WO2013169044A1 - 스캐닝 방법 및 장치 - Google Patents
스캐닝 방법 및 장치 Download PDFInfo
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- WO2013169044A1 WO2013169044A1 PCT/KR2013/004103 KR2013004103W WO2013169044A1 WO 2013169044 A1 WO2013169044 A1 WO 2013169044A1 KR 2013004103 W KR2013004103 W KR 2013004103W WO 2013169044 A1 WO2013169044 A1 WO 2013169044A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/16—Discovering, processing access restriction or access information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/08—Access restriction or access information delivery, e.g. discovery data delivery
- H04W48/14—Access restriction or access information delivery, e.g. discovery data delivery using user query or user detection
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/10—Small scale networks; Flat hierarchical networks
- H04W84/12—WLAN [Wireless Local Area Networks]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
Definitions
- the present invention relates to a method and apparatus for scanning a station (station), and more particularly, to a method and apparatus for an STA to perform active scanning or passive scanning.
- IEEE 802.11ac is a wireless LAN technology using a 60GHz band.
- IEEE 802.11af which utilizes a TV white space (TVWS) band.
- IEEE 802.11ah utilizing the 900MHz band. They aim primarily at the expansion of extended grid Wi-Fi services, as well as smart grid and wide area sensor networks.
- the existing WLAN medium access control (MAC) technology has a problem that the initial link setup time is very long in some cases.
- the IEEE 802.11ai standardization activity has been actively performed recently.
- IEEE 802.11ai is a MAC technology that addresses the rapid authentication process to drastically reduce the initial set-up and association time of WLAN. Standardization activities began in January 2011 as a formal task group. It became. In order to enable the fast access procedure, IEEE 802.11ai is based on AP discovery, network discovery, time synchronization function synchronization, Authentication & Association, and higher layer. Discussion of process simplification is underway in areas such as merging procedures with the Among them, procedure merging using piggyback of dynamic host configuration protocol (DHCP), optimization of full EAP (extensible authentication protocol) using concurrent IP, and efficient selective access (AP) point) Ideas such as scanning are actively discussed.
- DHCP dynamic host configuration protocol
- EAP efficient selective access
- Another object of the present invention is to provide an apparatus for performing scanning.
- a scanning method of a station comprising: transmitting a probe request frame including a scanning priority for a plurality of access points (APs) and the scanning; And sequentially monitoring whether a probe response frame, which is a response to the probe request frame, is received from at least one of the plurality of APs based on the priority.
- the probe request frame may include a service set identifier (SSID) list indicating the plurality of APs, and the scanning priority may include a priority for each of the plurality of APs.
- SSID service set identifier
- the wireless device includes a processor, the processor to a plurality of access points (AP) Transmit a probe request frame including a scanning priority for the probe and monitor whether a probe response frame, which is a response to the probe request frame, is received from at least one of the plurality of APs sequentially based on the scanning priority.
- AP access points
- the probe request frame may include a service set identifier (SSID) list indicating the plurality of APs
- the scanning priority may include a priority for each of the plurality of APs.
- the scanning procedure can be performed quickly.
- WLAN wireless local area network
- FIG. 2 is a diagram illustrating a layer architecture of a WLAN system supported by IEEE 802.11.
- FIG. 3 is a conceptual diagram illustrating a scanning method in a WLAN.
- FIG. 4 is a conceptual diagram illustrating an authentication and combining process after scanning of an AP and an STA.
- 5 is a conceptual diagram for an active scanning procedure.
- FIG. 6 is a conceptual diagram illustrating a method for transmitting a probe request frame.
- FIG. 7 is a conceptual diagram illustrating an active scanning method according to an embodiment of the present invention.
- FIG. 8 is a conceptual diagram illustrating a probe response frame transmission method of a lower priority AP than a first priority AP according to an embodiment of the present invention.
- FIG. 9 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- FIG. 10 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- FIG. 11 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- FIG. 12 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- FIG. 13 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- FIG. 14 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- 15 is a block diagram illustrating a wireless device to which an embodiment of the present invention can be applied.
- WLAN wireless local area network
- FIG. 1A shows the structure of an infrastructure network of the Institute of Electrical and Electronic Engineers (IEEE) 802.11.
- IEEE Institute of Electrical and Electronic Engineers
- the WLAN system may include one or more basic service sets (BSSs) 100 and 105.
- the BSSs 100 and 105 are a set of APs and STAs such as an access point 125 and a STA1 (station 100-1) capable of successfully synchronizing and communicating with each other, and do not indicate a specific area.
- the BSS 105 may include one or more joinable STAs 105-1 and 105-2 to one AP 130.
- the infrastructure BSS may include at least one STA, APs 125 and 130 that provide a distribution service, and a distribution system DS that connects a plurality of APs.
- the distributed system 110 may connect several BSSs 100 and 105 to implement an extended service set (ESS) 140 which is an extended service set.
- ESS 140 may be used as a term indicating one network in which one or several APs 125 and 230 are connected through the distributed system 110.
- APs included in one ESS 140 may have the same service set identification (SSID).
- the portal 120 may serve as a bridge for connecting the WLAN network (IEEE 802.11) with another network (for example, 802.X).
- a network between the APs 125 and 130 and a network between the APs 125 and 130 and the STAs 100-1, 105-1, and 105-2 may be implemented. have. However, it may be possible to perform communication by setting up a network even between STAs without the APs 125 and 130.
- a network that performs communication by establishing a network even between STAs without APs 125 and 130 is defined as an ad-hoc network or an independent basic service set (BSS).
- 1B is a conceptual diagram illustrating an independent BSS.
- an independent BSS is a BSS operating in an ad-hoc mode. Since IBSS does not contain an AP, there is no centralized management entity. That is, in the IBSS, the STAs 150-1, 150-2, 150-3, 155-1, and 155-2 are managed in a distributed manner. In the IBSS, all STAs 150-1, 150-2, 150-3, 155-1, and 155-2 may be mobile STAs, and access to a distributed system is not allowed, thus allowing a self-contained network. network).
- a STA is any functional medium that includes a medium access control (MAC) and physical layer interface to a wireless medium that conforms to the Institute of Electrical and Electronics Engineers (IEEE) 802.11 standard. May be used to mean both an AP and a non-AP STA (Non-AP Station).
- MAC medium access control
- IEEE Institute of Electrical and Electronics Engineers
- the STA may include a mobile terminal, a wireless device, a wireless transmit / receive unit (WTRU), a user equipment (UE), a mobile station (MS), a mobile subscriber unit ( It may also be called various names such as a mobile subscriber unit or simply a user.
- WTRU wireless transmit / receive unit
- UE user equipment
- MS mobile station
- UE mobile subscriber unit
- It may also be called various names such as a mobile subscriber unit or simply a user.
- FIG. 2 is a diagram illustrating a layer architecture of a WLAN system supported by IEEE 802.11.
- FIG. 2 conceptually illustrates a PHY architecture of a WLAN system.
