KR101843189B1 - Method for selecting communication channel in communication device of wideband wireless communication system and apparatus thereof - Google Patents

Abstract

A method of selecting a communication channel in a communication apparatus of a broadband wireless communication system according to an exemplary embodiment of the present invention is a method and apparatus for setting channels for communicating distributed devices in a broadband wireless communication system, Requesting a scan, receiving a channel scan response message including pre-allocated resource information for each of the scanned communication channels, and selecting a channel based on the pre-allocated resource information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a communication channel selection method, and a communication channel selection method in a communication apparatus of a broadband wireless communication system,

The present invention relates to a method and apparatus for establishing a channel for communicating distributed devices in a broadband wireless communication system, and more particularly, to a configuration of a message used in the channel setting.

The millimeter wave (mmWave) band (57-66GHz) is proposed as a solution to the lack of frequency resources around the world. In addition, recently, a radio communication system supporting a multi-gigabit data rate has been attracting attention as a radio frequency signal of a millimeter wave band can be implemented.

Millimeter waves have inherent characteristics such as short wave length, high frequency, broadband, and high interactions with atmospheric components. The advantage of millimeter wave is that it can obtain high data rate by using ultra-wideband, it is strong in direct interference, very strong in peripheral interference, is excellent in security, and is easy to reuse frequency. In addition, since the wavelength is short, various devices can be made smaller and lighter.

On the other hand, the disadvantage of the millimeter wave is that the propagation distance is short due to the absorption by the oxygen molecule and the attenuation due to the rainfall, and the line of sight is secured due to the characteristic of the linearity.

Directional antennas are used to compensate for the disadvantages of such millimeter waves. Directional antennas can extend the range of communication by concentrating power in a specific direction to increase antenna gain efficiency.

In addition, the above-described wireless communication system forms a network using nodes located dispersed in a short distance on the propagation characteristics of a millimeter wave band

A device to initiate communication confirms which neighboring devices are present in the current network and performs a discovery procedure to find a device to communicate with. At this time, the device performing the discovery procedure may be called a discovery device.

After the communication device to be communicated is determined through the discovery procedure, a process of selecting a channel suitable for communication among the channels allowed to communicate is performed. This process can be performed by exchanging a channel selection command frame between the discovery apparatus and the communication apparatus.

An embodiment of the present invention provides a method of configuring a message used in a broadband wireless communication system to exchange information obtained by scanning a plurality of channels in order to select a channel suitable for communication by distributed devices.

Also, an embodiment of the present invention provides a method of constructing a message indicating whether a plurality of channels to be scanned are channels supporting a superframe structure.

In addition, an embodiment of the present invention provides a method of selecting an optimal communication channel by using information obtained by scanning a plurality of channels.

A method for selecting a communication channel in a communication apparatus of a broadband wireless communication system according to an exemplary embodiment of the present invention includes the steps of requesting scanning of channels between a communication apparatus and a discovery apparatus, Receiving a response message and selecting a channel based on the pre-allocated resource information.

The channel scan response message may include a channel measurement IE.

The requesting of the scanning of the channels may include transmitting channel information to be scanned using a channel bitmap field.

The channel measurement information may include a superframe structure of the scanning channel and information about the strength of the noise and interference signals corresponding to the resources of the scanning channel.

The pre-allocated resource information may be composed of a time interval, a frequency, a code, or a combination thereof.

The pre-allocated resource information may include a usage portion of a time slot (Medium Access Slot, MAS) constituting the scanning channel.

A communication channel selection method in a communication apparatus of a broadband wireless communication system according to another embodiment of the present invention includes the steps of: requesting resources to the discovery apparatus based on channel measurement information and pre-allocated resource information of the selected channel; The method may further include allocating resources from the device.

Wherein the step of requesting to scan the channels requests a scan of the channels using a channel selection command frame, the channel selection command frame includes a channel selection control field, A command ID field indicating that the use of the channel selection command frame is a channel scan request, a reason code field indicating a use of the channel selection command frame, and a channel bitmap field indicating a channel to be scanned.

The step of receiving the channel scan response message includes receiving the channel scan response message using a channel selection command frame, and the channel selection command frame includes a channel selection control field and an information element field Wherein the channel selection control field includes a channel bitmap field indicating a channel scanned by the discovery apparatus, the information element fields including a pre-allocated resource information element field corresponding to the scanned channel, Element field.

The pre-allocated resource information element field includes resource availability information (DRP Availability) indicating the availability of MASs constituting the scanned channel and length information indicating the length of the resource availability information can do.

The channel measurement information element field includes identification information indicating the channel measurement information, length information indicating a length of the channel measurement information, a beam identifier for identifying a directional beam used for the scanning, A measurement report including a measurement result of the measurement report, and a number of the measurement report.

The measurement report may include a zone bitmap identifying zones containing a predetermined number of MASs and a MAS bitmap identifying time slots included in the zone.

The measurement results may include a noise plus interference level indicator (NILI) indicating the strength of the noise and the interference signal measured for each time slot included in the zone.

The indicator of the strength of the noise and interference signal may be determined to be a value coded in the strength of the measured noise and interference signal based on a predetermined coding table.

If the superframe structure does not exist in the scanned channel, the length information indicating the length of the resource availability information may be set to '0'.

If no superframe structure exists in the scanned channel, the number information of the measurement report is set to 1, the zone bitmap and the MAS bitmap are set to 0, and the measurement results include An indicator of the noise and the strength of the interference signal coded in the average noise and the strength of the interference signal can be set.

The method of claim 1, wherein the selecting of the channel comprises: obtaining information on available resources based on the pre-allocated resource information; selecting, from among available communication channels based on the channel measurement information, Can be selected.

