WO2024065461A1 - 多链路通信的方法及设备 - Google Patents

多链路通信的方法及设备 Download PDF

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Publication number
WO2024065461A1
WO2024065461A1 PCT/CN2022/122814 CN2022122814W WO2024065461A1 WO 2024065461 A1 WO2024065461 A1 WO 2024065461A1 CN 2022122814 W CN2022122814 W CN 2022122814W WO 2024065461 A1 WO2024065461 A1 WO 2024065461A1
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WIPO (PCT)
Prior art keywords
mld
link
affiliated
field
links
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Ceased
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PCT/CN2022/122814
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English (en)
French (fr)
Chinese (zh)
Inventor
卢刘明
罗朝明
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Application filed by Guangdong Oppo Mobile Telecommunications Corp Ltd filed Critical Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority to EP22960098.6A priority Critical patent/EP4598255A1/en
Priority to PCT/CN2022/122814 priority patent/WO2024065461A1/zh
Priority to CN202280100578.7A priority patent/CN119949007A/zh
Priority to JP2025517692A priority patent/JP2025531450A/ja
Publication of WO2024065461A1 publication Critical patent/WO2024065461A1/zh
Priority to US19/087,813 priority patent/US20250220752A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/15Setup of multiple wireless link connections
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W60/00Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration
    • H04W60/02Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration by periodical registration
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/11Allocation or use of connection identifiers
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W84/00Network topologies
    • H04W84/02Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
    • H04W84/10Small scale networks; Flat hierarchical networks
    • H04W84/12WLAN [Wireless Local Area Networks]

Definitions

  • the embodiments of the present application relate to the field of communications, and more specifically, to a method and device for multi-link communications.
  • non-AP MLD non-access point multi-link device
  • AP MLD access point multi-link device
  • the embodiments of the present application provide a method and device for multi-link communication, which can ensure that the actual communication state of the link is consistent with the link enablement state.
  • a multi-link communication method comprising:
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated access point AP corresponding to each of the M links to be established; where M is a positive integer.
  • a multi-link communication method comprising:
  • the AP MLD receives a first association request frame or a second association request frame through an AP to which it is affiliated;
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD-affiliated non-AP STA in the M links within the reachable communication range of the AP MLD-affiliated AP;
  • the second association request frame is used to request the establishment of M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled;
  • M is a positive integer.
  • a multi-link communication method comprising:
  • the non-AP MLD manages the N established links based on the communication reachability between the non-AP MLD-affiliated non-AP STAs corresponding to each of the N links and the AP MLD-affiliated access points AP, where N is a positive integer.
  • a multi-link communication method comprising:
  • AP MLD manages the N established links based on the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to each of the N links, where N is a positive integer.
  • a non-AP MLD is provided for executing the method in the first aspect.
  • the non-AP MLD includes a functional module for executing the method in the above-mentioned first aspect.
  • an AP MLD is provided for executing the method in the second aspect above.
  • the AP MLD includes a functional module for executing the method in the above-mentioned second aspect.
  • a non-AP MLD is provided for executing the method in the third aspect.
  • the non-AP MLD includes a functional module for executing the method in the above-mentioned third aspect.
  • an AP MLD is provided for executing the method in the fourth aspect.
  • the AP MLD includes functional modules for executing the method in the fourth aspect above.
  • a non-AP MLD comprising a processor and a memory; the memory is used to store a computer program, and the processor is used to call and run the computer program stored in the memory, so that the non-AP MLD executes the method in the first aspect above.
  • an AP MLD comprising a processor and a memory; the memory is used to store a computer program, and the processor is used to call and run the computer program stored in the memory, so that the AP MLD executes the method in the above second aspect.
  • a non-AP MLD comprising a processor and a memory; the memory is used to store a computer program, and the processor is used to call and run the computer program stored in the memory, so that the non-AP MLD executes the method in the third aspect above.