- the hierarchical architecture of the WLAN system may include a medium access control (MAC) sublayer 220, a physical layer convergence procedure (PLCP) sublayer 210, and a physical medium dependent (PMD) sublayer 200.
- MAC medium access control
- PLCP physical layer convergence procedure
- PMD physical medium dependent
- the PLCP sublayer 210 is implemented such that the MAC sublayer 220 can operate with a minimum dependency on the PMD sublayer 200.
- the PMD sublayer 200 may serve as a transmission interface for transmitting and receiving data between a plurality of STAs.
- the MAC sublayer 220, the PLCP sublayer 210, and the PMD sublayer 200 may conceptually include a management entity.
- the management unit of the MAC sublayer 220 is referred to as a MAC Layer Management Entity (MLME) 225, and the management unit of the physical layer is referred to as a PHY Layer Management Entity (PLME).
- MLME MAC Layer Management Entity
- PLME PHY Layer Management Entity
- Such management units may provide an interface on which layer management operations are performed.
- the PLME 215 may be connected to the MLME 225 to perform management operations of the PLCP sublayer 210 and the PMD sublayer 200, and the MLME 225 may also be connected to the PLME 215 and connected to the MAC.
- a management operation of the sublayer 220 may be performed.
- SME 250 may operate as a component independent of the layer.
- the MLME, PLME, and SME may transmit and receive information between mutual components based on primitives.
- the PLCP sublayer 110 may convert the MAC Protocol Data Unit (MPDU) received from the MAC sublayer 220 according to the indication of the MAC layer between the MAC sublayer 220 and the PMD sublayer 200. Or a frame coming from the PMD sublayer 200 to the MAC sublayer 220.
- the PMD sublayer 200 may be a PLCP lower layer to perform data transmission and reception between a plurality of STAs over a wireless medium.
- the MAC protocol data unit (MPDU) delivered by the MAC sublayer 220 is called a physical service data unit (PSDU) in the PLCP sublayer 210.
- the MPDU is similar to the PSDU. However, when an A-MPDU (aggregated MPDU) that aggregates a plurality of MPDUs is delivered, the individual MPDUs and the PSDUs may be different from each other.
- the PLCP sublayer 210 adds an additional field including information required by the physical layer transceiver in the process of receiving the PSDU from the MAC sublayer 220 to the PMD sublayer 200.
- the added field may be a PLCP preamble, a PLCP header, and tail bits required to return the convolutional encoder to a zero state in the PSDU.
- the PLCP preamble may serve to prepare the receiver for synchronization and antenna diversity before the PSDU is transmitted.
- the data field may include a coded sequence encoded with a padding bits, a service field including a bit sequence for initializing a scraper, and a bit sequence appended with tail bits in the PSDU.
- the encoding scheme may be selected from either binary convolutional coding (BCC) encoding or low density parity check (LDPC) encoding according to the encoding scheme supported by the STA receiving the PPDU.
- BCC binary convolutional coding
- LDPC low density parity check
- the PLCP header may include a field including information on a PLC Protocol Data Unit (PPDU) to be transmitted.
- the PLCP sublayer 210 adds the above-described fields to the PSDU, generates a PPDU (PLCP Protocol Data Unit), and transmits it to the receiving station via the PMD sublayer 200, and the receiving station receives the PPDU to receive the PLCP preamble and PLCP. Obtain and restore information necessary for data restoration from the header.
- PPDU PLCP Protocol Data Unit
- FIG. 3 is a conceptual diagram illustrating a scanning method in a WLAN.
- a scanning method may be classified into passive scanning 300 and active scanning 350.
- the passive scanning 300 may be performed by the beacon frame 330 broadcast by the AP 300 periodically.
- the AP 300 of the WLAN broadcasts the beacon frame 330 to the non-AP STA 340 every specific period (for example, 100 msec).
- the beacon frame 330 may include information about the current network.
- the non-AP STA 340 receives the beacon frame 330 that is periodically broadcast to receive the network information to perform scanning for the AP 310 and the channel to perform the authentication / association (authentication / association) process Can be.
- the passive scanning method 300 only needs to receive the beacon frame 330 transmitted from the AP 310 without the need for the non-AP STA 340 to transmit the frame.
- passive scanning 300 has the advantage that the overall overhead incurred by data transmission / reception in the network is small.
- scanning can be performed manually in proportion to the period of the beacon frame 330, the time taken to perform scanning increases.
- beacon frame For a detailed description of the beacon frame, see IEEE Draft P802.11-REVmb TM / D12, November 2011 'IEEE Standard for Information Technology Telecommunications and information exchange between systems—Local and metropolitan area networks—Specific requirements Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications (hereinafter referred to as IEEE 802.11) 'are described in 8.3.3.2 beacon frame.
- IEEE 802.11 ai may additionally use other formats of beacon frames, and these beacon frames may be referred to as fast initial link setup (FILS) beacon frames.
- a measurement pilot frame may be used in a scanning procedure as a frame including only some information of a beacon frame. Measurement pilot frames are disclosed in the IEEE 802.11 8.5.8.3 measurement pilot format.
- the active scanning 350 refers to a method in which a non-AP STA 390 transmits a probe request frame 370 to the AP 360 to proactively perform scanning.
- the AP 360 After receiving the probe request frame 370 from the non-AP STA 390, the AP 360 waits for a random time to prevent frame collision, and then includes network information in the probe response frame 380. may transmit to the non-AP STA 390. The non-AP STA 390 may obtain network information based on the received probe response frame 380 and stop the scanning process.
- the probe request frame 370 is disclosed in IEEE 802.11 8.3.3.9 and the probe response frame 380 is disclosed in IEEE 802.11 8.3.3.10.
- the AP and the STA may perform an authentication and association process.
- FIG. 4 is a conceptual diagram illustrating an authentication and combining process after scanning of an AP and an STA.
- the authentication and association process may be performed through, for example, two-way handshaking.
- 4A is a conceptual diagram illustrating an authentication and combining process after passive scanning
- FIG. 4B is a conceptual diagram illustrating an authentication and combining process after active scanning.
- the authentication and association process is based on an authentication request frame (410) / authentication response frame (420) and an association request frame (330), regardless of whether an active scanning method or passive scanning is used. The same may be performed by exchanging an association response frame 440 between the APs 400 and 450 and the non-AP STAs 405 and 455.
- the authentication process may be performed by transmitting the authentication request frame 410 to the APs 400 and 450 in the non-AP STAs 405 and 455.
- the authentication response frame 420 may be transmitted from the AP 400, 450 to the non-AP STAs 405, 455.
- Authentication frame format is disclosed in IEEE 802.11 8.3.3.11.
- the association process may be performed by transmitting an association request frame 430 to the APs 400 and 405 in the non-AP STAs 405 and 455.
- the association response frame 440 may be transmitted from the AP 405 and 455 to the non-AP STAs 400 and 450.