A communication channel selection method in a broadband wireless communication system according to an exemplary embodiment of the present invention includes acquiring resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in a scanning channel, Measuring a strength of a noise and an interference signal corresponding to resources of a channel and a channel measurement IE including a super frame structure and information on the intensity of the measured noise and interference signals for each of the scanned communication channels, And transmitting the channel scan response message including the pre-allocated resource information.

A communication channel selection method in a broadband wireless communication system discovery apparatus according to another exemplary embodiment of the present invention determines whether or not a super frame structure exists in the scanning channel based on whether the beacon message is received from peripheral devices in the scanning channel The method comprising the steps of:

A communication channel selection method in a broadband wireless communication system discovery apparatus according to another embodiment of the present invention includes receiving a channel scan request message from a communication apparatus to request scanning of channels allowed to communicate between the communication apparatus and the discovery apparatus As shown in FIG.

The method of selecting a communication channel in a broadband wireless communication system discovery apparatus according to another embodiment of the present invention may further include a step of requesting a resource for a communication channel selected from the communication apparatus and allocating the resource to the communication apparatus .

The transmitting of the channel scan response message transmits the channel scan response message using a channel selection command frame, and the channel selection command frame includes a channel selection control field and an information element field Wherein the channel selection control field includes a channel bitmap field indicating a scanned channel and the information element fields may include a resource information element field and a channel measurement information element field preallocated for each scanned channel have.

The pre-allocated resource information element field includes resource availability information (DRP Availability) indicating availability of MASs constituting the scanned channel and length information indicating the length of the resource availability information can do.

The channel measurement information element field includes identification information indicating the channel measurement information, length information indicating a length of the channel measurement information, a beam identifier for identifying the directional beam used for the scanning, A measurement report including measurement results, and a number of measurement reports.

If there is no superframe structure in the scanned channel, the length information indicating the length of the resource availability information may be set to zero.

If there is no superframe structure in the scanned channel, the number information of the measurement report is set to 1, and a zone bitmap (MAS) identifying a zone including a predetermined number of time slots (MAS) And a MAS bitmap identifying time slots included in the zone, wherein the measurement results include an indicator of the strength of the noise and interference signal encoded in the average noise of the scanned channel and the intensity of the interference signal Noise plus Interference Level Indicator (NILI).

A communication apparatus of a broadband wireless communication system according to an embodiment of the present invention includes a scan request unit for requesting scanning of channels allowed to communicate between a communication apparatus and a discovery apparatus, a channel measurement IE for each communication channel, A channel selection unit for selecting an optimal communication channel among the channels allowed to communicate based on the channel measurement information and the pre-allocated resource information, And a channel change request unit for transmitting information on the selected channel to the discovery apparatus and requesting a channel change to the selected channel.

A discovery apparatus of a broadband wireless communication system according to an embodiment of the present invention includes a determination unit for determining a presence or absence of a superframe structure of a scanning channel, a preamble allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel, A resource information acquisition unit for acquiring resource information, a resource information measurement unit for measuring a strength of a noise and an interference signal corresponding to the resources of the scanning channel, a superframe structure unit and the measured noise and interference A message transmission unit for transmitting a channel scan response message including channel measurement IE information including information on the strength of a signal and the pre-allocated resource information, and a transmitter for transmitting the channel scan response message to a channel determined based on the channel scan response message. A channel change determining unit for determining whether to change the channel in response to the channel change request, .

In a broadband wireless communication system, distributed terminals perform antenna alignment with a discovery device to communicate before requesting a resource for communication, request signal measurement for time resources of a channel through an aligned antenna, By receiving the signal measurement results from the discovery device, it maximizes space recycling according to antenna alignment and allocates optimal communication resources in the subsequent resource request and allocation process.

Figure 1 shows the channel structure allowed in a wireless system using the 60 GHz frequency band.
2 shows a superframe structure for a time division multiple access scheme in a distributed ad-hoc network.
3 is a flowchart illustrating a process of selecting a communication channel in a communication apparatus according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating a process of selecting a communication channel in a discovery apparatus according to an embodiment of the present invention.
5 is a diagram illustrating a structure of a channel selection command frame in a distributed MAC protocol wireless system according to an embodiment of the present invention.
6 is a diagram illustrating a configuration of a channel measurement IE field according to an embodiment of the present invention.
7 is a diagram illustrating a configuration of a pre-allocated resource information element field according to an embodiment of the present invention.
FIG. 8 is a diagram illustrating a configuration of a channel selection command frame according to an embodiment of the present invention when there are four scanning channels.
9 is a diagram illustrating a configuration of a channel measurement information element field and a pre-allocated resource information element field according to an embodiment of the present invention when a super frame structure is not supported by some of the scanning channels.
10 is a block diagram illustrating a configuration of a communication apparatus for selecting a communication channel in a broadband wireless communication system according to an embodiment of the present invention.
11 is a block diagram illustrating a configuration of a discovery apparatus for selecting a communication channel in a broadband wireless communication system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows the channel structure allowed in a wireless system using the 60 GHz frequency band.

Systems using the 60 GHz frequency band can use the channels allocated as in FIG. Referring to FIG. 1, channels may be allocated to four channels 101, 103, 105, and 107 having a bandwidth of 2.160 GHz in a 60 GHz frequency band. In addition, the channels may be allocated to three channels 111, 113, and 121 having a bandwidth of 4.320 GHz. In addition, the channels may be allocated to two channels 131 and 141 having a bandwidth of 6.480 GHz. In addition, the channel may be allocated to a channel 151 having a bandwidth of 8.640 GHz. That is, 10 channels can be allocated in the 60 GHz frequency band.

2 shows a superframe structure for a time division multiple access scheme in a distributed ad-hoc network.