  • an AP MLD comprising a processor and a memory; the memory is used to store a computer program, and the processor is used to call and run the computer program stored in the memory, so that the AP MLD executes the method in the fourth aspect above.
  • a device for implementing the method in any one of the first to fourth aspects above.
  • the apparatus includes: a processor, configured to call and run a computer program from a memory, so that a device equipped with the apparatus executes the method in any one of the first to fourth aspects described above.
  • a computer-readable storage medium for storing a computer program, wherein the computer program enables a computer to execute the method in any one of the first to fourth aspects above.
  • a computer program product comprising computer program instructions, wherein the computer program instructions enable a computer to execute the method in any one of the first to fourth aspects above.
  • a computer program which, when executed on a computer, enables the computer to execute the method in any one of the first to fourth aspects above.
  • non-AP MLD initiates the establishment of multiple links with AP MLD according to the communication reachability between non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP corresponding to each of the M links to be established; and/or, non-AP MLD manages N links according to the communication reachability between non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP corresponding to each of the N established links; and/or, AP MLD manages N links according to the communication reachability between AP MLD-affiliated AP and non-AP MLD-affiliated non-AP STA corresponding to each of the N established links. This ensures that the actual communication state of the link is consistent with the link enablement state.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, so as to reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, so as to ensure that the actual communication status of the links is consistent with the link enablement status.
  • the non-AP MLD sets the enabled link in the N links where the communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable to the disabled state, or the non-AP MLD deletes the link in the N links where the communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • the AP MLD sets the enabled link in the N links where communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable to the disabled state, or the AP MLD deletes the link in the N links where communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG1 is a schematic diagram of a communication system architecture applied in an embodiment of the present application.
  • Figure 2 is a schematic diagram provided by the present application of a non-AP MLD obtaining information about an AP MLD and each affiliated AP of interest.
  • FIG3 is a schematic flowchart of a multi-link communication method provided according to an embodiment of the present application.
  • FIG4 is a schematic flowchart of a multi-link establishment provided according to an embodiment of the present application.
  • FIG5 is a schematic diagram of a site control domain provided according to an embodiment of the present application.
  • FIG6 is a schematic flowchart of another multi-link establishment provided according to an embodiment of the present application.
  • FIG. 7 is a schematic diagram of another site control domain provided according to an embodiment of the present application.
  • FIG8 is a schematic diagram of yet another site control domain provided according to an embodiment of the present application.
  • FIG. 9 is a schematic diagram of a site information domain provided according to an embodiment of the present application.
  • FIG10 is a schematic diagram of a maximum idle time period information field during link enablement provided according to an embodiment of the present application.
  • FIG11 is a schematic diagram of an idle option subfield during link enablement according to an embodiment of the present application.
  • FIG. 12 is a schematic diagram of an existence bitmap subdomain provided according to an embodiment of the present application.
  • FIG. 13 is a schematic diagram of a general information domain provided according to an embodiment of the present application.
  • FIG14 is a schematic flowchart of multi-link management provided according to an embodiment of the present application.
  • FIG. 15 is a schematic flowchart of another multi-link management provided according to an embodiment of the present application.
  • FIG. 16 is a schematic flowchart of another multi-link communication method provided according to an embodiment of the present application.
  • FIG. 17 is a schematic flowchart of yet another multi-link management provided according to an embodiment of the present application.
  • FIG. 18 is a schematic flowchart of yet another multi-link management provided according to an embodiment of the present application.
  • FIG. 19 is a schematic flowchart of yet another multi-link communication method provided according to an embodiment of the present application.
  • FIG. 20 is a schematic flowchart of yet another multi-link communication method provided according to an embodiment of the present application.
  • Figure 21 is a schematic block diagram of a non-AP MLD provided according to an embodiment of the present application.
  • Figure 22 is a schematic block diagram of an AP MLD provided according to an embodiment of the present application.