- the transmitted association request frame 430 includes information on the capabilities of the non-AP STAs 405 and 455. Based on the performance information of the non-AP STAs 405 and 455, the APs 400 and 350 may determine whether support is possible for the non-AP STAs 405 and 355.
- the AP 300 or 450 may include the non-AP STA 405 in the association response frame 440 by including whether the association request frame 440 is accepted and the reason thereof, and capability information that can be supported. , 455).
- Association frame format is disclosed in IEEE 802.11 8.3.3.5/8.3.3.6.
- the association may be performed again or the association may be performed to another AP based on the reason why the association is not performed.
- 5 is a conceptual diagram for an active scanning procedure.
- the active scanning procedure may be performed by the following steps.
- the STA 500 determines whether it is ready to perform a scanning procedure.
- the STA 500 may perform active scanning by waiting until the probe delay time expires or when specific signaling information (eg, PHY-RXSTART.indication primitive) is received. have.
- specific signaling information eg, PHY-RXSTART.indication primitive
- the probe delay time is a delay that occurs before the STA 500 transmits the probe request frame 510 when performing the active scanning.
- PHY-RXSTART.indication primitive is a signal transmitted from a physical (PHY) layer to a local medium access control (MAC) layer.
- the PHY-RXSTART.indication primitive may signal to the MAC layer that it has received a PLC protocol data unit (PPDU) including a valid PLCP header in a physical layer convergence protocol (PLCP).
- PPDU PLC protocol data unit
- PLCP physical layer convergence protocol
- DCF distributed coordination function
- CSMA / CA carrier sense multiple access / collision avoidance
- the probe request frame 510 includes information for specifying the APs 560 and 570 included in the MLME-SCAN.request primitive (eg, service set identification (SSID) and basic service set identification (BSSID) information). ) Can be sent.
- SSID service set identification
- BSSID basic service set identification
- the BSSID is an indicator for specifying the AP and may have a value corresponding to the MAC address of the AP.
- Service set identification (SSID) is a network name for specifying an AP that can be read by a person who operates an STA. The BSSID and / or SSID may be used to specify the AP.
- the STA 500 may specify an AP based on information for specifying the APs 560 and 570 included by the MLME-SCAN.request primitive.
- the specified APs 560 and 570 may transmit probe response frames 550 and 550 to the STA 500.
- the STA 500 may unicast, multicast, or broadcast the probe request frame 510 by transmitting the SSID and the BSSID information in the probe request frame 510. A method of unicasting, multicasting or broadcasting the probe request frame 510 using the SSID and the BSSID information will be further described with reference to FIG. 5.
- the STA 500 may include the SSID list in the probe request frame 510 and transmit the SSID list.
- the AP 560, 570 receives the probe request frame 510 and determines the SSID included in the SSID list included in the received probe request frame 510 and transmits the probe response frames 550, 550 to the STA 200. You can decide whether to send.
- the probe timer may be used to check the minimum channel time (MinChanneltime, 520) and the maximum channel time (MaxChanneltime, 530).
- the minimum channel time 520 and the maximum channel time 530 may be used to control the active scanning operation of the STA 500.
- the minimum channel time 520 may be used to perform an operation for changing the channel on which the STA 500 performs active scanning. For example, when the STA 500 does not receive the probe response frames 550 and 550 until the minimum channel time 520, the STA 500 may shift the scanning channel to perform scanning on another channel. When the STA 500 receives the probe response frame 550 until the minimum channel time 520, the STA 500 may process the received probe response frames 550 and 550 by waiting for the maximum channel time 530.
- the STA 500 detects the PHY-CCA.indication primitive until the probe timer reaches the minimum channel time 520 so that other frames (eg, the probe response frames 550 and 550) are detected until the minimum channel time 520. Whether it is received by the STA 500 may be determined.
- PHY-CCA.indication primitive may transmit information about the state of the medium from the physical layer to the MAC layer. PHY-CCA.indication primitive can inform the status of the current channel by using channel status parameters such as busy if channel is not available and idle if channel is available. If the PHY-CCA.indication is detected as busy, the STA 500 determines that probe response frames 550 and 550 received by the STA 500 exist and the PHY-CCA.indication is idle. If it is detected that the probe response frame (550, 550) received by the STA 500 may be determined that no.
- the STA 500 may set the net allocation vector (NAV) to 0 and scan the next channel.
- the STA 500 may perform processing on received probe response frames 550 and 550 after the probe timer reaches the maximum channel time 530. have. After processing the received probe response frames 550 and 550, the net allocation vector (NAV) is set to 0 and the STA 500 may scan the next channel.
- determining whether the probe response frames 550 and 550 received by the STA 500 exist may include determining the channel state using the PHY-CCA.indication primitive. have.
- the MLME may signal MLME-SCAN.confirm primitive.
- the MLME-SCAN.confirm primitive may include a BSSDescriptionSet including all information obtained in the scanning process.
- the STA 500 uses the active scanning method, it is necessary to perform monitoring to determine whether the parameter of the PHY-CCA.indication is busy until the probe timer reaches the minimum channel time.
- MLME-SCAN.request primitive is a primitive generated by SME.
- the MLME-SCAN.request primitive may be used to determine whether there is another BSS to which the STA is bound.
- the MLME-SCAN.request primitive may specifically include information such as BSSType, BSSID, SSID, ScanType, ProbeDelay, ChannelList, MinChannelTime, MaxChannelTime, RequestInformation, SSID List, ChannelUsage, AccessNetworkType, HESSID, MeshID, VendorSpecificInfo.
- BSSType BSSID
- ScanType ProbeDelay
- ChannelList MinChannelTime
- MaxChannelTime MaxChannelTime
- RequestInformation SSID List
- ChannelUsage AccessNetworkType
- HESSID HESSID
- MeshID MeshID
- VendorSpecificInfo VendorSpecificInfo
- Table 1 below briefly illustrates information included in the MLME-SCAN.request primitive.
- a request parameter included in MLME-SCAN.request.primitive may be used to determine whether the responding STA transmits a probe response frame.
- the request parameter may include information for requesting that information of another BSS is included in the probe response frame.
- the request parameter may include a report request field, a delay reference field, and a maximum delay limit field.
- the report request field is information for requesting information of another BSS to be included in the probe response frame.
- the delay reference field includes information about a delay type applied in response to the probe request frame, and the maximum delay limit field is a delay reference field. It may include maximum connection delay information for the delay type, indicated by.
- the request parameter may include a minimum data rate field and / or a received signal strength limit field.
- the minimum data rate field contains information on the lowest overall data rate in transmitting an MSDU or A-MSDU.
- the received signal strength limit field may further include information about a limit value of a signal required for the receiver of the probe request frame to respond.
- FIG. 6 is a conceptual diagram illustrating a method for transmitting a probe request frame.
- FIG. 6 illustrates a method in which an STA broadcasts, multicasts, and unicasts a probe request frame.
- FIG. 6A illustrates a method in which the STA 600 broadcasts a probe request frame 610.