Referring to FIG. 2, a superframe is composed of fixed-length time slots (Medium Access Slots), and a superframe is divided into 256 fixed-number MASs. The time slots constituting the superframe are largely divided into a beacon period and a data exchange period. The beacon interval is composed of initial time slots of a superframe, and devices constituting each node transmit a beacon message including their MAC control information using this slot. And the remaining time slots are used for data exchange. The beacon interval may vary in length depending on the content of the beacon message. The distributed MAC protocol allows each device to reserve a specific MAS using a beacon message, and reserved MASs can be specified to be used only by a reserved device. Each device can confirm whether the scanned channels support the superframe structure, and if a superframe structure is supported, the information on the available MAS can also be acquired through a beacon message.

3 is a flowchart illustrating a process of selecting a communication channel in a communication apparatus according to an exemplary embodiment of the present invention.

In step 310, the communication device requests a scan of channels that are allowed to communicate between the communication device and the discovered device. Channels that are allowed to communicate are channels that can communicate in the frequency band of millimeter wave. The communication device may send a channel scan request command frame to cause the discovery device to search for channels suitable for communication. The discovery device may receive a channel scan request command frame and scan the communicatable channels.

The communication device may request a scan of the channels for which the communication is allowed using a channel selection command frame. The channel selection command frame includes a channel selection control field. The channel selection control field includes a command ID field indicating that the use of the channel selection command frame is a channel scan request, a reason code field, and a channel bitmap field indicating a channel to be scanned . The channel selection control field will be described in more detail in FIG.

The communication device can transmit channel information to be scanned among the channels allowed to communicate using a channel bitmap field.

In step 320, the communication device receives a channel scan response message. The channel scan response message may include Channel Measurement IE and pre-allocated resource information measured for each of the scanned communication channels. The discovery apparatus can scan channels and measure channel measurement information for each channel. A channel to be scanned may be referred to as a scanning channel. The channel measurement information may include information on the intensity of the noise and interference signals corresponding to the resources of the scanning channel and the superframe structure of the scanning channel. The resources of the scanning channel may include, for example, time slots.

In addition, the discovery apparatus can receive the beacon frame from neighboring devices located in each channel on a channel-by-channel basis to acquire resource information pre-allocated to the channel. The beacon frame may include resource information used by the neighboring device. At this time, the pre-allocated resource information may be composed of a time interval, a frequency or a code, or a combination thereof. For example, the pre-allocated resource information may include information on a usage portion of a time slot (Medium Access Slot, MAS) constituting a scanning channel using a specific frequency.

The communication device may receive a channel scan response message using a channel selection command frame. At this time, a "channel scan response" command may be assigned to a channel selection control field constituting a channel selection command frame. In addition, the channel selection command frame may include information element fields, which may include a pre-allocated resource information element field and a channel measurement information element field corresponding to the scanning channel. The pre-allocated resource information element field indicates pre-allocated resource information for each scanning channel, and the channel measurement information element field may indicate channel measurement information measured for each scanning channel.

In step 330, the communication device selects a communication channel among the channels allowed to communicate based on the channel measurement information and the pre-allocated resource information. More specifically, the communication device acquires information on usable resources based on the pre-allocated resource information, and selects a communication channel having the largest amount of interference among available communication channels based on the channel measurement information . For example, the communication apparatus can acquire information on available MASs for each channel through the pre-allocated resource information. In addition, through the channel measurement information, the influence of noise and interference on usable MAS can be considered. As a result, the communication apparatus can select, as a communication channel, a channel having the largest number of MASs whose influence of noise and interference is below a reference level among the channels.

In step 340, the communication device may request resources from the discovery device based on channel measurement information and pre-allocated resource information of the selected communication channel. The communication device may transmit a channel change request command frame including information on the channel selected by the discovery device. In the case of receiving the channel change response message accepting the channel change from the discovery apparatus, the communication apparatus can request resource allocation of the selected channel to the discovery apparatus.

In step 350, the communication device can allocate resources from the discovery device and communicate with the discovery device through the allocated resources. At this time, the discovery apparatus may reject the change to the channel selected by the communication device because the sufficient resources are not enough to perform the communication with the selected channel. Also, the discovery device may reject the channel change because it is a decision that does not match the content included in the channel scan response message. Also, the discovery device may reject the channel change because the selected channel is a channel not supported by the discovery device. When receiving a channel change rejection response message from the discovery apparatus, the communication apparatus can perform the process of selecting the communication channel in step 330 again.

4 is a flowchart illustrating a process of selecting a communication channel in a discovery apparatus according to an embodiment of the present invention.

In step 410, the discovery device may receive a channel scan request message from the communication device requesting a scan of channels that are allowed to communicate between the communication device and the discovery device.

In operation 420, the discovery apparatus may acquire resource information pre-allocated to the scanning channel through the beacon message received from the peripheral devices in the scanning channel. The scanning channel means a channel to be scanned in response to a request from the communication device. The beacon message may include resource information used by the neighboring device. The pre-allocated resource information may include information on a usage portion of a time slot (Medium Access Slot, MAS) constituting a scanning channel.

In addition, the discovery apparatus can determine the presence or absence of the superframe structure of the scanning channel based on whether or not the beacon message is received from the peripheral devices in the scanning channel. The superframe structure means whether or not the scanning channel is configured as a superframe structure. Receiving a beacon message from peripheral devices may mean that there is a superframe structure in the scanning channel since the beacon message is transmitted using some time slot of the superframe structure.

In step 430, the discovery device measures the strength of the noise and interference signals corresponding to the resources of the scanning channel. The resources of the scanning channel may include, for example, time slots. The discovery device may measure the strength of the noise and interference signals from the peripherals by time slot. Expressed again, the discovery device can measure the strength of the noise and interfering signals during a given MAS of the scanning channel.

