage.

Through the RF transceiver 110 illustrated in FIG. 3, the WBAN control apparatus 100 may receive a wakeup packet signal used in an embodiment of the present invention, and transmit a response message to a WBAN related device. .

4 is a flowchart illustrating a WBAN search method of the WBAN control apparatus shown in FIG. 2. Referring to FIG. 4, when a WBAN search command is input (step 410), the WBAN control apparatus 100 switches a wake-up channel assigned to at least one or more WBAN related devices to an activation mode (step 415).

Thereafter, the WBAN control apparatus 100 checks whether the wake-up channel is in an available state, and if it is available (420: YES), the WBAN control apparatus 100 provides a discovery signal to at least one or more WBANs located in the wireless communication area of the WBAN control apparatus 100. Transmit (step 430). In this case, the discovery signal may be an identification information request signal for requesting identification information from a WBAN located in a wireless communication area of the WBAN control apparatus 100 or a WBAN coordinator managing the WBAN.

On the other hand, if the wake-up channel is not available (420: NO), the WBAN control device 100 waits for transmission of the discovery signal by the first random backoff time (or turn around time) (step 425). Thereafter, when the first random backoff time elapses, the WBAN control apparatus 100 reconfirms whether the wakeup channel is available and transmits a discovery signal to the WBAN.

On the other hand, after transmitting the discovery signal, the WBAN control apparatus 100 waits for the second random backoff time (step 435) and then checks whether a response message corresponding to the discovery signal has been received. If a response message corresponding to the discovery signal has not been received (440: NO), the wakeup channel is switched to the sleep mode (step 460).

On the other hand, if a response message is received (440: YES), the WBAN control device 100 detects and collects identification information of the WBAN corresponding to the response message (step 445). After waiting for the third random backoff time (step 450), it is checked whether a new response message is received. In this case, if a new response message is received (step 455: YES), the WBAN control apparatus 100 performs steps 445 and 450 again.

On the other hand, if a new response message is not received (step 455: NO), the WBAN control device 100 switches the wake-up channel to the sleep mode (step 460).

FIG. 5 is a flowchart illustrating a wakeup packet signal detection method of the WBAN control device shown in FIG. 2. The WBAN control apparatus 100 operates the wakeup channel in an active mode during the first period (step 515).

Thereafter, the WBAN control apparatus 100 detects the wake-up channel modem to determine whether a wake-up pattern signal is detected in the wake-up channel (step 520).

If the wakeup pattern signal is detected (step 525: YES), it is checked whether the wakeup packet signal is the identification information request signal (step 530). As a result of the identification, if the identification information request signal is 530 (YES), it is checked whether the identification information request signal corresponds to its own identification information (step 535). If it is determined that it corresponds to its own identification information (step 535: YES), after waiting for a random backoff time (step 540), it is checked whether the wake-up channel is available (step 545). If it is confirmed as available (step 545: YES), the WBAN control device transmits a response message including its identification information to the WBAN control device 100 (step 550). In operation 560, the WBAN control apparatus switches the wake-up channel to the sleep mode during the second period.

If the wakeup packet signal is not the identification information request signal (step 530: NO), the WBAN control apparatus 100 determines whether the wakeup packet signal is the wakeup request signal (step 565). .

If it is the wake-up request signal, the WBAN control apparatus 100 checks whether it corresponds to its own identification information (step 570). If it corresponds to its own identification information (step 570: YES), the WBAN control device 200 switches the plurality of data channels to the activation mode for data communication (step 580). In operation 585, the WBAN control apparatus 100 transmits a response message to notify the WBAN-related device of activation modes for the plurality of data channels. Thereafter, the WBAN control apparatus 200 switches the wakeup channel to the sleep mode (step 560).

When the data channel wakes up in the WBAN control device 100, it establishes a connection between two nodes (WBAN control device and WBAN or WBAN control device and WBAN coordinator device) and uses a general slot protocol including IEEE 802.15.4 MAC or temporarily After the data transmission and reception may be switched back to the sleep mode.

In addition, even in a state where the communication connection is maintained, including the slot protocol, the WBAN control device 100 loses the synchronization between the two nodes for a predetermined time or leaves the communication area, and the communication connection is released to switch to the sleep mode. Therefore, unnecessary power consumption is reduced. When the sleep mode is switched, the wakeup channel may be woken up again.

6 and 7 are views for explaining a communication method between the WBAN control device and the WBAN according to an embodiment of the present invention. FIG. 6 is a diagram for describing a broadcast method of communication between the WBAN control device 100 and the first to third WBANs 11, 12, and 13. FIG. 7 is a view illustrating the WBAN control device 100 and the second WBAN. It is a figure for demonstrating the communication method of the unicast system between (2).

Referring to FIG. 6, the WBAN management apparatus 100 transmits a WBAN discovery signal during the WBAN discovery time Td. This WBAN discovery signal is transmitted to the first to third WBANs 11, 12, 13 located in the wireless communication area of the WBAN control device 100. In this case, the WBAN discovery signal is transmitted through a wakeup channel assigned to the first to third WBANs 11, 12, and 13, and whether the wakeup channel is available to prevent a signal collision in the wakeup channel. After confirming, you can send.

Each of the first to third WBANs 11, 12, and 13 receives the WBAN discovery signal, and if it is determined that the WBAN discovery signal is valid and corresponding to the WBAN discovery signal, transmits a response message corresponding thereto to the WBAN control apparatus 100. do. In this case, the response message may include data channel information used by the corresponding WBAN and identification information of the corresponding WBAN.