- the STA 600 may broadcast the probe request frame 610 by including a wildcard SSID and a wildcard BSSID in the probe request frame 610.
- the wild card SSID and wild card BSSID may be used as an identifier for indicating all of the APs 606-1, 606-2, 606-3, 606-4, and 606-6 included in the transmission range of the STA 600. .
- the probe response frame in response to the probe request frame 610 received by the APs 606-1, 606-2, 606-3, 606-4, and 606-6 receiving the broadcast probe request frame 610. If the STA is transmitted to the STA 600 within a predetermined time, the STA 600 may have a problem of receiving and processing too many probe response frames at a time.
- FIG. 6B illustrates a method in which the STA 620 unicasts the probe request frame 630.
- the STA 620 when the STA 620 unicasts the probe request frame 630, the STA 620 includes a probe request frame 630 including specific SSID / BSSID information of the AP. Can be transmitted. Among the APs receiving the probe request frame 630, only the AP 626 corresponding to the specific SSID / BSSID of the AP 620 may transmit a probe response frame to the STA 620.
- FIG. 6C illustrates a method in which the STA 640 multicasts the probe request frame 660.
- the STA 640 may include the SSID list and the wild card BSSID in the probe request frame 660.
- APs 660-1 and 660-2 corresponding to the SSID included in the SSID list included in the probe request frame among the APs receiving the probe request frame 660 may transmit a probe response frame to the STA 640.
- the STA when the STA unicasts / multicasts the probe request frame, the STA does not receive the probe response frame from the AP corresponding to the SSID specified in the probe request frame transmitted by the STA. Failure may occur. In this case, the STA that does not receive the probe response frame moves the scanning channel to another channel to scan the AP in another channel. The STA, which receives the probe response frame from the AP, may wait until the maximum channel time MaxChannelTime and then process the received probe response frame even when the probe response is received from the desired AP within the minimum channel time MinChannelTime. Therefore, unnecessary delay may occur when the STA performs active scanning.
- the active scanning method discloses a method in which the STA can reduce the unnecessary delay caused by the active scanning and can be quickly combined with the AP. Also, a method for solving a problem in which an STA receives too many probe response frames in a specific time interval in a conventional active scanning method is disclosed.
- the scanning frame used in the embodiment of the present invention indicates a frame used by the STA to use the scanning procedure.
- the scanning frame may include a probe response frame, a beacon frame, a fast initial link setup (FILS) beacon frame, a measurement pilot frame, and the like.
- FILS fast initial link setup
- FIG. 7 is a conceptual diagram illustrating an active scanning method according to an embodiment of the present invention.
- a scanning STA 700 (hereinafter, referred to as STA) that performs scanning may specify at least one AP to transmit a probe response frame and transmit a probe request frame 705.
- the probe request frame 705 transmitted by the STA may include information for specifying an AP to transmit a probe response frame, which is one of the scanning frames 760, in response to the probe request frame 705.
- information for specifying an AP may include a requested SSID, a requested BSSID, a network ID, and link performance information (eg, a received signal strength indication (RSSI) threshold). Value), QoS requirement information, etc. may be included in the probe request frame.
- RSSI received signal strength indication
- information for specifying the AP to which the probe response frame is to be transmitted is expressed using the term AP filtering information.
- the STA 700 may transmit SSID list information in the probe request frame 705.
- the SSID list may be a list including an identifier of an AP to which the probe response frame is to be sent.
- the STA 700 may transmit, to the AP, a probe request frame including information on an AP that the STA 700 preferentially scans among the APs in the SSID list.
- the SSID list including information on the AP that the STA 700 preferentially scans may be referred to as a multiple desired SSID list.
- the STA 700 may sequentially include the SSID of the first AP and the SSID of the second AP.
- the order of the APs included in the plurality of request SSID lists may mean an order in which the plurality of APs preferentially transmit probe response frames to the STA 700.
- the order of the APs included in the plurality of request SSID lists may be information for specifying the priority of transmitting the probe response frame to the STA 700 or the time (channel time) of transmitting the probe response frame of the AP. For example, if the priority is specified as two different priorities, the AP included in the specific priority in the plurality of request SSID lists may be referred to as the first priority AP 710.
- An AP not included in a specific priority in the plurality of request SSID lists may be referred to as a second priority AP 720. This is an example of specifying the priority of the AP in two steps. It may be specified as an AP with two or more different priorities.
- an element identifier (eg, SSID) included in the SSID list may be indexed to specify the priority of the AP based on the index value. For example, the priority of the AP indicated by the index may be determined in order of the size of the index, or up to a specific range of indexes may be set to APs having the same priority. As one example, if five element IDs are included in the SSID list to specify the AP, the five element IDs may be indexed to specify the priority. Two element IDs among the five element IDs may have the same index 0 value, and three element IDs among the five element IDs may be specified to have the same index 1 value.
- the AP may know that the AP corresponds to the first priority AP when the index corresponding to the SSID of the AP is 0 based on the index information of the SSID list. In addition, when the index corresponding to the SSID of the AP is 1, it can be seen that the AP corresponds to the second priority AP.
- the STA may further include, in the probe request frame, information specifying the relationship between the SSID of the AP included in the SSID list and the priority of the AP corresponding to the SSID.
- the priority of the AP may be specified in another manner based on the element ID included in the SSID list.
- the STA may determine the priority based on various criteria in determining the priority of the AP. For example, the priority of an AP set according to time based on a specific life pattern of an STA user may be adaptively changed. For example, when a user of an STA is located at a company at a specific time and at home at a specific time, the priority of the AP provided in the company and the AP provided in the home may be differently set based on the pattern information. Alternatively, the AP may acquire information of the AP provided at the corresponding location based on the location information and determine the priority of the AP. That is, the STA may determine the priority of the AP by various methods and include the same in the probe request frame for transmission.
- the STA specifies the priority of the AP in two steps for convenience of description.
- the first AP located first may access the first priority AP 710 and the second access point AP to the second priority AP 720. Can be set.
- the first priority AP 710 and the second priority AP 720 may set different intervals (or channel times) for transmitting the probe response frame to the STA 700.
- the first priority AP 710 may transmit a probe response frame to the STA 700 within the minimum channel time (MinChannelTime) 750
- the second priority AP 720 may have a minimum channel time 750. After elapsed, the probe response frame may be transmitted to the STA 700.
- the minimum channel time 750 is an example of a criterion for distinguishing a time when two APs having different priorities transmit probe response frames. That is, a time unit other than the minimum channel time 750 may be used as a criterion for distinguishing time for transmitting probe response frames from APs having different priorities.
- the following operations may be performed.
- the first AP may receive the probe request frame 705 transmitted from the STA 700.
- the first AP may demodulate the probe request frame 705 to obtain information about a plurality of request SSID lists included in the probe request frame 705.