In step 440, the discovery device transmits a channel scan response message. The channel scan response message may include Channel Measurement IE and pre-allocated resource information. At this time, the channel measurement information may include information on the scanned communication channel, the super frame structure, and the intensity of the measured noise and interference signal.

The discovery device may transmit a channel scan response message using a channel selection command frame. The channel selection command frame may include a channel selection control field and an information element field. The channel selection control field may include a channel bitmap field indicating a channel scanned by the discovery apparatus. The information element fields may include pre-allocated resource information element fields and channel measurement information element fields for each channel scanned by the discovery apparatus.

The pre-allocated resource information element field may include resource availability information (DRP Availability) indicating the availability of time slots (Medium Access Slots, MASs) constituting a scanning channel, and length information indicating the length of resource availability information.

If the superframe structure does not exist in the scanning channel, the discovery apparatus can set 0 to the length information indicating the length of the resource available information. If the length information is set to 0, it may mean that there is no information about resources that can be acquired in the scanning channel. Also, when the length information is set to " 0 ", it may mean that all the MASs allocated to the scanning channel can not be used.

The channel measurement information element field includes identification information indicating channel measurement information, length information indicating the length of the channel measurement information, a beam identifier for identifying the directional beam used for scanning, a measurement including measurement results of resources of the scanning channel The number of measurement reports, and the number of measurement reports. The measurement result may include the intensity of the noise and interference signal measured during a given MAS of the scanning channel. The measurement report includes a zone bitmap identifying zones containing a predetermined number of time slots (MASs), a MAS bitmap identifying time slots included in the zone, and a noise And an indicator of the strength of the interfering signal.

If the superframe structure does not exist in the scanning channel, the discovery apparatus can set 1 to the number information of the measurement report. That is, the discovery apparatus can indicate that there is no superframe structure in the scanning channel through one measurement report. In addition, the discovery apparatus can set 0 to the zone bitmap and the MAS bitmap. If there is no superframe structure in the scanning channel, there is no resource allocated to the channel. In addition, the discovery apparatus can set a noise plus interference level indicator (hereinafter referred to as NILI) of the noise and interference signal coded in the average noise of the scanned channel and the intensity of the interference signal. The NILI may be coded with a value mapped to the intensity of the noise and interference signal measured based on the coding table.

In step 450, the discovery device may receive information about the communication channel selected from the communication device. The discovery device may receive a channel change request message from the communication device to the selected communication channel. At this time, the discovery apparatus may refuse the channel change because of insufficient resources for communication with the communication channel selected by the communication apparatus. Also, the discovery device may reject the channel change because it is a decision that does not match the content included in the channel scan response message. Also, the discovery apparatus may reject the channel change because the communication channel selected by the communication apparatus is a channel not supported by the discovery apparatus. The discovery device may send an accepted channel change response message to the communication device if it accepts the channel change request to the best communication channel. The discovery apparatus may be requested to allocate resources for the optimal communication channel from the communication apparatus.

In step 460, the discovery device may allocate the resources needed to communicate in the communication channel to the communication device.

5 is a diagram illustrating a structure of a channel selection command frame 500 in a distributed MAC protocol wireless system according to an embodiment of the present invention.

Referring to FIG. 5, a channel selection command frame 500 may include a channel selection control field 510 and a plurality of information element fields 520. At this time, 2 bytes can be allocated to the channel selection control field 510. In the first information element field 521 and the Nth information element field 522, bytes of various lengths may be allocated according to the content of the information element.

The channel selection control field 510 includes a command ID field 511, a reserved field 513, a reason code field 515, a channel bitmap field 517, . ≪ / RTI >

The command type field 511 may be used to distinguish the use of the channel selection command frame 500. The use of the channel selection command frame 500 can be distinguished by a channel scan request, a channel scan response, a channel change request, and a channel change response. The communication device may send a channel selection command frame 500 of the channel scan request to the discovery device. The discovery device may transmit a channel selection command frame 500 of a channel scan response. The command type field 511 may be assigned 2 bits.

Reserved field 513 may be assigned a bit to indicate other messages.

The reason field 515 may be used to indicate the response of the discovery device when the use of the channel selection command frame 500 is a channel change response. For example, if the discovery apparatus transmits a channel selection command frame 500 of a channel change response, accepts a channel change, and indicates that the channel is unavailable, When the channel change request is in conflict, the discovery apparatus may display a case in which the channel to be changed is not supported (Invalid) by bits allocated to the reason field 515. In the reason field 515, 2 bits may be allocated to indicate the above four cases.

The channel bitmap field 517 may be used to indicate the channel to be scanned among the channels communicable between the communication device and the discovery device. For example, if there are 10 communicatable channels, ten bits from channel 1 to channel 10 may be allocated in the channel bitmap field 517, and a channel indicated by 1 may be a channel to be scanned .

The plurality of information element fields 520 may include a pre-allocated resource information element field and a measured channel measurement IE field acquired for each scanning channel by the discovery apparatus. This will be described in more detail in FIGS. 6 to 9.

FIG. 6 is a diagram illustrating a configuration of a channel measurement IE field 600 according to an embodiment of the present invention.

6, a channel measurement information element field 600 includes identification information 610, length information 620, a beam identifier 630, measurement reports 650 and 660, And number information 640 of the report.

The identification information 610 indicates that the information contained in the information element field is the measurement information of the scanning channel. The length information 620 indicates the length of the channel measurement information. The beam identifier 630 may be used to identify the directional beam used for scanning. The measurement reports 650, 660 may include measurement results of the resources of the scanning channel. The measurement report number information 640 represents the number of measurement reports 650 and 660.

