WO2017045521A1 - 一种信道接入方法、接入点、站点 - Google Patents

一种信道接入方法、接入点、站点 Download PDF

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Publication number
WO2017045521A1
WO2017045521A1 PCT/CN2016/097191 CN2016097191W WO2017045521A1 WO 2017045521 A1 WO2017045521 A1 WO 2017045521A1 CN 2016097191 W CN2016097191 W CN 2016097191W WO 2017045521 A1 WO2017045521 A1 WO 2017045521A1
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Prior art keywords
bss
predetermined
resource allocation
allocation information
identifier
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PCT/CN2016/097191
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English (en)
French (fr)
Inventor
李楠
吕开颖
邢卫民
Original Assignee
中兴通讯股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
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Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Priority to EP16845635.8A priority Critical patent/EP3352521A4/en
Priority to US15/761,062 priority patent/US11116011B2/en
Publication of WO2017045521A1 publication Critical patent/WO2017045521A1/zh
Priority to US17/466,422 priority patent/US11672022B2/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • H04W74/0833Random access procedures, e.g. with 4-step access
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/002Transmission of channel access control information
    • H04W74/006Transmission of channel access control information in the downlink, i.e. towards the terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/30Resource management for broadcast services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/04Scheduled access
    • H04W74/06Scheduled access using polling

Definitions

  • Embodiments of the present invention relate to, but are not limited to, wireless communication technologies, and in particular, to a channel access method, an access point, and a station in a wireless local area network.
  • the multi-user parallel transmission technology includes a multi-user multiple-input multiple-output (MU-MIMO) technology, an orthogonal frequency division multiple access (OFDMA) technology, and the like.
  • MU-MIMO utilizes spatial multiplexing techniques to increase time and frequency utilization.
  • OFDMA technology enables multiple sites to be frequency-multiplexed over the entire bandwidth, which makes more efficient use of the results of inter-site frequency selection to improve spectrum utilization.
  • a WLAN multiple non-AP STAs simultaneously transmit data to an access point (AP, Access Point), which is generally referred to as an uplink multi-user (UL MU) transmission (user). Equivalent to the site), the AP sends data to multiple non-AP STAs at the same time, which is called Down Multi-User (DL MU) transmission.
  • AP access point
  • UL MU uplink multi-user
  • DL MU Down Multi-User
  • the UL MU transmission needs to be triggered by the AP.
  • a separate trigger frame can be sent to implement the trigger, or the trigger can be implemented by carrying the trigger information field in the radio frame.
  • the trigger frame or the trigger information field includes scheduling information of the station, such as identification information of the station, time and frequency resource information used by the station for uplink transmission, and time-frequency offset calibration information of the station.
  • the station receives the trigger frame or the trigger information field. If the station determines that its own identification information is carried in the station, it indicates that it is scheduled to be in the current UL MU transmission. If it needs to send data, Then, according to the time-frequency offset calibration information indicated by the AP, the data is transmitted on the allocated time and frequency resources.
  • an AP and a plurality of non-AP STAs associated with the AP form a Basic Service Set (BSS).
  • BSS Basic Service Set
  • an AP establishes a BSS, and the BSS ID of the BSS is the Media Access Control (MAC) address of the AP. If the AP supports multiple BSSID (multiple BSSID) capabilities, one AP can configure multiple BSSs, as shown in Figure 2.
  • MAC Media Access Control
  • the AP supports the multiple BSSID capability
  • when the downlink multi-user transmission is performed how to indicate the resources occupied by the BSS multicast broadcast data in the BSS set of the AP; the AP triggers the site under the BSS in the BSS set to perform uplink.
  • how to allocate channel access resources to the site at the time of triggering is a technical problem to be solved.
  • Embodiments of the present invention provide a channel access method, an access point, and a station.
  • the channel access method provided by the embodiment of the present invention is applied to an access point, and the method includes:
  • Radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the set of the predetermined identifiers is a subset of the set of the site association identifiers, and the number of the predetermined identifiers in the set of the predetermined identifiers is at most m, where m is a positive integer less than or equal to s. s is the maximum number of site association identities in the site association identities collection.
  • the set of predetermined identifiers includes the 0th to m-1th values in the set of site association identifiers.
  • the method before the sending the radio frame to the station, the method further includes: setting a correspondence between the predetermined identifier and a BBS in the BBS set of the access point.
  • the method before the sending the radio frame to the station, the method further includes: setting And a predetermined identifier for indicating a multiple BSS in the set of the predetermined identifiers, where the multiple BSS refers to all BSSs in the BSS set.
  • the partial predetermined identifier is obtained by:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated n bits and operated with a specific value, where n is a positive integer.
  • the method further includes:
  • resource allocation information of the multicast broadcast data is performed by using a predetermined identifier or a partial predetermined identifier of the BSS. Instructions.
  • the method further includes:
  • the resource allocation information of the multicast broadcast data uses a predetermined identifier of the multiple BSS or a partial reservation of the multiple BSS The indicator is instructed.
  • the method further includes:
  • the radio frame When the radio frame carries resource allocation information of a random access resource of one BSS in the BSS set of the access point, the random access resource allocation information is indicated by using a predetermined identifier or a partial predetermined identifier of the BSS.
  • the method further includes:
  • the random access resource allocation information uses a predetermined identifier of a multiple BSS or a partial predetermined identifier of a multiple BSS Give instructions.
  • the method further includes:
  • the value of m is notified to the station before the wireless frame is transmitted.
  • a channel access method provided by another embodiment of the present invention is applied to a station, and the method includes:
  • Radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the method further includes:
  • the access point Before receiving the radio frame, acquiring an m value sent by the access point, where the m value represents a maximum number of predetermined identifiers in a set of predetermined identifiers, where m is a positive integer less than or equal to s, and s is The maximum number of site association identifiers in the site association identifier set.
  • the method further includes:
  • a set of predetermined identities is obtained prior to receiving the radio frame.
  • the method further includes:
  • the method further includes:
  • the method further includes:
  • n is a positive integer.
  • the calculating the partial predetermined identifier according to the value of n and/or the specific value refers to:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated by n bits and operated with a specific value; wherein n is a positive integer.
  • the method further includes:
  • the multicast broadcast data is acquired when the identification information in the resource allocation information of the multicast broadcast data is a predetermined identifier or a partial predetermined identifier of a BSS associated with the site.
  • the method further includes:
  • the multicast broadcast data includes: a multicast broadcast service, or a broadcast frame, or a multicast frame.
  • the method further includes:
  • the identifier information in the resource allocation information of the random access resource is a predetermined identifier or a partial predetermined identifier of the BSS associated with the site, acquiring the random access resource allocation information; when there is data to be sent, Competing access is performed on the resource indicated by the random access resource allocation information.
  • the method further includes:
  • the identifier information in the resource allocation information of the random access resource is a predetermined identifier of the multiple BSS or a partial predetermined identifier of the multiple BSS, acquiring the random access resource allocation information; when there is data to be sent, Competing access is performed on the resource indicated by the random access resource allocation information.
  • the first sending unit is configured to send a radio frame to the station, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the set of the predetermined identifiers is a subset of the set of the site association identifiers, and the number of the predetermined identifiers in the set of the predetermined identifiers is at most m, where m is a positive integer less than or equal to s. s is the maximum number of site association identities in the site association identities collection.
  • the set of predetermined identifiers includes the set of the site association identifiers 0 to m-1 values.
  • the access point further includes:
  • a first predetermined unit configured to set a correspondence between the predetermined identifier and a BBS in the BBS set of the access point.
  • the access point further includes:
  • a second predetermined unit configured to set a predetermined identifier for indicating a multiple BSS in the set of the predetermined identifiers, where the multiple BSS refers to all BSSs in the BSS set.
  • the partial predetermined identifier is obtained by: intercepting n bits of the predetermined identifier; or calculating the predetermined identifier with a specific value; or performing the operation on the predetermined identifier and the specific value And intercepting n bits for the operation result; or, intercepting the predetermined identifier by n bits, and performing operations with a specific value, where n is a positive integer.
  • the access point further includes:
  • a first indication unit configured to: when the radio frame carries resource allocation information of multicast broadcast data of one BSS in the BSS set of the access point, resource allocation information of the multicast broadcast data uses the BSS The predetermined identification or part of the predetermined identification is indicated.
  • the access point further includes:
  • a second indication unit configured to: when the radio frame carries resource allocation information of multicast broadcast data of multiple BSSs in a BSS set of the access point, resource allocation information of the multicast broadcast data uses multiple BSS A predetermined identification or a partial predetermined identification of the multiple BSS is indicated.