- the first AP may obtain information on whether identifier information of the first AP is included and information on transmission priority of the probe response frame of the first AP based on the plurality of request SSID lists. Based on the obtained information, the first AP may determine that the first AP is the first priority AP 710. In this case, the first AP may transmit a probe response frame to the STA 700 at the minimum channel time 750. Information on the minimum channel time 750 may be included in the probe request frame 705 transmitted by the STA 700.
- the first priority AP 710 may transmit another scanning frame instead of the probe response frame when the transmission time of another scanning frame returns from the minimum channel time 750.
- other scanning frames may include beacon frames, fast initial link setup (FILS) beacon frames, measurement pilot frames, and the like. That is, when the STA 700 may perform passive scanning by transmitting another scanning frame, the probe response frame may not be separately transmitted.
- the first priority AP 710 may separately transmit a probe response frame even when the transmission time of another scanning frame returns from the minimum channel time 750.
- the second AP may also transmit a probe response frame based on a plurality of request SSID lists included in the probe request frame 705 transmitted from the STA 700, and timing of transmitting the probe response frame. Information can be obtained.
- the second AP determines that the plurality of request SSID lists include identifier information of the second AP and the second priority AP 720 has the second priority
- the second AP determines the minimum response channel of the probe response frame. After the time 750 has passed, it can transmit to the STA 700.
- the first preferred AP 710 may specify the time for transmitting the probe response frame as the minimum channel time 750, the first preferred AP 710 may also specify the probe response frame after the minimum channel time 750 has elapsed. You can also send. That is, the first priority AP 710 may not only transmit a probe response frame at the minimum channel time 750 but also transmit a probe response frame after the minimum channel time 750.
- the transmission is performed regardless of the transmission time specified according to the priority of the AP.
- FILS fast initial link setup
- the second priority AP 720 may transmit the beacon frame.
- priority may be set to APs included in the plurality of request SSID lists to determine an order of transmitting a probe response frame to the STA.
- first priority AP and the second priority AP are each one, but the AP included in the first priority AP and the second priority AP may be a plurality of APs. Included in the Examples.
- a first AP and a second AP may be configured as a first priority AP in a plurality of request SSID lists, and a plurality of APs such as a third AP and a fourth AP may be configured as a second priority AP.
- the first AP and the second AP which are the first priority APs, may transmit the probe response frame to the STA within the minimum channel time.
- the third and fourth APs which are the second priority APs, may transmit a probe response frame to the STA after the minimum channel time elapses.
- the priority for transmitting the probe response frame in the AP as well as the first priority AP and the second priority AP may be further subdivided like the third priority AP and the fourth priority AP.
- a section for transmitting the probe response frame in four sections may be divided according to the priority.
- a period in which the first priority AP, the second priority AP, the third priority AP, and the fourth priority AP each transmit a probe response frame includes a first minimum channel time, a second minimum channel time, a third minimum channel time, and a fourth minimum. Can be set by dividing by channel time. Each time may be specified as a time at which an AP corresponding to each priority transmits a probe response frame.
- the AP of the specified priority may be prevented from transmitting the probe response frame except for the specified transmission time.
- an AP corresponding to each priority may transmit a probe response frame even after a specified time.
- the first AP may transmit the probe response frame after the first minimum channel time and the second AP after the second minimum channel time.
- Another AP may transmit a probe response frame after the first priority AP such as the second AP may transmit a frame including timing information before transmitting the probe response frame.
- the second AP may transmit a scanning response frame (eg, probe response frame) including the entire information after transmitting the frame including the transmission timing information. That is, according to an embodiment of the present invention, the AP corresponding to the lower priority may transmit a frame including timing information in advance when the higher priority AP transmits the probe response frame.
- FIG. 8 is a conceptual diagram illustrating a probe response frame transmission method of a lower priority AP than a first priority AP according to an embodiment of the present invention.
- an upper priority AP is a first priority AP and a lower priority AP is a second priority AP.
- the second priority AP 820 may transmit the timing information frame 830 before transmitting the scanning frame 840.
- a timing information frame 830 transmitted by the second priority AP 820 indicates a frame including information on timing at which the scanning frame 840 is transmitted.
- the scanning frame 840 may be a probe response frame, a beacon frame, a FILS beacon frame, a measurement pilot frame, or the like.
- the timing information frame 830 may include information about the timing at which the scanning frame 840 is transmitted.
- the STA 800 may obtain information about a time point at which the scanning frame 840 is transmitted, based on the timing information frame 830.
- the time when the second priority AP 820 transmits the timing information frame 830 to the STA 800 may be a specified time or a time when the first priority AP transmits a scanning frame such as the minimum channel time 850. have.
- the second priority AP 820 may transmit the scanning frame 840 after the scanning frame transmission time of the first priority AP elapses.
- the STA 800 may receive the scanning frame 840 from the second priority AP 820 based on the obtained timing information. That is, the STA 800 may monitor and receive the scanning frame 840 from the second priority AP 820 at a specific time point based on the obtained timing information.
- the priority response field included in the probe request frame may allow the AP included in the SSID list to determine whether to transmit the probe response frame or the probe response frame without considering the priority.
- the priority information of the probe response frame transmission of the AP may be determined based on the SSID list, but may be newly defined and included as an additional field in the probe request frame.
- the STA separately sets the information on the time at which the AP having a different priority transmits the probe response frame
- the information on the time may be additionally included in the probe request frame and transmitted.
- the above information may be included in the probe request frame in the form of an independent field, or may be included in another information format.
- Information about the priority of the AP and information about the response time may be included in a primitive such as MLME-SCAN.request primitive.
- the STA may generate a probe request frame including information on the priority of the AP and information on the response time based on the information included in the MLME-SCAN.request primitive. That is, the STA may generate a probe request frame including information on the AP response rank and the response time in the probe request frame based on the information included in the primitive.
- FIG. 9 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- the probe request frame may include at least one of a priority response field 910 and a response time field 920 in the frame body.
- the priority response field 910 may include information on whether an AP receiving the probe request frame transmits a probe response frame based on the priority. For example, when the priority response field 910 is 1 as flag information, the AP transmits a probe response frame based on priority, and when the priority response field 910 is 0 as flag information, the AP is priority. Regardless of whether the probe response frame can be transmitted.
- the priority of the AP may be determined based on the order of the identifier of the AP included in the SSID list. When the transmission of the probe response frame based on the priority between the APs is not an optional operation, the probe request frame may not include the priority response field 910.
- the response time field 920 may include information on a time interval in which an AP transmitting a probe response frame preferentially transmits a probe response frame.
- the first priority AP may include information on the interval in which the probe response frame is transmitted to the STA.
- the response time field 920 may not be separately included in the probe request frame.
- the priority of the AP transmitting the probe response frame may not be determined based on the order of the identifier of the AP included in the SSID list, but may be determined based on additional field information. In this case, the information on the priority may be specified based on the additional field information.
- the priority response field 910 may be a field including information on a time interval during which the first priority AP performs a probe response instead of flag information. For example, when the priority response field 910 does not exist or information specific to the priority response field 910 is 0, this may indicate that the STA receives a probe response frame from the AP without giving priority to the AP. .