  • Figure 23 is a schematic block diagram of another non-AP MLD provided according to an embodiment of the present application.
  • Figure 24 is a schematic block diagram of another AP MLD provided according to an embodiment of the present application.
  • Figure 25 is a schematic block diagram of a communication device provided according to an embodiment of the present application.
  • FIG. 26 is a schematic block diagram of a device provided according to an embodiment of the present application.
  • Figure 27 is a schematic block diagram of a communication system provided according to an embodiment of the present application.
  • WLAN Wireless Local Area Networks
  • WiFi Wireless Fidelity
  • the wireless communication system may include: an access point (Access Point, AP) and a station (Station, STA).
  • AP Access Point
  • STA station
  • AP can be called AP STA, that is, in a sense, AP is also a STA. In some scenarios, STA is called non-AP STA.
  • STA may include AP STA and non-AP STA.
  • the communication in the communication system may be communication between AP and non-AP STA, communication between non-AP STA and non-AP STA, or communication between STA and peer STA.
  • Peer STA may refer to a device that communicates with the STA peer.
  • peer STA may be an AP or a non-AP STA.
  • AP is equivalent to a bridge connecting wired network and wireless network. Its main function is to connect various wireless network clients together and then connect the wireless network to Ethernet.
  • AP devices can be terminal devices (such as mobile phones) or network devices (such as routers) with wireless fidelity (WIFI) chips.
  • WIFI wireless fidelity
  • the role of STA in the communication system is not absolute.
  • the mobile phone when a mobile phone is connected to a router, the mobile phone is a non-AP STA.
  • the mobile phone plays the role of an AP.
  • APs and non-AP STAs can be devices used in Internet of Vehicles, IoT nodes and sensors in the Internet of Things (IoT), smart cameras, smart remote controls, smart water and electricity meters in smart homes, and sensors in smart cities.
  • IoT Internet of Things
  • non-AP STA can support 802.11be.
  • Non-AP STA can also support 802.11ax, 802.11ac, 802.11n, 802.11g, 802.11b and 802.11a and other current and future 802.11 family wireless LAN standards.
  • the AP may be a device supporting the 802.11be standard.
  • the AP may also be a device supporting various current and future 802.11 family WLAN standards such as 802.11ax, 802.11ac, 802.11n, 802.11g, 802.11b and 802.11a.
  • STA can be a mobile phone (Mobile Phone), tablet computer (Pad), computer, virtual reality (VR) device, augmented reality (AR) device, wireless device in industrial control (industrial control), set-top box, wireless device in self-driving, vehicle-mounted communication equipment, wireless device in remote medical, wireless device in smart grid (smart grid), wireless device in transportation safety (transportation safety), wireless device in smart city (smart city) or wireless device in smart home (smart home), wireless communication chip, ASIC (Application Specific Integrated Circuit), SOC (System on Chip), etc. that supports WLAN/WIFI technology.
  • the frequency bands supported by WLAN technology may include but are not limited to: low frequency bands (2.4 GHz, 5 GHz, 6 GHz) and high frequency bands (45 GHz, 60 GHz).
  • the station and the access point support multi-band communication. For example, communicating on the 2.4 GHz, 5 GHz, 6 GHz, 45 GHz, and 60 GHz bands at the same time, or communicating on different channels of the same band (or different bands) at the same time, improves the communication throughput and/or reliability between devices.
  • a device is generally called a multi-band device, or a multi-link device (Multi-Link Device, MLD), sometimes also referred to as a multi-link entity or a multi-band entity.
  • MLD multi-link device
  • a multi-link device can be an access point device or a station device. If the multi-link device is an access point device, the multi-link device contains one or more APs; if the multi-link device is a station device, the multi-link device contains one or more non-AP STAs.
  • a multi-link device including one or more APs can be called an AP, and a multi-link device including one or more non-AP STAs can be called a Non-AP.