  • the access point further includes:
  • a third indication unit configured to: when the radio frame carries resource allocation information of a random access resource of one BSS in the BSS set of the access point, the random access resource allocation information uses a predetermined identifier of the BSS Or part of the predetermined identification to indicate.
  • the access point further includes:
  • a fourth indication unit configured to: when the radio frame carries resource allocation information of a random access resource of multiple BSSs in a BSS set of the access point, the random access resource allocation information uses a predetermined identifier of a multiple BSS Or a part of the predetermined identification of the multiple BSS is indicated.
  • the access point further includes:
  • the second sending unit is configured to notify the station of the value of m before transmitting the radio frame.
  • a receiving unit configured to receive a radio frame sent by the access point, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the site further includes:
  • a first acquiring unit configured to acquire, before receiving the radio frame, an m value sent by the access point, where the m value represents a maximum number of predetermined identifiers in a set of predetermined identifiers, where m is less than or equal to A positive integer of s, s is the maximum number of site association identifiers in the site association identifier set.
  • the site further includes:
  • a second acquiring unit configured to acquire a set of predetermined identifiers before receiving the wireless frame.
  • the site further includes:
  • a third acquiring unit configured to acquire a correspondence between the predetermined identifier and a BSS in the BSS set of the access point before receiving the radio frame.
  • the site further includes:
  • a fourth acquiring unit configured to acquire, before the receiving the wireless frame, a predetermined identifier that is used by the access point to indicate a multiple BSS in the set of the predetermined identifiers.
  • the site further includes:
  • a fifth obtaining unit configured to acquire an n value and/or a specific value for calculating the partial predetermined identifier before the receiving unit receives the radio frame, and calculate the part according to the n value and/or the specific value A predetermined identifier, where n is a positive integer.
  • the fifth obtaining unit calculates the partial predetermined identifier according to the n value and/or the specific value, including:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated by n bits and operated with a specific value; wherein n is a positive integer.
  • the site further includes:
  • a sixth obtaining unit configured to acquire resource allocation information of the multicast broadcast data in the radio frame; and the identifier information in the resource allocation information of the multicast broadcast data is a predetermined identifier or part of the BSS associated with the site The multicast broadcast data is acquired when the identifier is predetermined.
  • the site further includes:
  • a seventh acquiring unit configured to acquire resource allocation information of multicast broadcast data in the radio frame; and when the identifier information in the resource allocation information of the multicast broadcast data is a predetermined identifier of the multiple BSS or a multi-BSS The multicast broadcast data is acquired when the part is predetermined.
  • the multicast broadcast data includes: a multicast broadcast service, or a broadcast frame, or a multicast frame.
  • the site further includes:
  • an eighth acquiring unit configured to acquire resource allocation information of the random access resource in the radio frame; and the identifier information in the resource allocation information of the random access resource is a predetermined identifier or part of the BSS associated with the site Obtaining the random access resource allocation information when the identifier is predetermined;
  • the first access unit is configured to perform contention access on the resource indicated by the random access resource allocation information when there is data to be sent.
  • the site further includes:
  • a ninth acquiring unit configured to acquire resource allocation information of a random access resource in the radio frame; and when the identifier information in the resource allocation information of the random access resource is a predetermined identifier of the multiple BSS or a multi-BSS Obtaining the random access resource allocation information when a part of the predetermined identifier is obtained;
  • the second access unit is configured to perform contention access on the resource indicated by the random access resource allocation information when there is data to be sent.
  • the access point sends a radio frame to the station, where the radio frame carries a predetermined identifier or a part of the predetermined identifier of the BSS in the basic service set BSS set of the access point.
  • the AP can support the multicast broadcast data of the BSS in the BSS set in the multiple BSSID scenario, and can make the resource indication manner of the BSS random access resource when using the multi-user transmission technology to be simple and effective.
  • 1 is a schematic diagram of multi-user parallel transmission frame exchange
  • FIG. 2 is a schematic diagram of an AP establishing multiple BSSs
  • FIG. 3 is a schematic flowchart 1 of a channel access method according to an embodiment of the present invention.
  • FIG. 4 is a second schematic flowchart of a channel access method according to an embodiment of the present invention.
  • FIG. 5 is a schematic diagram of an indication indication according to Embodiment 1 of the present invention.
  • FIG. 6 is a schematic diagram of another identifier indication according to Embodiment 1 of the present invention.
  • FIG. 7 is a schematic diagram of an indication indication according to Embodiment 2 of the present invention.
  • FIG. 8 is a schematic diagram of another identifier indication according to Embodiment 2 of the present invention.
  • FIG. 9 is a schematic diagram of an identification indication according to Embodiment 3 of the present invention.
  • FIG. 10 is a schematic diagram of an identification indication according to Embodiment 4 of the present invention.
  • FIG. 11 is a schematic diagram of an identification indication according to Embodiment 5 of the present invention.
  • FIG. 12 is a schematic diagram of an indication of an indication according to Embodiment 6 of the present invention.
  • FIG. 13 is a schematic diagram of an identifier indication according to Embodiment 7 of the present invention.
  • FIG. 14 is a schematic structural diagram of an access point according to an embodiment of the present invention.
  • FIG. 15 is a schematic structural diagram of a station according to an embodiment of the present invention.
  • the plurality of BSSs together with the BSSs whose MAC addresses of the APs are BSSIDs constitute a BSS set of APs, and each BSS in the set can perform service and security policy settings separately.
  • ISM Industrial Scientific Medical
  • the number of channels that do not overlap at all is less. If each AP establishes a BSS separately, the available channels are less according to the principle of not overlapping with other AP channels as much as possible. Large inter-frequency and adjacent-frequency interference will form between APs.
  • the same channel can be used by multiple BSSs, reducing interference.
  • the security policy of the BSS used by the visitor can be set to Wired Equivalent Privacy (WEP).
  • the security policy of the BSS used by employees inside the enterprise is set to Wi-Fi Protected Access 2 (WPA2, Wi-Fi Protected Access 2).
  • WPA2 Wi-Fi Protected Access 2
  • a plurality of BSSs actually correspond to one physical AP, and the AP broadcasts a parameter set of its own BSS set in a beacon frame.
  • the BSS parameter set includes a BSSID and an SSID of the BSS.
  • Ability information etc.
  • FIG. 3 is a schematic flowchart of a channel access method according to an embodiment of the present invention.
  • the channel access method in this example is applied to an access point.
  • the channel access method includes the following steps:
  • Step 301 Send a radio frame to the station, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the set of the predetermined identifiers is a subset of the set of the site association identifiers, and the number of the predetermined identifiers in the set of the predetermined identifiers is at most m, where m is a positive integer less than or equal to s. s is the maximum number of site association identities in the site association identities collection.
  • the set of predetermined identifiers includes the 0th to m-1th values in the set of site association identifiers.
  • the method further includes:
  • the method further includes:
  • Step 300 Set the predetermined identifier between the BBS in the BBS set of the access point Correspondence relationship.
  • the method further includes:
  • the method further includes: setting a predetermined identifier for indicating the multiple BSS in the set of the predetermined identifier, where the multiple BSS refers to all BSSs in the BSS set.
  • the partial predetermined identifier is obtained by:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated n bits and operated with a specific value, where n is a positive integer.
  • the method further includes:
  • resource allocation information of the multicast broadcast data is performed by using a predetermined identifier or a partial predetermined identifier of the BSS. Instructions.
  • the method further includes:
  • the resource allocation information of the multicast broadcast data uses a predetermined identifier of the multiple BSS or a part of the multiple BSS The predetermined identification is indicated.
  • the method further includes:
  • the radio frame When the radio frame carries resource allocation information of a random access resource of one BSS in the BSS set of the access point, the random access resource allocation information is indicated by using a predetermined identifier or a partial predetermined identifier of the BSS.
  • the method further includes:
  • the radio frame When the radio frame carries resource allocation information of a random access resource of multiple BSSs in a BSS set of the access point, the random access resource allocation information uses a predetermined identifier of multiple BSSs or more A partial predetermined identification of the BSS is instructed.
  • the method further includes:
  • the value of m is notified to the station before the wireless frame is transmitted.
  • FIG. 4 is a schematic flowchart of a channel access method according to an embodiment of the present invention.
  • the channel access method in this example is applied to a station. As shown in FIG. 4, the channel access method includes the following steps:
  • Step 401 Receive a radio frame sent by an access point, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the method further includes:
  • Step 400 Acquire, before receiving the radio frame, an m value sent by the access point, where the m value represents a maximum number of predetermined identifiers in a set of predetermined identifiers, where m is a positive integer less than or equal to s , s is the maximum number of site association identifiers in the site association identifier set.
  • the method further includes:
  • a set of predetermined identities is obtained prior to receiving the radio frame.