- the specific value included in the priority response field 910 may be determined as information about a time interval during which the first priority AP performs a probe response.
- the probe request frame is information on whether the AP transmits the probe response frame based on the priority based on various information formats, priority information of the AP transmitting the probe response frame, and priority. At least one of the information may be included in a time interval for transmitting the probe response frame according to the rank.
- the STA may perform different operations according to whether the STA receives a probe response frame from a specific AP through a plurality of request SSID lists or request SSIDs.
- a target AP an AP indicated through a plurality of request SSID lists or request SSIDs
- a section in which the target AP transmits a probe response frame is expressed in terms of a first minimum channel time. do.
- the STA defines a non-specific AP as a non-target AP through a plurality of request SSID lists or request SSIDs, and defines a period of receiving a probe response frame transmitted from the non-target AP as a term, the second minimum channel time. do.
- the first minimum channel time and the second minimum channel time may be, for example, a time unit obtained by dividing the minimum channel time into two sections.
- FIG. 10 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- the target AP 1010 and the non-target AP 1020 may be classified according to whether they are specified through a plurality of request SSID lists or request SSIDs included in the probe request frame 1005.
- the target AP 1010 and the non-target AP 1020 transmit scanning frames (eg, probe response frames) 1015 and 1025 to the STA 1000 in a specific period, and the STA 1000 is specified.
- scanning frames 1015 and 1025 are received from the target AP 1010 or the non-target AP 1020 in the time interval will be described.
- the STA 1000 may monitor the scanning frame 1015 transmitted from the target AP 1010 at the first minimum channel time 1050.
- the STA 1000 may finish the scanning procedure after receiving and processing the scanning frame 1015 transmitted from the target AP 1010.
- the STA 1000 processes the received scanning frame by waiting up to the maximum channel time 1080.
- a scanning frame 1015 such as a probe response frame transmitted by the target AP 1100 is received and immediately processed by the received scanning frame 1015.
- the STA 1000 may additionally perform an authentication and association procedure with the target AP 1010 in the corresponding channel based on the scanning frame 1015 transmitted by the target AP 1010.
- the STA 1000 may not receive the scanning frame 1015 from the target AP 1010. For example, if the target AP 1010 fails to transmit a probe response frame to the STA 1000 within the first minimum channel time 1050, the STA 1000 may change the non-target AP during the second minimum channel time 1060.
- the scanning frame 1025 may be monitored, such as a probe response frame transmitted from the 1020.
- the non-target AP 1020 may indicate an AP that is not indicated through a plurality of request SSID lists or request SSIDs.
- the non-target AP 1020 may be implemented to receive a probe request frame from the STA 1000 and to transmit a probe response frame after the first minimum channel time 1050.
- the scanning frame transmitted from the target AP 1010 may be continuously monitored even after the first minimum channel time 1050.
- the STA 1000 may not receive the probe response frame in a time period in which the first minimum channel time 1050 and the second minimum channel time 1060 are added together.
- the STA 1000 is transmitted from the physical layer to the MAC layer based on primitive information such as PHY-CCA.indication primitive in a time period in which the first minimum channel time 1050 and the second minimum channel time 1060 are combined.
- the state of the medium may not be detected as CCA busy.
- CCA busy indicates that a particular frame is being transmitted to the STA 1000.
- the STA 1000 may move the scanning channel to another channel and perform scanning after the sum of the first minimum channel time 1050 and the second minimum channel time 1060 has elapsed.
- the state of the medium may be detected as CCA busy.
- the STA 1000 may scan the corresponding channel up to the maximum channel time 1080 and process the received scanning frame when there is a scanning frame received up to the maximum channel time 1080.
- the AP may perform different operations as follows depending on whether the target AP 1010 or the non-target AP 1020.
- the target AP 1010 receives the probe request frame 1005 from the STA 1000 and transmits a scanning frame (eg, probe response frame) 1015 to the STA 1000 at the first minimum channel time 1050.
- a scanning frame eg, probe response frame
- An interval in which the target AP 1010 transmits the scanning frame 1015 may be specified as the first minimum channel time 1050.
- a subsequent time including the first minimum channel time 1050 may also be a period during which the target AP 1010 transmits the scanning frame 1015.
- the non-target AP 1020 receives the probe request frame 1005 from the STA 1000 and the scanning frame (eg, probe response frame) 1025 after the first minimum channel time 1050 passes the second minimum.
- the channel time 1060 may be transmitted to the STA 1000.
- the STA 1000 may terminate the scanning procedure by receiving the probe response frame transmitted by the target AP 1010 at the first minimum channel time 1050 and immediately processing the corresponding probe response frame. Accordingly, the non-target AP 1020 does not need to transmit the probe response frame at the second minimum channel time 1060 when the target AP 1010 transmits the probe response frame.
- the non-target AP 1020 may overhear a probe response frame transmitted by the target AP 1010. If the target AP 1010 transmits a probe response frame at the first minimum channel time 1050 and overhears it at the non-target AP 1020, a procedure for transmitting a probe response frame at the non-target AP 1020. Can be terminated.
- the STA may additionally include information on whether the AP additionally requested when transmitting the probe request frame separately sets a time for transmitting the probe response frame.
- the target AP may determine whether to transmit the probe response frame preferentially based on the priority response field which is a newly defined field.
- the STA may separately set information on the time of receiving the probe response frame from the target AP and information on the time of receiving the probe response frame from the non-target AP and include the information in the probe request frame.
- information about the first minimum channel time and the second minimum channel time for receiving the probe response frame may also be transmitted in the probe request frame.
- Such information may be included in the probe request frame in the form of an independent field, or may be included in another information format.
- Information on whether the requested AP is transmitted first, the first minimum channel time and the second minimum channel time may be included in a primitive such as MLME-SCAN.request primitive.
- the STA may generate the probe request frame based on the information included in the primitive including information on whether the AP is transmitted first, the first minimum channel time, and the second minimum channel time.
- FIG. 11 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- the probe request frame may include at least one of a priority response field 1100, a first minimum channel time field 1120, and a second minimum channel time field 1140 in the frame body.
- the priority response field 1100 may include information on whether the target AP indicated by the probe request frame preferentially transmits the probe response frame at a specific time. For example, when the priority response field 1100 is 1 as flag information, the target AP may preferentially transmit a probe response frame at a specified time. If the first response field 1100 is 0, the AP that has received the probe request frame may transmit the probe response frame to the STA regardless of whether the response AP 1100 is a target AP or a non-target AP.
- the first minimum channel time field 1120 may include information about a specified time at which the target AP preferentially transmits a probe response frame.
- the second minimum channel time field 1140 may include information about a specified time when the non-target AP transmits a probe response frame. As one example of such a field, the above information may be included in a probe request frame in another format.