16 consecutive MASs in a superframe composed of 256 MASs can be grouped into zones and 16 zones can be created. Each Zone can be represented by a Zone bitmap consisting of 16 bits. In a super frame, a specific MAS can be displayed through a Zone bitmap and a MAS bitmap. For example, the zeroth bit in the Zone bitmap indicates whether or not a Zone composed of the first consecutive 16 MASs constituting the superframe is included in the measurement interval. Also, the 0th bit in the MAS bitmap indicates whether or not the first MAS of the corresponding zone is included in the measurement interval. In addition, by coding 1 in each of the Zone bitmap and the MAS bitmap, an indicator NILI of the strength of the noise and the interference signal can be allocated to the MASs to be measured, in the order of the positions of the MASs.

The measurement report 650 may include a Zone bitmap 651, a MAS bitmap 653, and NILI values 655, 657, 659 corresponding to each MAS. 16 bits can be allocated to the Zone bit map 651 and the MAS bit map 653, respectively. Through each bit, it is possible to know whether the corresponding MAS is a signal measurement target. The NILI values (655, 657, 659) may be allocated bits considering the number of cases where NILI is coded. The measurement report 660 may also include the above information.

The measurement report 650 may include measurement results measured for each zone including a predetermined number of MASs or for each time slot included in the zone.

The measurement results may include a noise plus interference level indicator (NILI) of the noise and interference signal measured for each time slot included in the zone. The indicator of the strength of the noise and interference signal may be determined to a value that is coded to the strength of the noise and interference signal based on a predetermined coding table. The predetermined coding table is shown in Table 1 below.

 [Table 1]

Here, NILI _power represents the strength of noise and interference signals, and a corresponding value can be coded according to the value of NILI _power . For example, if the value of NILI _power is -100, then the value encoded with NILI is 2. Since NILI can be distinguished as 16 cases as shown in Table 1, 4 bits can be allocated to NILI values (655, 657, 659).

The value of the channel measurement information element field 600 may be set differently when there is no superframe structure in the scanning channel, i.e., when the discovery apparatus does not receive the beacon message from the peripheral apparatus.

In the case where there is no superframe structure in the scanning channel, since the MAS is not allocated to the scanning channel, the Zone bitmap 651 and the MAS bitmap 653 have no value. At this time, the 0x0000 bit may be set in the Zone bitmap 651 and the MAS bitmap 653. In addition, 1 can be set in the number-of-measurement report information 640. Since no MAS is assigned, it is possible to indicate that there is no superframe structure in the scanning channel through one measurement report. In addition, in the NILI field, the average NILI value of the scanning channel can be coded according to Table 1. [ Since 4 bits are allocated to the NILI field, 4-bit padding bits can be added for byte alignment.

7 is a diagram illustrating a configuration of a pre-allocated resource information element field 700 according to an embodiment of the present invention.

The pre-allocated resource information element field 700 may include identification information 710, length information 720, and DRP availability bitmap 730.

The identification information 710 indicates that information included in the information element field is resource information pre-allocated to the scanning channel. The resource availability information bitmap 730 indicates the usability of the time slots (Medium Access Slots, MASs) constituting the scanning channel in bit units. The length information 720 indicates the length of the resource usable information bitmap 730.

Since the superframe is composed of 256 MASs, the resource availability information bitmap 730 can be displayed as a bitmap with a maximum length of 256 bits.

When the superframe structure does not exist in the scanning channel, that is, when the discovery apparatus does not receive the beacon message from the peripheral apparatus, the value of the pre-allocated resource information element field 700 may be set differently.

In the case where there is no superframe structure in the scanning channel, since the MAS is not allocated to the scanning channel, the resource availability information bitmap 730 has no value. The length information 720 may be set to zero. The pre-allocated resource information element field 700 may include only the identification information 710 and the length information 720 in which 0 is set.

FIG. 8 is a diagram illustrating a configuration of a channel selection command frame according to an embodiment of the present invention when there are four scanning channels.

8, a channel selection command frame 800 includes a channel selection control field 810, pre-allocated resource information element fields 820, and channel measurement information element fields 830.

The channel selection control field 810 may display information on a channel to be scanned through the bits allocated to the channel bitmap field. The channel corresponding to the part (811, 813, 815, 817) allocated to 1 in the channel bitmap field is the channel to be scanned. In FIG. 8, the first channel, the second channel, the third channel, and the fourth channel among the ten channels may be scanned. Of course, the relation between the value assigned to the channel bitmap field and the corresponding channel can be changed according to the setting of the user.

The pre-allocated resource information element fields 820 may include pre-allocated resource information element fields 821, 823, 825, and 827 of each of the channels to be scanned. The pre-allocated resource information element fields 821, 823, 825, and 827 may be arranged according to the order of the channels indicated as the targets of the scans in the channel bitmap. Accordingly, the pre-allocated resource information element field 821 indicates pre-allocated resource information of the first channel, the pre-allocated resource information element field 823 indicates pre-allocated resource information of the second channel, The resource information element field 825 indicates pre-allocated resource information of the third channel, and the pre-allocated resource information element field 827 indicates pre-allocated resource information of the fourth channel. At this time, the pre-allocated resource information element fields 821, 823, 825, and 827 may have the configuration described in FIG.

Channel measurement information element fields 830 may include channel measurement information element fields 831, 833, 835, and 837 of each of the channels to be scanned subsequent to the pre-allocated resource information element fields 820. In addition, the channel measurement information element fields 831, 833, 835, and 837 may be arranged according to the order of channels indicated as targets of the scans in the channel bitmap. Therefore, the channel measurement information element field 831 indicates the channel measurement information of the first channel, the channel measurement information element field 833 indicates channel measurement information of the second channel, and the channel measurement information element field 835 indicates And channel measurement information element field 837 represents channel measurement information of the fourth channel. At this time, the channel measurement information element fields 830 may have the configuration described in FIG.

9 is a diagram illustrating a configuration of a channel measurement information element field and a pre-allocated resource information element field according to an embodiment of the present invention when a super frame structure is not supported by some of the scanning channels.