  • the method further includes:
  • the method further includes:
  • the method further includes:
  • n is a positive integer.
  • the calculating the partial predetermined identifier according to the n value and/or the specific value means:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated by n bits and operated with a specific value; wherein n is a positive integer.
  • the method further includes:
  • the multicast broadcast data is acquired when the identification information in the resource allocation information of the multicast broadcast data is a predetermined identifier or a partial predetermined identifier of a BSS associated with the site.
  • the method further includes:
  • the multicast broadcast data is acquired when the identification information in the resource allocation information of the multicast broadcast data is a predetermined identifier of the multiple BSS or a partial predetermined identifier of the multiple BSS.
  • the method further includes:
  • the identifier information in the resource allocation information of the random access resource is a predetermined identifier or a partial predetermined identifier of the BSS associated with the site, acquiring the random access resource allocation information; when there is data to be sent, Competing access is performed on the resource indicated by the random access resource allocation information.
  • the multicast broadcast data includes: a multicast broadcast service, or a broadcast frame, or a multicast frame.
  • the method further includes:
  • the identifier information in the resource allocation information of the random access resource is a predetermined identifier of the multiple BSS or a partial predetermined identifier of the multiple BSS, acquiring the random access resource allocation information; when there is data to be sent, Competing access is performed on the resource indicated by the random access resource allocation information.
  • the AP notifies itself to support the multiple BSSID capability in the Beacon and Probe Response frames sent by itself, and carries its own BSS parameter set in the Beacon and Probe Response frames.
  • the site is associated with a BSS in the BSS set of the AP, and the AP assigns an associated identity AID to the site during the association process.
  • the AP Since the AP supports the multiple BSSID capability, the AP notifies the value of the site m, and reserves m values in the site association identifier AID set as the predetermined identifier of the BSS in the BSS set of the AP. Wherein, one value is used as the multiple BSS identifier, and the remaining m-1 values are respectively used to indicate each BSS in the BSS set of the AP.
  • the so-called multi-BSS identity that is, the identity corresponds to all BSSs in the BSS set of the AP.
  • the AP may directly notify the site of the value of m, or notify the site of the necessary parameters for calculating m.
  • the method for calculating m is a predetermined algorithm between the AP and the site.
  • the AP may arbitrarily select m values in the association identifier set as the predetermined identifier, but need to notify the site of the selected value.
  • the AP may also reserve the value of the fixed location in the site association identifier set as the predetermined identifier by default.
  • a simple implementation method is that the AP defaults the 0th to the m-2th values in the site association identifier set. -1 value) as a predetermined identifier of each BSS, the m-1th value is a multi-BSS identifier; wherein m is a positive integer less than or equal to s, and s is the maximum of the site association identifier in the site association identifier set Number.
  • Another simple implementation method is that the AP defaults to the 0th to the m-2th values (a total of m-1 values) in the site association identifier set as the predetermined identifier of each BSS, and the site association identifier set The last value is used as the multi-BSS identifier.
  • the AP needs to notify the correspondence between the predetermined identifier and each BSS in the BSS set.
  • a simple implementation manner is: when configuring the parameters of the multiple BSS, assign a sequence number to each BSS, and the corresponding predetermined identifier is in the order of increasing the sequence number. Also increase in order.
  • the AP only needs to inform the station of the serial number of each BSS, and the station can know what the predetermined identity of the BSS is. The following is an example:
  • the AP reserves the first m values in the AID space, that is, the first 16 AIDs are used to indicate the BSS in the BSS set.
  • the first 15 AIDs correspond to each BSS in the BSS set, and the 16th AID is used as the multiple BSS identifier.
  • the AP is currently configured with four BSSs.
  • the AP establishes a BSS with its own MAC address as the BSSID, that is, BSS0.
  • three BSSs are configured: BSS1, BSS2, and BSS3, respectively, which are configured with BSSID and SSID, and other capability information parameters.
  • the serial numbers of their BSS are 0, 1, 2, and 3, respectively.
  • the value of the AP notification m, and the parameters of the BSS in the BSS set including the BSSID of each BSS, and the sequence number of the BSS.
  • a site associated with BSS1 acquires m and obtains a collection of predetermined identities. If the sequence number of the BSS1 associated with the station is 1, it is also known that the predetermined identifier of the BSS1 is the first value in the AID set, that is, AID1. The 16th AID, AID15, is used for multiple BSS identification.
  • the AP transmits multicast broadcast data of multiple BSSs by using a downlink multi-user transmission method, for example, transmitting multicast broadcast data of multiple BSSs in parallel using the OFDMA method.
  • the multicast broadcast data may be a multicast broadcast service of the BSS, or a broadcast frame of the BSS, or a multicast frame.
  • the AP transmits the multicast broadcast service of the BSS0 and the multicast broadcast service of the BSS1 in parallel, and the AP uses the predetermined identifiers of the BSS0 and the BSS1 in the resource allocation information in the physical layer signaling domain of the current frame, respectively.
  • AID0 and AID1 indicate multicast broadcast resources of BSS0 and BSS1.
  • the AP also uses the association identifiers of the site x and the site y in the physical layer signaling domain to indicate the downlink data it needs to receive.
  • the station that belongs to the BSS0 After receiving the radio frame, the station that belongs to the BSS0 obtains the identifier AID0 by analyzing the resource allocation information in the signaling layer of the physical layer, and learns that the resource allocation information carries the resources occupied by the multicast broadcast service of the BSS0, thereby further correspondingly The resource receives the multicast broadcast service of BSS0.
  • the operation of the BSS1 site is similar.
  • a part of the predetermined identifier of AID0 or AID1 is obtained by intercepting the n bits of AID0 and AID1, or by performing some operation on AID0 and AID1 with a specific value, or by performing some operation on AID0 and AID1 with a specific value, and then intercepting n bits. Get, or first intercept n bits, and then perform a specific operation. If a resource indication is to be made using a partial predetermined identifier of AID0 or AID1, then the specific value and/or n value needs to be also notified to the site; where n is a positive integer.
  • the AID0 and the AID1 are also used to identify the corresponding resource allocation information, and the site belonging to the BSS0 resolves the predetermined identifier, and then the data is known.
  • the operation of the site belonging to BSS1 is similar.
  • the AP reserves the first 16 AIDs in the AID space to indicate the BSS in the BSS set.
  • the first 15 AIDs correspond to each BSS in the BSS set, and the 16th AID is used as the multiple BSS identifier.
  • the AP is currently configured with 4 BSSs.
  • the AP establishes a BSS:BSS0 with its own MAC address as the BSSID, and configures three BSSs: BSS1.
  • BSS2 and BSS3 are respectively configured with BSSID and SSID, and other capability information parameters.
  • the serial numbers of their BSS are 0, 1, 2, and 3, respectively.
  • the value of the AP notification m, and the parameters of the BSS in the BSS set including the BSSID of each BSS, and the sequence number of the BSS.
  • a site associated with BSS1 acquires m and obtains a collection of predetermined identities.
  • the sequence number of the BSS1 associated with the station is 1, and it is also known that the predetermined identifier of the BSS1 is the first value in the AID set, AID1.
  • the 16th AID, AID15 is used for multiple BSS identification.
  • the AP uses the multicast broadcast data transmitted by the OFDMA method, and the so-called multicast broadcast data, that is, all the BSSs in the BSS set of the AP: the stations under the BSS0 to BSS3 need to receive the multicast broadcast data, and It is a multicast broadcast service, or a radio frame (or simply a trigger frame) that triggers a station to perform uplink transmission.
  • the AP sends the multicast broadcast service to be received by the sites of the BSS0 to the BSS3, and the AP uses the predetermined identifier of the multiple BSS in the resource allocation information of the physical layer signaling domain of the current frame: AID15 (or AID15) Part of the predetermined identification) for resource indication.
  • the station belonging to the BSS0 to the BSS3 obtains the identifier of the AID 15 by analyzing the resource allocation information in the signaling layer of the physical layer, and knows that the resource allocated by the resource allocation information is occupied by the multicast broadcast service that needs to be received by itself. Resources to further receive multicast broadcast services on corresponding resources.
  • the downlink also transmits downlink data of site x and site y, where site x and site y represent two different sites. Then, after the AP sends the request acknowledgement frame, the two stations send the acknowledgement frame in parallel in the MU mode.
  • the AP sends a trigger frame that triggers the site under the BSS0 to BSS3 to perform uplink multi-user transmission, and the AP uses the predetermined identifier of the multiple BSS in the resource allocation information in the physical layer signaling domain of the current frame: AID15 provides resource indication.