Referring to FIG. 7, the WBAN control apparatus 100 transmits a WBAN discovery signal during the WBAN discovery time Td. In this case, the WBAN discovery signal is a signal for searching for a specific WBAN (eg, the second WBAN 2) and includes identification information corresponding to the second WBAN 2. Thus, the WBAN discovery signal is transmitted to the second WBAN 2. The second WBAN 2 receives the WBAN discovery signal as an identification information request signal, and if it is determined that the identification information request signal corresponds to its own identification information, transmits a response message to the WBAN control apparatus 100.

As illustrated in FIGS. 6 and 7, the WBAN control apparatus 100 transmits a WBAN discovery signal during a WBAN discovery time to search for a WBAN located in a wireless communication area at one time, thereby enabling high-speed discovery.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

100: WBAN control device 110: RF transceiver
120: wake-up channel modem 130: data channel modem
140: WBAN control unit 150: storage unit

Claims (19)

A wake-up channel modem connected to a wake-up channel to modulate / demodulate a signal transmitted and received through the wake-up channel;
A data channel modem connected to a plurality of data channels for modulating / demodulating a signal transmitted and received through the data channel; And
When a WBAN search command is input, the wake-up channel modem is controlled to transmit a search signal for searching for a WBAN located in a wireless communication area to at least one WBAN-related device through the wake-up channel, and corresponding to the search signal. The WBAN control unit detects and collects identification information of the WBAN corresponding to the response message when the response message is received from the at least one WBAN related device.
Lt; / RTI >
The WBAN control unit,
The wakeup channel is operated in an activation mode capable of receiving a signal during a first period to detect a wakeup packet signal received in the wakeup channel from the at least one WBAN related device, and the wakeup packet during the first period. And if the signal is not detected, controlling the wake-up channel modem to operate the wake-up channel in a sleep mode for a second section longer than the first section. The method of claim 1,
The at least one WBAN related device,
WBAN control device which is a WBAN embedded in clothing or a human body or a WBAN coordinator device for managing the WBAN. The method of claim 1,
The WBAN control unit,
WBAN control when the WBAN search command is input, activates the wake-up channel to determine whether an available state is available, and if the available state is available, controls the wake-up channel modem to transmit the search signal to the at least one WBAN related device. Device. The method of claim 1,
The WBAN control unit,
And control the wake-up channel modem to switch the wake-up channel to a sleep mode if the response message is not received during the reception wait time of the wake-up channel. delete The method of claim 1,
The WBAN control unit,
When the wakeup packet signal is detected, the WBAN checks whether the wakeup packet signal is an identification information request signal, and if the identification information request signal is the WBAN, confirms whether the identification information request signal corresponds to its own identification information. controller. The method according to claim 6,
The WBAN control unit,
If the identification information request signal corresponds to its own identification information, after waiting for a random back-off time, the wakeup channel modem transmits a response message to the WBAN-related device through the wakeup channel. WBAN control device to control the. 8. The method of claim 7,
The WBAN control unit,
And transmitting the response message to the WBAN related device, and controlling the wake-up channel to operate in the sleep mode. The method of claim 1,
The WBAN control unit,
When the wakeup packet signal is detected, the WBAN checks whether the wakeup packet signal is a wakeup request signal, and if the wakeup request signal is the WBAN, confirms whether the wakeup request signal corresponds to its own identification information. controller. 10. The method of claim 9,
The WBAN control unit,
And if the wakeup request signal corresponds to its own identification information, controlling the wakeup channel modem to transmit a response message to the WBAN related device through the wakeup channel. 11. The method of claim 10,
The response message includes:
WBAN control device including its own identification information, the channel information for the data channel and the activation time information of the data channel. 11. The method of claim 10,
The WBAN control unit,
And control the data channel modem to wake up the data channel if the wakeup request signal corresponds to its identification information. 11. The method of claim 10,
The wake-up channel modem,
And control the data channel modem to wake up the data channel if the wakeup request signal corresponds to its identification information. The method according to claim 12 or 13,
The data channel modem,
Perform data transmission / reception with the WBAN-related device through the wake-up data channel, and when the data transmission / reception is completed, switch the data channel to a sleep mode or maintain a communication connection with the WBAN-related device using the WBAN MAC protocol. WBAN control unit. 15. The method of claim 14,
The data channel modem,
WBAN control apparatus for switching the data channel to the sleep mode when the communication is lost for a predetermined time, or the communication connection is lost while maintaining a communication connection with the WBAN-related device using the WBAN MAC protocol. The method of claim 1,
The WBAN control unit,
And a first wake-up packet check period and repeating the wake-up packet check period. The method of claim 1,
Further comprising an RF transceiver,
The RF transceiver,
A first switch contacting any one of a signal transmission terminal and a signal reception terminal according to a signal transmission / reception operation with the WBAN related device;
A second switch contacting any one of a first terminal connected to the wakeup channel and a second terminal connected to the data channel when transmitting a signal to the WBAN related device;
A first frequency synthesizer coupled to a transmission line of the wake-up channel and the data channel to synthesize a signal transmitted to the WBAN related device to a frequency of a given channel; And
A second frequency synthesizer connected to the wake-up channel and the receiving line of the data channel to synthesize a signal received from the WBAN related device to a frequency of a given channel;
WBAN control device comprising a. delete Detecting a wake-up pattern signal received in the wake-up channel from at least one WBAN-related device by operating the wake-up channel in an activation mode capable of receiving a signal during a first period; And
If the wakeup pattern signal is not detected during the first period, controlling the wakeup channel to operate the wakeup channel in a sleep mode for a second period longer than the first period.
Wake-up pattern signal detection method comprising a.

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