Referring to FIG. 9, if there is no superframe structure in the third channel, the configuration of the pre-allocated resource information element field 825 and the channel measurement information element field 835 for the third channel can be known .

If the superframe structure does not exist in the third channel, the pre-allocated resource information element field 825 may include an identification information field 911 and a length information field 913. The length information field 913 indicates the length of a resource availability bitmap (DRP Availability Bitmap). However, in the absence of a superframe structure, there is no available resource, so a DRP Availability Bitmap can not be defined. At this time, 0 can be set in the length information field 913.

If no superframe structure exists in the third channel, the channel measurement information element field 835 includes an identification information field 921, a length information field 923, a beam identifier (Beam Identifier) field 925, A Zone bitmap field 929, a MAS bitmap field 931, a NILI field 933 of the third channel, and a padding field 935. [

The length information field 923 includes a beam identifier field 925, a measurement report number field 927, a zone bitmap field 929, a MAS bitmap field 931, an average NILI field of the third channel (933) and padding field (935).

1 " may be set in the number field 927 of the measurement report. If there is a superframe structure in the channel, the measurement report includes measurement information for any MAS, but if there is no superframe structure in the channel, there is no superframe structure in the channel through one measurement report Can be displayed. Therefore, a number 1 indicating a single measurement report may be set in the number field 927 of the measurement report.

Since the MAS is not allocated to the channel, the Zone bitmap field 929 and the MAS bitmap field 931 can not be defined, and instead, 0x0000 can be set.

In the NILI field 933, the average level of the noise and interference signal intensity measured during the entire scanning period in the third channel can be set. At this time, the average level of the strength of the noise and the interference signal can be coded into a value mapped in the coding table.

A 4-bit padding bit may be added to the padding field 935 for byte alignment along with the NILI field 933. This is because 4 bits are allocated to the NILI field 933.

10 is a block diagram illustrating a configuration of a communication apparatus for selecting a communication channel in a broadband wireless communication system according to an embodiment of the present invention.

10, a communication apparatus for selecting a communication channel in a broadband wireless communication system includes a control unit 1010, a scan request unit 1012, a message reception unit 1014, a channel selection unit 1016, a channel change request unit 1018 ), A communication unit 1020, and an antenna setting unit 1030.

The communication unit 1020 transmits and receives data wirelessly to the peripheral device and the discovery device. When receiving a signal, the communication unit 1020 performs despreading and channel decoding of a received signal by down-converting the radio frequency signal received through the directional antenna, In this case, data can be channel-coded and spread, frequency-increased, and transmitted through a directional antenna.

The antenna setting unit 1030 aligns the directional antennas to ensure optimal communication quality through the discovery device and the antenna training process.

The scan request unit 1012 requests a scan of channels that are allowed to communicate between the communication device and the discovery device.

The message receiving unit 1014 receives the channel scan response message including the channel measurement IE for each communication channel and the pre-allocated resource information.

The channel selection unit 1016 selects a communication channel based on the channel measurement information and the pre-allocated resource information.

The channel change requesting unit 1018 transmits information on the selected communication channel to the discovery device and requests a channel change to the selected communication channel.

The control unit 1010 controls the overall operation of the communication apparatus and performs functions of the scan request unit 1012, the message reception unit 1014, the channel selection unit 1016, the channel change request unit 1018, and the antenna setting unit 1030 Can be performed. In the embodiment of the present invention, these are separately configured and described for distinguishing the respective functions. Therefore, when a product is actually implemented, all of them may be processed by the control unit 1010, or only some of them may be processed by the control unit 1010. [

11 is a block diagram illustrating a configuration of a discovery apparatus for selecting a communication channel in a broadband wireless communication system according to an embodiment of the present invention.

11, a discovery apparatus for selecting a communication channel in a broadband wireless communication system includes a control unit 1110, a determination unit 1112, a resource information acquisition unit 1114, a resource information measurement unit 1116, a message transmission unit 1118, a channel change determination unit 1119, a communication unit 1120, and an antenna setting unit 1130.

The communication unit 1120 wirelessly transmits and receives data to and from the peripheral device and the communication device. The communication unit 1120 performs despreading and channel decoding of a received signal by lowering a frequency of a radio frequency signal received through the directional antenna when receiving a signal, In this case, data can be channel-coded and spread, frequency-increased, and transmitted through a directional antenna.

The antenna setting unit 1030 aligns the directional antennas to ensure optimal communication quality through the communication device and the antenna training process.

The determination unit 1112 can determine the presence or absence of the superframe structure of the scanning channel. The determination unit 1112 can determine the presence or absence of the superframe structure of the scanning channel based on whether or not the beacon message is received from the peripheral devices as a result of scanning the channel.

The resource information acquisition unit 1114 can acquire resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel.

The resource information measurement unit 1116 can measure the intensity of the noise and interference signals corresponding to the resources of the scanning channel.

The message transmission unit 1118 can transmit a channel scan response message including channel measurement IE and pre-allocated resource information. At this time, the channel measurement information may include information on the super frame structure and the intensity of the measured noise and interference signal for each of the scanned communication channels.

The channel change determining unit 1119 can determine whether to change the channel in response to the channel change request to the selected communication channel based on the channel scan response message. The channel change determining unit 1119 may reject the channel change because the resource is insufficient for performing communication in the communication channel selected by the communication apparatus. In addition, the channel change determining unit 1119 may reject the channel change because the determination is inconsistent with the contents included in the channel scan response message. In addition, the channel change determining unit 1119 may reject the channel change because the communication channel selected by the communication device is a channel not supported by the discovery apparatus.