  • the station that belongs to the BSS0 to the BSS3 obtains the identifier AID15 by analyzing the resource allocation information in the signaling layer of the physical layer, and knows that there is a trigger frame that needs to be received on the resource allocated by the resource allocation information, thereby performing receive.
  • the AP reserves the first 16 AIDs in the AID space for indicating the BSS in the BSS set.
  • the first 15 AIDs correspond to each BSS in the BSS set, and the 16th AID is used as the multiple BSS identifier.
  • the AP is currently configured with 4 BSS, BSS0, BSS1, BSS2, and BSS3. Configure BSSID and SSID, and other capability information parameters for each.
  • the serial numbers of their BSS are 0, 1, 2, and 3, respectively.
  • the AP uses the predetermined identifier of each BSS to indicate the random access resource of the BSS, for example, to the BSS0, using the AID0 (or part of the AID0).
  • the predetermined identifier identifies the random access resource of the BSS.
  • the station that belongs to the BSS0 receives the trigger frame and parses the resource allocation information in the frame.
  • the identifier in the resource allocation information is the predetermined identifier of the BSS associated with the BSS
  • the data in the random access resource allocation information is indicated when there is data to be sent.
  • the AP also carries the site association identifier of the STA1 of the BSS0 in the trigger frame, and the STA1 performs the uplink data transmission in the multi-user parallel manner according to the indication of the AP.
  • the AP uses the predetermined identifier of the multiple BSS, and the AID 15 (or part of the AID 15) indicates that all the BSS sites in the BSS set of the AP can be used.
  • the site belonging to each BSS receives the trigger frame and parses the resource allocation information in the frame.
  • the identifier in the resource allocation information is a predetermined identifier of the multiple BSS, when there is data to be sent, The contention access may be performed on the resource indicated by the random access resource allocation information, and the site that successfully competes occupies the resource to send uplink data.
  • the AP uses the predetermined identifier of each BSS to indicate the random access resources of each BSS in the BSS set of the AP, and belongs to the sites of each BSS.
  • the AP sends a trigger frame to trigger uplink multi-user transmission.
  • the trigger frame is transmitted in the downlink single-user mode.
  • the physical layer signaling domain of the frame carries BSS identification information, such as BSS color identification. Code (BSS color) to indicate whether the current frame of the site is the BSS frame. When it is the frame of the BSS, the station continues to receive the frame.
  • the predetermined identifier AID15 (or part of the AID 15) used in the resource allocation information of the trigger frame is used to indicate the random access resources accessible to the stations of all the BSSs in the BSS set of the AP, and the stations belonging to each BSS read
  • the identifier in the resource allocation information is the predetermined identifier
  • the contention can be performed on the resource indicated by the random access resource allocation information, and the site that successfully competes occupies the resource to send the uplink data.
  • the AP sends a trigger frame to trigger uplink multi-user transmission.
  • the trigger frame is transmitted in the downlink single-user mode.
  • the physical layer signaling domain of the frame carries the BSS color, indicating whether the current frame of the station is Is the frame of this BSS. When it is the frame of the BSS, the station continues to receive the frame.
  • the resource allocation information of the triggering frame uses the predetermined identifier of each BSS to indicate the random access resources of each BSS in the BSS set of the AP, and the station belonging to each BSS receives the trigger frame, and parses the resource allocation information in the frame, and the resource
  • the identifier in the allocation information is the predetermined identifier of each BSS, when there is data to be sent, the stations under each BSS perform contention access on the resources indicated by the random access resource allocation information of the respective BSSs.
  • FIG. 14 is a schematic structural diagram of an access point according to an embodiment of the present invention.
  • the access point provided by the embodiment of the present invention has multiple different basic service sets. As shown in FIG. 14, the access point includes:
  • the first sending unit 11 is configured to send a radio frame to the station, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the set of the predetermined identifiers is a subset of the set of the site association identifiers, and the number of the predetermined identifiers in the set of the predetermined identifiers is at most m, where m is a positive integer less than or equal to s. s is the maximum number of site association identities in the site association identities collection.
  • the set of predetermined identifiers includes the 0th to m-1th values in the set of site association identifiers.
  • the access point further includes:
  • the first predetermined unit 12 is configured to set a correspondence between the predetermined identifier and a BBS in the BBS set of the access point.
  • the access point further includes:
  • the second predetermined unit 13 is configured to set a predetermined identifier for indicating a multiple BSS in the set of the predetermined identifiers, where the multiple BSS refers to all BSSs in the BSS set.
  • the partial predetermined identifier is obtained by: intercepting n bits of the predetermined identifier; or calculating the predetermined identifier with a specific value; or performing the operation on the predetermined identifier and the specific value And intercepting n bits for the operation result; or, intercepting the predetermined identifier by n bits, and performing operations with a specific value, where n is a positive integer.
  • the access point further includes:
  • the first indication unit 14 is configured to use, when the radio frame carries resource allocation information of multicast broadcast data of one BSS in the BSS set of the access point, the resource allocation information of the multicast broadcast data uses the BSS
  • the predetermined identification or part of the predetermined identification is indicated.
  • the access point further includes:
  • the second indication unit 15 is configured to use, when the radio frame carries resource allocation information of multicast broadcast data of multiple BSSs in the BSS set of the access point, the resource allocation information of the multicast broadcast data uses multiple BSSs
  • the predetermined identifier or a partial predetermined identifier of the multiple BSS is indicated.
  • the access point further includes:
  • the third indication unit 16 is configured to: when the radio frame carries resource allocation information of a random access resource of one BSS in the BSS set of the access point, the random access resource allocation information uses a reservation of the BSS The identification or part of the predetermined identification is indicated.
  • the access point further includes:
  • the fourth indication unit 17 is configured to: when the radio frame carries resource allocation information of a random access resource of multiple BSSs in the BSS set of the access point, the random access resource allocation information uses a reservation of multiple BSSs The identification or a partial predetermined identification of the multiple BSS is indicated.
  • the access point further includes:
  • the second transmitting unit 18 is configured to notify the station of the value of m before transmitting the radio frame.
  • each unit in the access point shown in FIG. 14 can be understood by referring to the related description of the foregoing channel access method.
  • the functions of each unit in the access point shown in FIG. 14 can be implemented by a program running on a processor, or can be implemented by a specific logic circuit.
  • FIG. 15 is a schematic structural diagram of a site according to an embodiment of the present invention. As shown in FIG. 15, the site includes:
  • the receiving unit 21 is configured to receive a radio frame sent by the access point, where the radio frame carries a predetermined identifier or a partial predetermined identifier for indicating a BSS in the basic service set BSS set of the access point.
  • the site further includes:
  • the first obtaining unit 22 is configured to acquire, before receiving the radio frame, an m value sent by the access point, where the m value represents a maximum number of predetermined identifiers in a set of predetermined identifiers, where m is less than A positive integer equal to s, where s is the maximum number of site association identifiers in the site association identifier set.
  • the site further includes:
  • the second obtaining unit 23 is configured to acquire a set of predetermined identifiers before receiving the radio frame.
  • the site further includes:
  • the third obtaining unit 24 is configured to acquire a correspondence between the predetermined identifier and a BSS in the BSS set of the access point before receiving the radio frame.
  • the site further includes:
  • the fourth obtaining unit 25 is configured to acquire, before receiving the radio frame, a predetermined identifier that is used by the access point to indicate a multi-BSS in the set of the predetermined identifiers.
  • the site further includes:
  • the fifth obtaining unit 26 is configured to: before receiving the radio frame, acquire an n value and/or a specific value for calculating the partial predetermined identifier, and calculate the partial predetermined identifier according to the n value and/or the specific value, Where n is a positive integer.
  • the calculating the partial predetermined identifier according to the n value and/or the specific value means:
  • the predetermined identifier is operated with a specific value, and the operation result is intercepted by n bits;
  • the predetermined identifier is truncated by n bits and operated with a specific value; wherein n is a positive integer.
  • the site further includes:
  • the sixth obtaining unit 27 is configured to acquire resource allocation information of the multicast broadcast data in the radio frame; when the identifier information in the resource allocation information of the multicast broadcast data is a predetermined identifier of the BSS associated with the site or The multicast broadcast data is acquired when the part is predetermined.
  • the site further includes:
  • the seventh obtaining unit 28 is configured to acquire resource allocation information of the multicast broadcast data in the radio frame; when the identifier information in the resource allocation information of the multicast broadcast data is a predetermined identifier or multiple BSSs of the multiple BSS The multicast broadcast data is acquired when the portion is predetermined.
  • the multicast broadcast data includes: a multicast broadcast service, or a broadcast frame, or a multicast frame.