- an embodiment of the present invention discloses a method of transmitting a probe response frame at a first minimum channel time and a second minimum channel time based on a transmission priority of an AP.
- FIG. 12 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- the AP which has received the probe request frame 1205, may determine whether it is the first priority AP 1210 or the second priority AP 1220, for example, based on the plurality of request SSID lists.
- a method of transmitting a scanning frame (eg, a probe response frame) 1215 to the STA 1200 from the first priority AP 1210 and the second priority AP 1220 is described.
- the first priority AP 1210 may transmit a probe response frame to the STA 1200 at the first minimum channel time 1250.
- the second first AP 1220 may transmit a probe response frame to the STA 1200 at the second minimum channel time 1260.
- the STA 1200 may perform the following operations according to whether the scanning frames 1215 and 1225 are received from the first priority AP 1210 and the second priority AP 1220.
- the STA 1200 may monitor the scanning frame 1215 transmitted from the first preferred AP 1210 at the first minimum channel time 1250.
- the STA 1210 may receive the scanning frame 1215 transmitted from the first priority AP 1210 and close the active scanning procedure.
- the existing STA waits until the maximum channel time to process the scanning frame received after the maximum channel time.
- the STA 1200 may immediately process the scanning frame 1215 transmitted by the first priority AP 1210 and then terminate the scanning procedure on the corresponding channel.
- the STA 1200 may additionally perform an authentication and association procedure with the first priority AP 1210 in the corresponding channel based on the scanning frame 1215 transmitted by the first priority AP 1210.
- the STA 1200 may not receive the scanning frame 1215 at the first minimum channel time 1250 from the first preferred AP 1210.
- the STA 1200 may monitor the scanning frame 1225 transmitted by the second priority AP 1220 at the second minimum channel time 1260.
- the STA 1200 may receive the scanning frame 1225 transmitted from the second priority AP 1220 at the second minimum channel time 1260 and close the scanning procedure. That is, the STA 1200 does not process the scanning frame 1225 received by waiting until the maximum channel time, and immediately processes the scanning frame 1225 transmitted by the second priority AP 1220 to perform the scanning procedure on the corresponding channel. You can exit.
- the scanning frame transmitted from the first priority AP 1210 may also be continuously monitored after the first minimum channel time 1250.
- the STA 1200 may not receive the scanning frames 1215 and 1225 during the sum of the first minimum channel time 1250 and the second minimum channel time 1260. In this case, the STA 1200 determines that the state of the medium is not detected as a CCA busy as a result of the STA 1200 based on a primitive that transmits information about the state of the medium from the physical layer to the MAC layer, such as PHY-CCA.indication primitive. Can be. In this case, the STA 1200 may perform scanning by moving the scanning channel to another channel.
- the STA 1200 may process scanning frames received up to the maximum channel time by performing scanning on the corresponding channel up to the maximum channel time.
- the AP may perform different operations in transmitting the probe response frame to the STA according to whether the AP is the first priority AP 1210 or the second priority AP 1220.
- the first preferred AP 1210 receives the probe request frame 1205 from the STA 1200 and places the scanning frame (eg, probe response frame) 1215 within the first minimum channel time 1250 within the first minimum channel time 1250. Can be sent.
- An interval in which the first priority AP 1210 transmits the scanning frame 1215 may be specified as the first minimum channel time 1250.
- a subsequent time including the first minimum channel time 1250 may also be a period during which the first priority AP 1210 transmits a scanning frame.
- the second first AP 1220 receives the probe request frame 1205 from the STA 1200 and the second frame after the first minimum channel time 1250 passes the scanning frame (eg, probe response frame) 1210.
- the minimum channel time 1260 may be transmitted to the STA 1200.
- the STA 1200 may immediately process the received probe response frame to speed up the scanning procedure. You can exit.
- the second priority AP 1220 does not need to transmit the probe response frame at the second minimum channel time 1260 when the first priority AP 1210 transmits the probe response frame. Accordingly, the second priority AP 1220 may overhear the probe response frame transmitted by the first priority AP 1210. If the first priority AP 1210 transmits a probe response frame at the first minimum channel time 1250 and overhears it at the second priority AP 1220, the second priority AP 1220 may remove the probe response frame. The procedure for transmitting can be terminated.
- the STA may include, in the probe request frame, a priority response field including information on whether to specify an AP that preferentially transmits a probe response frame in the SSID list when transmitting the probe request frame.
- the STA may separately set information on the time for receiving the probe response frame from the first preferred AP and information on the time to receive the probe response frame from the second preferred AP.
- information about the first minimum channel time and the second minimum channel time for receiving the probe response frame may also be transmitted in the probe request frame.
- Such information may be included in the probe request frame in the form of an independent field, or may be included in another information format.
- Information on whether the requested AP is transmitted first, the first minimum channel time and the second minimum channel time may be included in a primitive such as MLME-SCAN.request primitive.
- the STA may include information on whether the AP is first transmitted, the first minimum channel time, and the second minimum channel time in the probe request frame based on the information included in the primitive.
- FIG. 13 is a conceptual diagram illustrating a probe request frame according to an embodiment of the present invention.
- the probe request frame may include at least one of a priority response field 1300, a first minimum channel time field 1310, and a second minimum channel time field 1320 in the frame body.
- the priority response field 1300 may include information on whether to specify a first priority AP that preferentially transmits a probe response frame.
- the first minimum channel time field 1310 may include information about a specified time at which the first priority AP preferentially transmits a probe response frame.
- the second minimum channel time field 1320 may include information about a specified time when the second first AP transmits a probe response frame. As one example of such a field, the above information may be included in a probe request frame in another format.
- a probe response frame is transmitted by being divided into two time intervals (a first minimum channel time and a second minimum channel time) according to whether a first priority AP or a second priority AP is used.
- the probe response frame may be received from an AP having a different priority by dividing into two or more time intervals.
- FIG. 14 is a conceptual diagram illustrating a scanning procedure between an AP and a STA according to an embodiment of the present invention.
- an AP may probe a probe response frame at a first minimum channel time 1450, a second minimum channel time 1460, and a third minimum channel time according to a priority of transmission of a probe response frame by the AP. Can be sent.
- An AP transmitting the probe response frame at the third minimum channel time may be referred to as a third priority AP 1430.
- the information about the priority may be divided based on a plurality of request SSID lists.
- APs may be classified into three priorities.
- the first minimum channel time 1450 and the second minimum channel time 1460 are defined as time intervals included in the minimum channel time 1470, and the third minimum channel time is maximum after the minimum channel time 1470. It may be defined as an interval before the channel time 1480 expires. The definition of this time interval is exemplary, and the first minimum channel time 1450, the second minimum channel time 1460, and the third minimum channel time may be defined differently from FIG. 14, and this embodiment also includes the scope of the present invention. Included in
- the first AP, the second AP, and the third AP may determine information on timing to transmit the probe response frame based on the SSID list information included in the received probe request frame. It is assumed that the first AP is the first priority AP 1410, the second AP is the second priority AP 1420, and the third AP is the third priority AP 1430.