The control unit 1110 controls the overall operation of the discovery apparatus and includes a determination unit 1112, a resource information acquisition unit 1114, a resource information measurement unit 1116, a message transmission unit 1118, a channel change determination unit 1119, And can perform the function of the antenna setting unit 1130. In the embodiment of the present invention, these are separately configured and described for distinguishing the respective functions. Therefore, when realizing a product, all of them may be processed by the control unit 1110, or only a part of them may be processed by the control unit 1110. [

The methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

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.

Claims (28)

Requesting scanning of channels between a communication device and a discovery device;
Receiving a channel scan response message including pre-allocated resource information for each of the scanned communication channels; And
Selecting a channel based on the pre-allocated resource information
/ RTI >
The selecting of the channel may include obtaining information on available resources based on the pre-allocated resource information, selecting a channel having the largest number of MASs whose influence of noise and interference is less than a criterion among channels,
The channel scan response message includes channel measurement information,
The channel measurement information includes information on the superframe structure of the scanning channel and the intensity of the noise and interference signal corresponding to the resources of the scanning channel
And selecting a communication channel in a communication device of the broadband wireless communication system.
delete The method according to claim 1,
The step of requesting the scanning of the channels
Transmitting channel information to be scanned using a channel bitmap field
And selecting a communication channel in a communication device of the broadband wireless communication system. delete The method according to claim 1,
The pre-allocated resource information
Time zone, frequency, code, or a combination thereof. The method according to claim 1,
The pre-allocated resource information
The use of a time slot (Medium Access Slot, MAS)
And selecting a communication channel in a communication device of the broadband wireless communication system. The method according to claim 1,
Requesting resources from the discovery apparatus based on the channel measurement information of the selected channel and the pre-allocated resource information, and allocating resources from the discovery apparatus
Wherein the communication channel is selected from the group consisting of: The method according to claim 1,
The step of requesting the scanning of the channels
Requesting to scan the channels using a channel selection command frame,
The channel selection command frame includes a channel selection control field,
The channel selection control field includes a command ID field indicating that the use of the channel selection command frame is a channel scan request, a reason code field, and a channel bitmap field indicating a channel to be scanned. Included
A method for selecting a communication channel in a communication device of a broadband wireless communication system. The method according to claim 1,
The step of receiving the channel scan response message
Receiving the channel scan response message using a channel selection command frame,
The channel selection command frame includes a channel selection control field and an information element field,
Wherein the channel selection control field includes a channel bitmap field indicating a channel scanned by the discovery apparatus, the information element fields including a pre-allocated resource information element field and a channel measurement information element field corresponding to the scanned channel Included
A method for selecting a communication channel in a communication device of a broadband wireless communication system. 10. The method of claim 9,
The pre-allocated resource information element field
(DRP Availability) indicating availability of MASs constituting the scanned channel and length information indicating the length of the resource availability information
And selecting a communication channel in a communication device of the broadband wireless communication system. 10. The method of claim 9,
The channel measurement information element field
A beam identifier for identifying the directional beam used for the scanning, and a measurement including the measurement results of the resources of the scanned channel. The measurement information includes at least one of identification information indicating the channel measurement information, length information indicating a length of the channel measurement information, The number of measurement reports and measurement reports
And selecting a communication channel in a communication device of the broadband wireless communication system. Requesting scanning of channels between a communication device and a discovery device;
Receiving a channel scan response message including pre-allocated resource information for each of the scanned communication channels; And
Selecting a channel based on the pre-allocated resource information
/ RTI >
Wherein the receiving the channel scan response message comprises:
Wherein the channel selection command frame includes a channel selection control field and an information element field and the channel selection control field includes a channel selection control field and a channel selection control field, And a channel bitmap field indicating a channel scanned by the discovery apparatus, the information element fields including a pre-allocated resource information element field and a channel measurement information element field corresponding to the scanned channel,
Wherein the channel measurement information element field comprises:
A beam identifier for identifying the directional beam used for the scanning, and a measurement including the measurement results of the resources of the scanned channel. The measurement information includes at least one of identification information indicating the channel measurement information, length information indicating a length of the channel measurement information, The number of measurement reports and the number of measurement reports,
The measurement report
A zone bitmap identifying zones containing a predetermined number of time slots (MASs) and a MAS bitmap identifying time slots included in the zone
And selecting a communication channel in a communication device of the broadband wireless communication system. 13. The method of claim 12,
The measurement results
A noise plus interference level indicator (NILI) indicating the strength of a noise and an interference signal measured for each time slot included in the zone
A method for selecting a communication channel in a communication device of a broadband wireless communication system. 14. The method of claim 13,
The indicator of the strength of the noise and interference signal
Is determined as a value coded in the strength of the measured noise and interference signal based on a predetermined coding table
A method for selecting a communication channel in a communication device of a broadband wireless communication system. 11. The method of claim 10,
If there is no superframe structure in the scanned channel,
The length information indicating the length of the resource availability information is set to 0
A method for selecting a communication channel in a communication device of a broadband wireless communication system. 14. The method of claim 13,
If there is no superframe structure in the scanned channel,
1 " is set to the number information of the measurement report, 0 is set to the zone bitmap and the MAS bitmap, and the measurement results include noise and interference which are coded on the average noise of the scanned channel and the intensity of the interference signal An indicator of the strength of the signal is set
A method for selecting a communication channel in a communication device of a broadband wireless communication system. delete Acquiring resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel;
Measuring a strength of a noise and an interference signal corresponding to the resources of the scanning channel; And
And transmits a channel scan response message including the channel measurement IE including the information on the strength of the measured noise and interference signal and the pre-allocated resource information for each scanned communication channel step
/ RTI >
A noise plus interference level indicator (NILI) indicating the strength of the measured noise and interference signal,
The indicator measures each of the MASs constituting the scanning channel,
The indicator is determined by a value coded to the measured noise and the strength of the interfering signal based on a predetermined coding table