  • the site further includes:
  • the eighth obtaining unit 29 is configured to acquire resource allocation information of the random access resource in the radio frame, where the identifier information in the resource allocation information of the random access resource is a predetermined identifier of the BSS associated with the site or Obtaining the random access resource allocation information when a part of the predetermined identifier is obtained;
  • the first access unit 210 is configured to perform contention access on the resource indicated by the random access resource allocation information when data is to be sent.
  • the site further includes:
  • the ninth obtaining unit 211 is configured to acquire resource allocation information of the random access resource in the radio frame, where the identifier information in the resource allocation information of the random access resource is a predetermined identifier or multiple BSS of the multiple BSS Obtaining the random access resource allocation information when a part of the predetermined identifier is obtained;
  • the second access unit 212 is configured to allocate the random access resource when there is data to be sent. Competitive access is performed on the resources indicated by the information.
  • the implementation functions of the units in the station shown in FIG. 15 can be understood by referring to the related description of the foregoing channel access method.
  • the functions of the units in the station shown in FIG. 15 can be realized by a program running on the processor, or can be realized by a specific logic circuit.
  • the disclosed method and smart device may be implemented in other manners.
  • the device embodiments described above are merely illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner such as: multiple units or components may be combined, or Can be integrated into another system, or some features can be ignored or not executed.
  • the coupling, or direct coupling, or communication connection of the components shown or discussed may be indirect coupling or communication connection through some interfaces, devices or units, and may be electrical, mechanical or other forms. of.
  • the units described above as separate components may or may not be physically separated, and the components displayed as the unit may or may not be physical units, that is, may be located in one place or distributed to multiple network units; Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one second processing unit, or each unit may be separately used as one unit, or two or more units may be integrated into one unit;
  • the above integrated unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
  • the present application discloses a channel access method, an access point, and a station, where the method includes: the access point sends a radio frame to the station, where the radio frame carries a base for indicating the access point.
  • the AP can support the multicast broadcast data of the BSS in the BSS set in the multiple BSSID scenario, and can make the resource indication manner of the BSS random access resource when using the multi-user transmission technology to be simple and effective.

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Abstract

本发明实施例公开了一种信道接入方法、接入点、站点,所述方法包括:接入点发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。

Description

一种信道接入方法、接入点、站点 技术领域
本发明实施例涉及但不限于无线通信技术,尤其涉及无线局域网中的一种信道接入方法、接入点、站点。
背景技术
随着无线局域网络(WLAN,Wireless Local Area Networks)产业的不断扩大,WLAN网络的负载也在不断加重,且随着用户数目的增多,密集网络场景造成WLAN网络效率明显下降,单纯提高传输速率并不能解决该问题,多用户并行传输作为解决网络效率的一种备选技术,引起了广泛关注和研究。
相关技术中,多用户并行传输技术包括多用户多入多出(MU-MIMO,Multi-User Multiple-Input Multiple-Output)技术、正交频分多址(OFDMA,Orthogonal Frequency Division Multiple Access)技术等。MU-MIMO利用空间复用技术提高了时间和频率的利用率。OFDMA技术的引入使得多个站点在整个带宽上频分复用,能更有效地利用站点间频率选择的结果来提高频谱利用率。
在WLAN中,多个非接入点站点(non-AP STA)同时向接入点(AP,Access Point)发送数据,一般称为上行多用户(UL MU,Up Link Multi-User)传输(用户等同于站点),AP同时给多个non-AP STA发送数据,称之为下行多用户(DL MU,Down Link Multi-User)传输。典型的上下行多用户传输一个帧交换序列如图1所示。
UL MU传输需要AP进行触发,例如:可以发送单独的触发帧来实现触发,或者采用在无线帧中携带触发信息域的方式实现触发。触发帧或者触发信息域中包括站点的调度信息,如站点的标识信息、站点进行上行传输所使用的时间和频率资源信息、站点的时频偏校准信息等。AP发送触发帧或触发信息域之后,站点接收触发帧或触发信息域,如果站点确定自身的标识信息携带在其中,则表示自身被调度在本次UL MU传输中,若自身有待发送数据, 则按照AP所指示的时频偏校准信息进行同步,在所分配的时间和频率资源上进行数据发送。
WLAN中,一个AP以及与该AP相关联的多个non-AP STA组成一个基本服务集(BSS,Basic Service Set)。一般情况下,一个AP建立一个BSS,该BSS的标识BSSID就是这个AP的介质访问控制(MAC,Media Access Control)地址。如果AP支持multiple BSSID(多BSSID)能力,则一个AP可以配置多个BSS,如图2所示。
那么,AP支持multiple BSSID能力的场景下,下行多用户传输时,如何对AP的BSS集合中的BSS的多播广播数据所占用的资源进行指示;AP触发BSS集合中的BSS下的站点进行上行多用户传输时,如何在触发时为站点分配信道接入资源,是亟待解决的技术问题。
发明内容
本发明实施例提供了一种信道接入方法、接入点、站点。
以下是对本文详细描述的主题的概述。本概述并非是为了限制权利要求的保护范围。
本发明实施例提供的信道接入方法应用于接入点,所述方法包括:
发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述预定标识的集合包括所述站点关联标识集合中的第0至m-1个值。
本发明实施例中,在所述发送无线帧给站点之前,所述方法还包括:设置所述预定标识与所述接入点的BBS集合中的BBS之间的对应关系。
本发明实施例中,在所述发送无线帧给站点之前,所述方法还包括:设 置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
本发明实施例中,通过以下方式获得所述部分预定标识:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算,其中,n为正整数。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的一个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的多BSS多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述方法还包括:
在发送所述无线帧之前,将m的取值通知所述站点。
本发明另一实施例提供的信道接入方法应用于站点,所述方法包括:
接收接入点发送的无线帧,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取预定标识的集合。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合中用于指示多BSS的预定标识。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
本发明实施例中,所述根据n值和/或特定值计算所述部分预定标识是指:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
本发明实施例中,所述方法还包括:
获取所述无线帧中的多播广播数据的资源分配信息;
当所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
本发明实施例中,所述方法还包括:
获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
所述多播广播数据包括:多播广播业务、或者广播帧、或者多播帧。
本发明实施例中,所述方法还包括:
获取所述无线帧中的随机接入资源的资源分配信息;
当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
本发明实施例中,所述方法还包括:
获取所述无线帧中的随机接入资源的资源分配信息;
当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
本发明实施例提供的接入点包括:
第一发送单元,设置为发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述预定标识的集合包括所述站点关联标识集合中的 第0至m-1个值。
本发明实施例中,所述接入点还包括:
第一预定单元,设置为设置所述预定标识与所述接入点的BBS集合中的BBS之间的对应关系。
本发明实施例中,所述接入点还包括:
第二预定单元,设置为设置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
本发明实施例中,通过以下方式获得所述部分预定标识:截取所述预定标识的n位;或者,将所述预定标识与特定值进行运算;或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;或者,将所述预定标识截取n位,并与特定值进行运算,其中,n为正整数。
本发明实施例中,所述接入点还包括:
第一指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的一个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第二指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第三指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第四指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第二发送单元,设置为在发送所述无线帧之前,将m的取值通知所述站点。
本发明实施例提供的站点包括:
接收单元,设置为接收接入点发送的无线帧,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述站点还包括:
第一获取单元,设置为在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述站点还包括:
第二获取单元,设置为在接收所述无线帧之前,获取预定标识的集合。
本发明实施例中,所述站点还包括:
第三获取单元,设置为在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
本发明实施例中,所述站点还包括:
第四获取单元,设置为在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合中用于指示多BSS的预定标识。
本发明实施例中,所述站点还包括:
第五获取单元,设置为在所述接收单元接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
本发明实施例中,所述第五获取单元根据n值和/或特定值计算所述部分预定标识,包括:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
本发明实施例中,所述站点还包括:
第六获取单元,设置为获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
本发明实施例中,所述站点还包括:
第七获取单元,设置为获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
所述多播广播数据包括:多播广播业务、或者广播帧、或者多播帧。
本发明实施例中,所述站点还包括:
第八获取单元,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;
第一接入单元,设置为当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
本发明实施例中,所述站点还包括:
第九获取单元,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;
第二接入单元,设置为当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
本发明实施例的技术方案中,接入点发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识;本申请中AP可支持multiple BSSID场景下的BSS集合中的BSS的多播广播数据,而且可使BSS的随机接入资源在使用多用户传输技术传输时的资源指示方式简单而有效。
在阅读并理解了附图和详细描述后,可以明白其他方面。
附图概述
图1为多用户并行传输帧交换示意图;
图2为一个AP建立多个BSS的示意图;
图3为本发明实施例的信道接入方法的流程示意图一;
图4为本发明实施例的信道接入方法的流程示意图二;
图5为本发明实施例一的标识指示示意图;
图6为本发明实施例一的另一标识指示示意图;
图7为本发明实施例二的标识指示示意图;
图8为本发明实施例二的另一标识指示示意图;
图9为本发明实施例三的标识指示示意图;
图10为本发明实施例四的标识指示示意图;
图11为本发明实施例五的标识指示示意图;
图12为本发明实施例六的标识指示示意图;
图13为本发明实施例七的标识指示示意图;
图14为本发明实施例的接入点的结构组成示意图;
图15为本发明实施例的站点的结构组成示意图。
本发明的实施方式
为了能够更加详尽地了解本发明实施例的特点与技术内容,下面结合附图对本发明实施例的实现进行详细阐述,所附附图仅供参考说明之用,并非用来限定本发明实施例。
如图2所示,所述多个BSS连同以AP的MAC地址为BSSID的BSS组成AP的BSS集合,该集合中的每个BSS可以分别进行服务和安全策略设置。在工业、科学和医疗(ISM,Industrial Scientific Medical)免许可频段完全不交叠的信道数量较少,每个AP如果单独建立BSS,根据尽量不与其他AP信道重叠的原则,可用信道较少,AP之间会形成较大同频及邻频干扰。当允许一个AP配置多个BSS时,相当于相同的信道可以被多个BSS使用,减少了干扰。另外,BSS集合中的多个BSS分别进行服务和安全策略设置,能够满足企业级布网需求,例如可以将访客使用的BSS的安全策略设置为有线等效保密(WEP,Wired Equivalent Privacy),将企业内部员工使用的BSS的安全策略设置为Wi-Fi网络安全接入2(WPA2,Wi-Fi Protected Access2)等。多个BSS实际对应的是一个物理AP,该AP在信标帧(Beacon)中广播自己的BSS集合的参数集,对于BSS集合中的每个BSS,BSS参数集包括该BSS的BSSID、SSID、能力信息等。
图3为本发明实施例的信道接入方法的流程示意图一,本示例中的信道接入方法应用于接入点,如图3所示,所述信道接入方法包括以下步骤:
步骤301:发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述预定标识的集合包括所述站点关联标识集合中的第0至m-1个值。
本发明实施例中,所述方法还包括:
在所述发送无线帧给站点之前,如图3所示,所述方法还包括:
步骤300:设置所述预定标识与所述接入点的BBS集合中的BBS之间的 对应关系。
本发明实施例中,所述方法还包括:
在所述发送无线帧给站点之前,所述方法还包括:设置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
本发明实施例中,通过以下方式获得所述部分预定标识:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算,其中,n为正整数。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的一个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的多BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述方法还包括:
当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多 BSS的部分预定标识进行指示。
本发明实施例中,所述方法还包括:
在发送所述无线帧之前,将m的取值通知所述站点。
图4为本发明实施例的信道接入方法的流程示意图二,本示例中的信道接入方法应用于站点,如图4所示,所述信道接入方法包括以下步骤:
步骤401:接收接入点发送的无线帧,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,如图4所示,所述方法还包括:
步骤400:在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取预定标识的集合。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合中用于指示多BSS的预定标识。
本发明实施例中,所述方法还包括:
在接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
所述根据n值和/或特定值计算所述部分预定标识是指:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
本发明实施例中,所述方法还包括:
获取所述无线帧中的多播广播数据的资源分配信息;
当所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
本发明实施例中,所述方法还包括:
获取所述无线帧中的多播广播数据的资源分配信息;
当所述多播广播数据的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
本发明实施例中,所述方法还包括:
获取所述无线帧中的随机接入资源的资源分配信息;
当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
所述多播广播数据包括:多播广播业务、或者广播帧、或者多播帧。
本发明实施例中,所述方法还包括:
获取所述无线帧中的随机接入资源的资源分配信息;
当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
以下结合具体应用场景对本发明实施例做进一步说明,应当理解,此处所描述的实施例仅用于说明和解释本发明,并不用于限定本发明。在不冲突的情况下,本申请中的实施例及实施例中的特征可以相互组合。
场景一
本场景中,AP在自己发送的Beacon和Probe Response帧中通知自己支持multiple BSSID能力,并且在Beacon和Probe Response帧中携带自己的BSS参数集。站点关联到AP的BSS集合中的某个BSS上,并在关联过程中由AP向站点分配一个关联标识AID。
由于AP支持multiple BSSID能力,AP通知站点m的取值,并在站点关联标识AID集合中预留出m个值作为AP的BSS集合中的BSS的预定标识。其中,一个值作为多BSS标识,其余m-1个值分别用于指示AP的BSS集合中的每个BSS。所谓多BSS标识,即该标识对应于AP的BSS集合中的所有BSS。AP可以直接将m的取值通知站点,也可以将计算m的必要参数通知站点,计算m的方法为AP与站点之间预定的算法。
AP可以在关联标识集合中任意选出m个值作为预定标识,但需要将所选出的值通知给站点。AP也可以默认预留站点关联标识集合中的固定位置的值作为预定标识,一种简单的实现方法是,AP默认预留站点关联标识集合中第0个~第m-2个值(共m-1个值)作为每个BSS的预定标识,第m-1个值作为多BSS标识;其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。另一种简单的实现方法是,AP默认预留站点关联标识集合中第0个~第m-2个值(共m-1个值)作为每个BSS的预定标识,站点关联标识集合中的最后一个值作为多BSS标识。
AP需要通知预定标识和BSS集合中的各BSS的对应关系,一种简单的实现方式是,在配置多BSS的参数时,为每个BSS分配序号,按照序号递增的次序,其对应的预定标识也依次递增即可。AP只需要通知站点每个BSS的序号,站点就能得知该BSS的预定标识是什么。以下是一个例子:
假设m取值为16,AP在AID空间中预留前m个值,即前16个AID用于指示BSS集合中的BSS。其中,前15个AID对应于BSS集合中的每个BSS,第16个AID作为多BSS标识。AP当前配置了4个BSS,AP以自己的MAC地址为BSSID建立一个BSS,即:BSS0,另外配置三个BSS:BSS1,BSS2和BSS3,分别为其配置BSSID和SSID,以及其他能力信息参数。其BSS的序号分别是0,1,2,3。AP通知m的取值,以及BSS集合中的BSS的参数,包括各BSS的BSSID,以及BSS的序号。
与BSS1关联的一个站点获取了m,也就获得了预定标识的集合。站点所关联的BSS1的序号是1,则也就获知了BSS1的预定标识是AID集合中的第一个值,即AID1。第16个AID,即AID15用于多BSS标识。
AP使用下行多用户传输方式发送多个BSS的多播广播数据,例如使用OFDMA方式将多个BSS的多播广播数据并行发送。具体来说,多播广播数据可以是BSS的多播广播业务,或者是BSS的广播帧,或者多播帧。
如图5所示,AP将BSS0的多播广播业务和BSS1的多播广播业务并行发送,则AP在当前帧的物理层信令域中的资源分配信息中使用BSS0和BSS1的预定标识,分别是:AID0和AID1(或者AID0和AID1的部分预定标识)指示BSS0和BSS1的多播广播资源。此外,AP还在物理层信令域中使用了站点x和站点y的关联标识指示其需要接收的下行数据。属于BSS0的站点在收到无线帧后,通过解析物理层信令域中的资源分配信息,获取标识AID0,得知资源分配信息中携带了BSS0的多播广播业务占用的资源,从而进一步在对应的资源上接收BSS0的多播广播业务。BSS1的站点的操作与此类似。
AID0或AID1的部分预定标识是截取AID0和AID1的n位得到的,或者将AID0和AID1与特定值进行某种运算得到,或者先将AID0和AID1与特定值进行某种运算,再截取n位得到,或者先截取n位,再进行特定运算得到。如果要使用AID0或AID1的部分预定标识进行资源指示,则需要将特定值和/或n值也通知站点;其中,n为正整数。
同样的,如图6所示,AP使用下行多用户方式为BSS0和BSS1的站点发送广播触发帧时,也使用AID0和AID1标识相应的资源分配信息,属于BSS0的站点解析出预定标识,则获知自己的BSS:BSS0的广播信息的资源位置,然后在对应的资源上接收触发帧。属于BSS1的站点的操作与此类似。
场景二
类似上述实施例场景,假设m取值为16,AP在AID空间中预留前16个AID用于指示BSS集合中的BSS。其中,前15个AID对应于BSS集合中的每个BSS,第16个AID作为多BSS标识。AP当前配置了4个BSS,AP以自己的MAC地址为BSSID建立一个BSS:BSS0,另外配置三个BSS:BSS1, BSS2和BSS3,分别为其配置BSSID和SSID,以及其他能力信息参数。其BSS的序号分别是0,1,2,3。AP通知m的取值,以及BSS集合中的BSS的参数,包括各BSS的BSSID,以及BSS的序号。
与BSS1关联的一个站点获取了m,也就获得了预定标识的集合。站点所关联的BSS1的序号是1,则也就获知了BSS1的预定标识是AID集合中的第一个值,AID1。第16个AID,即AID15用于多BSS标识。
本实施例中,AP使用OFDMA方式发送的多播广播数据,所谓的多播广播数据,即AP的BSS集合内的所有BSS:BSS0~BSS3下的站点均需要接收的的多播广播数据,可以是多播广播业务,或者是触发站点进行上行传输的无线帧(或简称为触发帧)。
如图7所示,AP发送BSS0~BSS3的站点均需要接收的多播广播业务,则AP在当前帧的物理层信令域中的资源分配信息中使用多BSS的预定标识:AID15(或AID15的部分预定标识)进行资源指示。属于BSS0~BSS3的站点在收到无线帧后,通过解析物理层信令域中的资源分配信息,获取标识为AID15,得知资源分配信息所分配的资源是需要自己接收的多播广播业务占用的资源,从而进一步在对应的资源上接收多播广播业务。此实施例中,下行同时还发送了站点x和站点y的下行数据,这里,站点x和站点y表示两个不同的站点。则在AP发送请求确认帧后,这两个站点以上行MU方式并行发送确认帧。
同样地,如图8所示,AP发送触发BSS0~BSS3下的站点进行上行多用户传输的触发帧,AP在当前帧的物理层信令域中的资源分配信息中使用多BSS的预定标识:AID15进行资源指示。属于BSS0~BSS3的站点在收到无线帧后,通过解析物理层信令域中的资源分配信息,获取标识为AID15,得知资源分配信息所分配的资源上存在需要接收的触发帧,从而执行接收。
场景三
类似上述实施例场景,AP在AID空间中预留前16个AID用于指示BSS集合中的BSS。其中,前15个AID对应于BSS集合中的每个BSS,第16个AID作为多BSS标识。AP当前配置了4个BSS,BSS0,BSS1,BSS2和BSS3, 分别为其配置BSSID和SSID,以及其他能力信息参数。其BSS的序号分别是0,1,2,3。AP通知m的取值,以及BSS集合中的BSS的参数,包括各BSS的BSSID,以及BSS的序号。
本实施例场景中,如图9所示,AP在触发帧中的资源分配信息中,使用各BSS的预定标识来指示该BSS的随机接入资源,例如对BSS0,使用AID0(或AID0的部分预定标识)来标识该BSS的随机接入资源。则属于BSS0的站点收到触发帧,解析帧中的资源分配信息,当资源分配信息中的标识是自己所关联的BSS的预定标识,当有数据待发时,在随机接入资源分配信息指示的资源上进行竞争接入。本实施例中,AP在触发帧中还携带了BSS0的STA1的站点关联标识,则STA1根据AP的指示,以多用户并行方式进行上行数据传输。
场景四
本场景中,如图10所示,AP在触发帧中的资源分配信息中,使用多BSS的预定标识,AID15(或AID15的部分)来指示该AP的BSS集合中的所有BSS的站点均可接入的随机接入资源,则属于各BSS的站点收到触发帧,解析帧中的资源分配信息,当资源分配信息中的标识是多BSS的预定标识时,当有数据待发时,均可在随机接入资源分配信息指示的资源上进行竞争接入,竞争成功的站点占用此资源发送上行数据。
场景五
本场景中,如图11所示,AP在触发帧中的资源分配信息中,使用各BSS的预定标识来指示该AP的BSS集合中的各个BSS的随机接入资源,则属于各BSS的站点收到触发帧,解析帧中的资源分配信息,资源分配信息中的标识是各BSS的预定标识时,当有数据待发时,各BSS下的站点在各自BSS的随机接入资源分配信息指示的资源上进行竞争接入。
场景六
本场景中,如图12所示,AP发送触发帧,触发上行多用户传输,触发帧采用下行单用户方式进行发送,则该帧的物理层信令域中携带BSS标识信息,例如BSS颜色识别码(BSS color),以指示站点当前帧是否是本BSS的 帧。当是本BSS的帧时,站点继续接收该帧。
触发帧的资源分配信息中使用的预定标识AID15(或AID15的部分)来指示该AP的BSS集合中的所有BSS的站点均可接入的随机接入资源,则属于各BSS的站点读取到资源分配信息中的标识是的预定标识时,当有数据待发时,均可在随机接入资源分配信息指示的资源上进行竞争接入,竞争成功的站点占用此资源发送上行数据。
场景七
本场景中,如图13所示,AP发送触发帧,触发上行多用户传输,触发帧采用下行单用户方式进行发送,则该帧的物理层信令域中携带BSS color,指示站点当前帧是否是本BSS的帧。当是本BSS的帧时,站点继续接收该帧。
触发帧的资源分配信息中使用各BSS的预定标识来指示该AP的BSS集合中的各个BSS的随机接入资源,则属于各BSS的站点收到触发帧,解析帧中的资源分配信息,资源分配信息中的标识是各BSS的预定标识时,当有数据待发时,各BSS下的站点在各自BSS的随机接入资源分配信息指示的资源上进行竞争接入。
基于上述方法实施例的描述,下面对实现上述方法的设备实施例进行相应描述。
图14为本发明实施例的接入点的结构组成示意图,本发明实施例提供的接入点具有多个不同基本服务集,如图14所示,所述接入点包括:
第一发送单元11,设置为发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述预定标识的集合包括所述站点关联标识集合中的第0至m-1个值。
本发明实施例中,所述接入点还包括:
第一预定单元12,设置为设置所述预定标识与所述接入点的BBS集合中的BBS之间的对应关系。
本发明实施例中,所述接入点还包括:
第二预定单元13,设置为设置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
本发明实施例中,通过以下方式获得所述部分预定标识:截取所述预定标识的n位;或者,将所述预定标识与特定值进行运算;或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;或者,将所述预定标识截取n位,并与特定值进行运算,其中,n为正整数。
本发明实施例中,所述接入点还包括:
第一指示单元14,设置为当所述无线帧携带所述接入点的BSS集合中的一个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第二指示单元15,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第三指示单元16,设置为当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第四指示单元17,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
本发明实施例中,所述接入点还包括:
第二发送单元18,设置为在发送所述无线帧之前,将m的取值通知所述站点。
本领域技术人员应当理解,图14所示的接入点中的各单元的实现功能可参照前述信道接入方法的相关描述而理解。图14所示的接入点中的各单元的功能可通过运行于处理器上的程序而实现,也可通过具体的逻辑电路而实现。
图15为本发明实施例的站点的结构组成示意图,如图15所示,所述站点包括:
接收单元21,设置为接收接入点发送的无线帧,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
本发明实施例中,所述站点还包括:
第一获取单元22,设置为在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
本发明实施例中,所述站点还包括:
第二获取单元23,设置为在接收所述无线帧之前,获取预定标识的集合。
本发明实施例中,所述站点还包括:
第三获取单元24,设置为在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
本发明实施例中,所述站点还包括:
第四获取单元25,设置为在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合中用于指示多BSS的预定标识。
本发明实施例中,所述站点还包括:
第五获取单元26,设置为在接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
所述根据n值和/或特定值计算所述部分预定标识是指:
截取所述预定标识的n位;
或者,将所述预定标识与特定值进行运算;
或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
本发明实施例中,所述站点还包括:
第六获取单元27,设置为获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
本发明实施例中,所述站点还包括:
第七获取单元28,设置为获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
所述多播广播数据包括:多播广播业务、或者广播帧、或者多播帧。
本发明实施例中,所述站点还包括:
第八获取单元29,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;
第一接入单元210,设置为当有数据待发时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
本发明实施例中,所述站点还包括:
第九获取单元211,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;
第二接入单元212,设置为当有数据待发时,在所述随机接入资源分配 信息指示的资源上进行竞争接入。
本领域技术人员应当理解,图15所示的站点中的各单元的实现功能可参照前述信道接入方法的相关描述而理解。图15所示的站点中的各单元的功能可通过运行于处理器上的程序而实现,也可通过具体的逻辑电路而实现。
本发明实施例所记载的技术方案之间,在不冲突的情况下,可以任意组合。
在本发明所提供的几个实施例中,应该理解到,所揭露的方法和智能设备,可以通过其它的方式实现。以上所描述的设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,如:多个单元或组件可以结合,或可以集成到另一个系统,或一些特征可以忽略,或不执行。另外,所显示或讨论的各组成部分相互之间的耦合、或直接耦合、或通信连接可以是通过一些接口,设备或单元的间接耦合或通信连接,可以是电性的、机械的或其它形式的。