- the first AP may determine the priority based on the SSID list of the probe request frame. As a result of the determination, since the first AP is the first priority AP 1410, the probe response frame may be transmitted to the STA 1400 at the first minimum channel time 1450.
- the second AP may determine the priority based on the SSID list of the probe request frame. As a result of the determination, since the second AP is the second priority AP 1420, the second AP may transmit a probe response frame to the STA 1400 at the second minimum channel time 1460.
- the third AP may determine the priority based on the SSID list of the probe request frame. As a result of the determination, since the third AP is the third priority AP 1430, the third AP may transmit a probe response frame to the STA 1400 at the third minimum channel time.
- each AP may not transmit a probe response frame.
- the AP corresponding to each priority may transmit the probe response frame even after the specified time.
- the first priority AP may transmit only the first minimum channel time or may transmit a probe response frame even after the first minimum channel time.
- the STA may terminate the scanning procedure. For example, if a probe response frame is transmitted from the first AP at the first minimum channel time received, the STA processes the received probe response frame immediately without waiting for another probe response frame and ends the scanning procedure. can do. As one example of this method, even when the STA receives the probe response frame at the first minimum channel time, the STA receives the probe response frame transmitted from the AP until the second minimum channel time or the third minimum channel time and processes the received frame. After that, the scanning procedure may be terminated.
- 15 is a block diagram illustrating a wireless device to which an embodiment of the present invention can be applied.
- the wireless device 1500 is an STA capable of implementing the above-described embodiment and may be an AP or a non-AP STA.
- the wireless device 1500 includes a processor 1520, a memory 1540, and an RF unit 1560.
- the RF unit 1560 may be connected to the processor 1520 to transmit / receive a radio signal.
- the processor 1520 implements the functions, processes, and / or methods proposed in the present invention.
- the processor 1520 may be implemented to perform the operation of the wireless device according to the embodiment of the present invention described above.
- the processor 1520 transmits a probe request frame including a scanning priority for a plurality of access points and sequentially at least among the plurality of APs based on the scanning priority. It may be monitored whether a probe response frame, which is a response to the probe request frame, is received from one.
- the processor 1520 transmits a beacon frame when the transmission time of the beacon frame overlaps with the transmission time of the probe response frame, and when the transmission time of the beacon frame does not overlap with the transmission time of the probe response frame.
- the probe response frame may be implemented to transmit a probe response frame.
- the processor 1520 may include an application-specific integrated circuit (ASIC), another chipset, a logic circuit, a data processing device, and / or a converter for translating baseband signals and wireless signals.
- the memory 1540 may include read-only memory (ROM), random access memory (RAM), flash memory, memory card, storage medium, and / or other storage device.
- the RF unit 1560 may include one or more antennas for transmitting and / or receiving a radio signal.
- the above-described technique may be implemented as a module (process, function, etc.) for performing the above-described function.
- the module may be stored in the memory 1540 and executed by the processor 1520.
- the memory 1540 may be inside or outside the processor 1520, and may be connected to the processor 1520 by various well-known means.
Abstract
Description
Claims (10)
- STA(station)의 스캐닝 방법에 있어서,
복수의 AP(access point)에 대한 스캐닝 우선 순위를 포함하는 프로브 요청 프레임을 전송하는 단계; 및
상기 스캐닝 우선 순위에 기반하여 순차적으로 상기 복수의 AP 중 적어도 어느 하나로부터 상기 프로브 요청 프레임에 대한 응답인 프로브 응답 프레임이 수신되는지 여부를 모니터링하는 단계를 포함하는 스캐닝 방법. - 제1항에 있어서,
상기 프로브 요청 프레임은 상기 복수의 AP를 나타내는 SSID(service set identifier) 리스트를 포함하고,
상기 스캐닝 우선 순위는 상기 복수의 AP 각각에 대한 우선 순위로서 상기 SSID 리스트에 기반하여 결정되는 스캐닝 방법.
- 제2항에 있어서, 상기 모니터링하는 단계는,
상기 복수의 AP 중 가장 높은 우선 순위를 갖는 AP로부터 제1 채널 구간(duration) 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하는 단계; 및
상기 복수의 AP 중 다음 우선 순위를 갖는 AP로부터 제2 채널 구간 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하는 단계를 포함하고,
상기 제1 채널 구간은 상기 제2 채널 구간보다 앞서는 스캐닝 방법.
- 제3항에 있어서,
상기 프로브 요청 프레임은 상기 제1 채널 구간 및 상기 제2 채널 구간에 관한 정보를 포함하는 스캐닝 방법.
- 제3항에 있어서,
상기 복수의 AP 중 다음 우선 순위를 갖는 AP로부터 제2 채널 구간 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하는 단계는 만약 상기 제1 채널 구간 동안 상기 가장 높은 우선순위를 갖는 AP로부터 상기 프로브 응답 프레임이 수신되지 않으면 수행되는 스캐닝 방법.
- 무선랜 시스템의 스캐닝을 수행하는 무선 장치에 있어서, 상기 무선 장치는 프로세서를 포함하고,
상기 프로세서는 복수의 AP(access point)에 대한 스캐닝 우선 순위를 포함하는 프로브 요청 프레임을 전송하고, 상기 스캐닝 우선 순위에 기반하여 순차적으로 상기 복수의 AP 중 적어도 어느 하나로부터 상기 프로브 요청 프레임에 대한 응답인 프로브 응답 프레임이 수신되는지 여부를 모니터링하도록 구현되는 무선 장치.
- 제6항에 있어서,
상기 프로브 요청 프레임은 상기 복수의 AP를 나타내는 SSID(service set identifier) 리스트를 포함하고,
상기 스캐닝 우선 순위는 상기 복수의 AP 각각에 대한 우선 순위로서 상기 SSID 리스트에 기반하여 결정되는 무선 장치. - 제7항에 있어서, 상기 프로세서는,
상기 복수의 AP 중 가장 높은 우선 순위를 갖는 AP로부터 제1 채널 구간(duration) 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하고 상기 복수의 AP 중 다음 우선 순위를 갖는 AP로부터 제2 채널 구간 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하도록 구현되되,
상기 제1 채널 구간은 상기 제2 채널 구간보다 앞서는 무선 장치. - 제8항에 있어서,
상기 프로브 요청 프레임은 상기 제1 채널 구간 및 상기 제2 채널 구간에 관한 정보를 포함하는 무선 장치. - 제8항에 있어서, 상기 프로세서는,
만약 상기 제1 채널 구간 동안 상기 가장 높은 우선 순위를 갖는 AP로부터 상기 프로브 응답 프레임이 수신되지 않으면 상기 복수의 AP 중 다음 우선 순위를 갖는 AP로부터 제2 채널 구간 동안 프로브 응답 프레임이 수신되는지 여부를 모니터링하도록 구현되는 무선 장치.
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US9544836B2 (en) | 2017-01-10 |
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