And selecting a communication channel in a discovery apparatus of the broadband wireless communication system. 19. The method of claim 18,
Determining whether a super frame structure exists in the scanning channel based on whether the beacon message is received from the peripheral devices in the scanning channel
Wherein the communication channel is selected from the group of communication channels. 19. The method of claim 18,
Receiving a channel scan request message from the communication device requesting to scan the channels allowed to communicate between the communication device and the discovery device
Wherein the communication channel is selected from the group of communication channels. 19. The method of claim 18,
Requesting a resource for a communication channel selected from the communication device and allocating the resource to the communication device
Wherein the communication channel is selected from the group of communication channels. 19. The method of claim 18,
The step of transmitting the channel scan response message
Transmits the channel scan response message using a channel selection command frame,
The channel selection command frame includes a channel selection control field and an information element field,
Wherein the channel selection control field includes a channel bitmap field indicating a scanned channel, the information element fields including a pre-allocated resource information element field and a channel measurement information element field for each of the scanned channels
A method for selecting a communication channel in a discovery device in a broadband wireless communication system. 23. The method of claim 22,
The pre-allocated resource information element field
(DRP Availability) indicating the availability of MASs constituting the scanned channel and length information indicating the length of the resource availability information
A method for selecting a communication channel in a discovery device in a broadband wireless communication system. 23. The method of claim 22,
The channel measurement information element field
A measurement identifier (Beam Identifier) for identifying the directional beam used for the scanning, and a measurement report including the measurement results of the resources of the scanned channel, the measurement information including the identification information indicating the channel measurement information, the length information indicating the length of the channel measurement information, (Measurement Report) and the number of measurement reports
A method for selecting a communication channel in a discovery device in a broadband wireless communication system. Acquiring resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel;
Measuring a strength of a noise and an interference signal corresponding to the resources of the scanning channel; And
And transmits a channel scan response message including the channel measurement IE including the information on the strength of the measured noise and interference signal and the pre-allocated resource information for each scanned communication channel step
/ RTI >
Wherein the transmitting the channel scan response message comprises:
And transmits the channel scan response message using a channel selection command frame, the channel selection command frame including a channel selection control field and an information element field, And a channel bitmap field indicating a channel, wherein the information element fields include a resource information element field and a channel measurement information element field pre-allocated for each of the scanned channels,
Wherein the pre-allocated resource information element field comprises:
(DRP Availability) indicating the availability of MASs constituting the scanned channel, and length information indicating the length of the resource availability information,
If there is no superframe structure in the scanned channel,
The length information indicating the length of the resource available information is set to 0
A method for selecting a communication channel in a discovery device in a broadband wireless communication system. Acquiring resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel;
Measuring a strength of a noise and an interference signal corresponding to the resources of the scanning channel; And
And transmits a channel scan response message including the channel measurement IE including the information on the strength of the measured noise and interference signal and the pre-allocated resource information for each scanned communication channel step
/ RTI >
Wherein the transmitting the channel scan response message comprises:
And transmits the channel scan response message using a channel selection command frame, the channel selection command frame including a channel selection control field and an information element field, And a channel bitmap field indicating a channel, wherein the information element fields include a resource information element field and a channel measurement information element field pre-allocated for each of the scanned channels,
Wherein the channel measurement information element field comprises:
A measurement identifier (Beam Identifier) for identifying the directional beam used for the scanning, and a measurement report including the measurement results of the resources of the scanned channel, the measurement information including the identification information indicating the channel measurement information, the length information indicating the length of the channel measurement information, (Measurement Report) and the number of measurement reports,
If there is no superframe structure in the scanned channel,
Wherein the number information of the measurement report is set to 1, a zone bitmap for identifying zones including a predetermined number of time slots (MAS), and a MAS bit for identifying time slots included in the zone (NILI) indicating the strength of the noise and the interference signal coded in the average noise level of the scanned channel and the intensity of the interference signal is set in the map
A method for selecting a communication channel in a discovery device in a broadband wireless communication system. A scan request unit for requesting scanning of channels between the communication device and the discovery device;
A message receiving unit for receiving a channel scan response message including channel measurement IE for each communication channel and resource information allocated thereto;
A channel selection unit for selecting a channel based on the channel measurement information and the pre-allocated resource information; And
A channel change request unit for requesting a channel change to the selected channel by transmitting information on the selected channel to the discovery apparatus,
/ RTI >
Wherein the channel selection unit obtains information on available resources based on the pre-allocated resource information, selects a channel having the largest number of MASs whose influence of noise and interference is below a reference among the channels,
The channel scan response message includes channel measurement information,
The channel measurement information includes information on the superframe structure of the scanning channel and the intensity of the noise and interference signal corresponding to the resources of the scanning channel
And a communication channel selection unit for selecting a communication channel in a communication device of the broadband wireless communication system. A determination unit for determining whether or not a super frame structure of the scanning channel exists;
A resource information acquisition unit for acquiring resource information pre-allocated to the scanning channel through a beacon message received from peripheral devices in the scanning channel;
A resource information measurement unit for measuring a strength of a noise and an interference signal corresponding to the resources of the scanning channel;
A channel measurement IE including the superframe structure and the measured strength of the noise and interference signal for each of the scanned communication channels and a channel scan response message including the pre-allocated resource information are transmitted A message transmission unit; And
A channel change determining unit for determining whether to change a channel in response to a channel change request to a channel determined based on the channel scan response message,
/ RTI >
The message transmission unit may include a noise plus interference level indicator (NILI) indicating the strength of the measured noise and interference signal,
The indicator measures each of the MASs constituting the scanning channel,
The indicator is determined by a value coded to the measured noise and the strength of the interfering signal based on a predetermined coding table
And a communication channel selection unit for selecting a communication channel in a discovery apparatus of the broadband wireless communication system.

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