上述作为分离部件说明的单元可以是、或也可以不是物理上分开的,作为单元显示的部件可以是、或也可以不是物理单元,即可以位于一个地方,也可以分布到多个网络单元上;可以根据实际的需要选择其中的部分或全部单元来实现本实施例方案的目的。
另外,在本发明各实施例中的各功能单元可以全部集成在一个第二处理单元中,也可以是各单元分别单独作为一个单元,也可以两个或两个以上单元集成在一个单元中;上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。
以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。
工业实用性
本申请公开了一种信道接入方法、接入点、站点,所述方法包括:接入点发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基 本服务集BSS集合中的BSS的预定标识或者部分预定标识。本申请中AP可支持multiple BSSID场景下的BSS集合中的BSS的多播广播数据,而且可使BSS的随机接入资源在使用多用户传输技术传输时的资源指示方式简单而有效。

Claims (43)

  1. 一种信道接入方法,应用于接入点,所述方法包括:
    发送无线帧给站点;
    其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
  2. 根据权利要求1所述的信道接入方法,其中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
  3. 根据权利要求2所述的信道接入方法,其中,所述预定标识的集合包括所述站点关联标识集合中的第0至m-1个值。
  4. 根据权利要求1所述的信道接入方法,在所述发送无线帧给站点之前,所述方法还包括:
    设置所述预定标识与所述接入点的BBS集合中的BBS之间的对应关系。
  5. 根据权利要求1所述的信道接入方法,在所述发送无线帧给站点之前,所述方法还包括:
    设置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS指所述BSS集合中的所有BSS。
  6. 根据权利要求1至5中任一项所述的信道接入方法,所述方法还包括:
    当所述无线帧携带所述接入点的BSS集合中的一个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
  7. 根据权利要求1至5中任一项所述的信道接入方法,所述方法还包括:
    当所述无线帧携带所述接入点的BSS集合中的多BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
  8. 根据权利要求1至5中任一项所述的信道接入方法,所述方法还包括:
    当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
  9. 根据权利要求1至5中任一项所述的信道接入方法,其中,所述方法还包括:
    当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
  10. 根据权利要求2或3所述的信道接入方法,所述方法还包括:
    在发送所述无线帧之前,将所述m的取值通知所述站点。
  11. 一种信道接入方法,应用于站点,所述方法包括:
    接收接入点发送的无线帧;
    其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
  12. 根据权利要求11所述的信道接入方法,所述方法还包括:
    在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为站点关联标识集合中的站点关联标识的最大个数。
  13. 根据权利要求11所述的信道接入方法,所述方法还包括:
    在接收所述无线帧之前,获取所述预定标识的集合。
  14. 根据权利要求11所述的信道接入方法,所述方法还包括:
    在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
  15. 根据权利要求11所述的信道接入方法,所述方法还包括:
    在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合 中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
  16. 根据权利要求11所述的信道接入方法,所述方法还包括:
    在接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
  17. 根据权利要求16所述的信道接入方法,所述根据n值和/或特定值计算所述部分预定标识,包括:
    截取所述预定标识的n位;
    或者,将所述预定标识与特定值进行运算;
    或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
    或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
  18. 根据权利要求11至17中任一项所述的信道接入方法,所述方法还包括:
    获取所述无线帧中的多播广播数据的资源分配信息;
    当所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
  19. 根据权利要求11至17中任一项所述的信道接入方法,所述方法还包括:
    获取所述无线帧中的多播广播数据的资源分配信息;
    当所述多播广播数据的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
  20. 根据权利要求18或19所述的信道接入方法,所述多播广播数据包括:多播广播业务、或者广播帧、或者多播帧。
  21. 根据权利要求11至17中任一项所述的信道接入方法,所述方法还包括:
    获取所述无线帧中的随机接入资源的资源分配信息;
    当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;当有数据待发送时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
  22. 根据权利要求11至17中任一项所述的信道接入方法,所述方法还包括:
    获取所述无线帧中的随机接入资源的资源分配信息;
    当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;当有数据待发送时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
  23. 一种接入点,所述接入点包括:
    第一发送单元,设置为发送无线帧给站点,其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
  24. 根据权利要求23所述的接入点,其中,所述预定标识的集合是站点关联标识集合的子集,所述预定标识的集合中的预定标识的个数最多为m个,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
  25. 根据权利要求24所述的接入点,其中,所述预定标识的集合包括所述站点关联标识集合中的第0至m-1个值。
  26. 根据权利要求23所述的接入点,所述接入点还包括:
    第一预定单元,设置为设置所述预定标识与所述接入点的BBS集合中的BBS之间的对应关系。
  27. 根据权利要求23所述的接入点,所述接入点还包括:
    第二预定单元,设置为设置所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
  28. 根据权利要求23至27中任一项所述的接入点,所述接入点还包括:
    第一指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的一 个BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
  29. 根据权利要求23至27中任一项所述的接入点,所述接入点还包括:
    第二指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的多播广播数据的资源分配信息时,所述多播广播数据的资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
  30. 根据权利要求23至27中任一项所述的接入点,所述接入点还包括:
    第三指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的一个BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用该BSS的预定标识或部分预定标识进行指示。
  31. 根据权利要求23至27中任一项所述的接入点,所述接入点还包括:
    第四指示单元,设置为当所述无线帧携带所述接入点的BSS集合中的多BSS的随机接入资源的资源分配信息时,所述随机接入资源分配信息使用多BSS的预定标识或多BSS的部分预定标识进行指示。
  32. 根据权利要求24或25所述的接入点,所述接入点还包括:
    第二发送单元,设置为在发送所述无线帧之前,将所述m的取值通知所述站点。
  33. 一种站点,所述站点包括:
    接收单元,设置为接收接入点发送的无线帧;
    其中,所述无线帧中携带有用于指示所述接入点的基本服务集BSS集合中的BSS的预定标识或者部分预定标识。
  34. 根据权利要求33所述的站点,所述站点还包括:
    第一获取单元,设置为在接收所述无线帧之前,获取所述接入点发送的m值,所述m值表示预定标识的集合中的预定标识的最多个数,其中,m为小于等于s的正整数,s为所述站点关联标识集合中的站点关联标识的最大个数。
  35. 根据权利要求33所述的站点,所述站点还包括:
    第二获取单元,设置为在接收所述无线帧之前,获取所述预定标识的集合。
  36. 根据权利要求33所述的站点,所述站点还包括:
    第三获取单元,设置为在接收所述无线帧之前,获取所述预定标识与所述接入点的BSS集合中的BSS的对应关系。
  37. 根据权利要求33所述的站点,所述站点还包括:
    第四获取单元,设置为在接收所述无线帧之前,获取所述接入点发送的在所述预定标识的集合中用于指示多BSS的预定标识,所述多BSS是指所述BSS集合中的所有BSS。
  38. 根据权利要求37所述的站点,其中,所述站点还包括:
    第五获取单元,设置为在所述接收单元接收所述无线帧之前,获取用于计算所述部分预定标识的n值和/或特定值,并根据n值和/或特定值计算所述部分预定标识,其中,n为正整数。
  39. 根据权利要求38所述的站点,其中,所述第五获取单元根据n值和/或特定值计算所述部分预定标识,包括:
    截取所述预定标识的n位;
    或者,将所述预定标识与特定值进行运算;
    或者,将所述预定标识与特定值进行运算,并对运算结果截取n位;
    或者,将所述预定标识截取n位,并与特定值进行运算;其中,n为正整数。
  40. 根据权利要求33至39中任一项所述的站点,所述站点还包括:
    第六获取单元,设置为获取所述无线帧中的多播广播数据的资源分配信息;确定所述多播广播数据的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述多播广播数据。
  41. 根据权利要求33至39中任一项所述的站点,其中,所述站点还包 括:
    第七获取单元,设置为获取所述无线帧中的多播广播数据的资源分配信息;当所述多播广播数据的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述多播广播数据。
  42. 根据权利要求33至39中任一项所述的站点,所述站点还包括:
    第八获取单元,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述站点关联的BSS的预定标识或部分预定标识时,获取所述随机接入资源分配信息;
    第一接入单元,设置为当有数据待发送时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
  43. 根据权利要求33至39中任一项所述的站点,所述站点还包括:
    第九获取单元,设置为获取所述无线帧中的随机接入资源的资源分配信息;当所述随机接入资源的资源分配信息中的标识信息是所述多BSS的预定标识或多BSS的部分预定标识时,获取所述随机接入资源分配信息;
    第二接入单元,设置为当有数据待发送时,在所述随机接入资源分配信息指示的资源上进行竞争接入。
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