  • an AP may include multiple APs
  • a Non-AP may include multiple STAs
  • multiple links may be formed between the APs in the AP and the STAs in the Non-AP
  • data communication may be performed between the APs in the AP and the corresponding STAs in the Non-AP through corresponding links.
  • the AP is a device deployed in a wireless local area network to provide wireless communication functions for STA.
  • the site may include: User Equipment (UE), access terminal, user unit, user station, mobile station, mobile station, remote station, remote terminal, mobile device, wireless communication device, user agent or user device.
  • the site can also be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a Wireless Local Loop (WLL) station, a Personal Digital Assistant (PDA), a handheld device with wireless communication function, a computing device or other processing device connected to a wireless modem, a vehicle-mounted device, a wearable device, and the embodiments of the present application are not limited to this.
  • both the station and the access point support the IEEE 802.11 standard.
  • the "indication" mentioned in the embodiments of the present application can be a direct indication, an indirect indication, or an indication of an association relationship.
  • a indicates B which can mean that A directly indicates B, for example, B can be obtained through A; it can also mean that A indirectly indicates B, for example, A indicates C, and B can be obtained through C; it can also mean that there is an association relationship between A and B.
  • corresponding may indicate a direct or indirect correspondence between two items, or an association relationship between the two items, or a relationship between indication and being indicated, configuration and being configured, and the like.
  • pre-definition or “pre-configuration” can be implemented by pre-saving corresponding codes, tables or other methods that can be used to indicate relevant information in a device (for example, including STA and network equipment), and the present application does not limit the specific implementation method.
  • pre-definition can refer to what is defined in the protocol.
  • the "protocol” may refer to a standard protocol in the communication field, for example, it may include a WiFi protocol and related protocols used in future WiFi communication systems, and the present application does not limit this.
  • Wireless devices support multi-band communications, for example, communicating simultaneously on the 2.4 GHz, 5 GHz, 6 GHz, 45 GHz, and 60 GHz bands, or communicating simultaneously on different channels in the same band (or different bands), to improve communication throughput and/or reliability between devices.
  • Such devices are usually called multi-band devices, or multi-link devices (MLD), sometimes also called multi-link entities or multi-band entities.
  • Multi-link devices can be access point devices or site devices. If the multi-link device is an access point device, the multi-link device contains one or more APs; if the multi-link device is a site device, the multi-link device contains one or more non-AP STAs.
  • the non-AP MLD uses one or a combination of the following methods to obtain information about the AP MLD and each of its affiliated APs of interest:
  • Non-AP MLD and AP MLD establish multiple links by exchanging Association Request/Response frames on one of the links requested to be established, as shown in Figure 2.
  • the Association Request/Response frames carry Basic Multi-link elements for establishing multiple links.
  • Non-AP MLD indicates the multiple links requested to be established and their capabilities and operating parameters in the Association Request frame;
  • AP MLD indicates the links accepted and rejected among the multiple links requested to be established and the capabilities and operating parameters of the requested links in the Association Response frame.
  • AP MLD assigns an Association Identifier (AID) to non-AP MLD, and all subordinate STAs of non-AP MLD have the same AID (i.e., the AID assigned to non-AP MLD during the multi-link establishment process).
  • AID Association Identifier
  • non-AP MLD and AP MLD establish multiple links for multi-link operation, and non-AP MLD is associated with AP MLD.
  • the TID-to-link mapping mechanism allows the AP MLD and non-AP MLD to determine how the uplink and downlink Quality of Service (QoS) traffic corresponding to the traffic identifier (TID) value is allocated to the setup links for transmission when the multi-link setup is in progress or has been completed.
  • QoS Quality of Service
  • TID traffic identifier
  • the established link is defined as "enabled” or “enabled state”; if no TID is mapped to an established link in the uplink or downlink, the established link is defined as “disabled” or “disabled state”. Therefore, in the default mode, all established links are enabled.
  • the link can be used for the exchange of unicast frames (individually addressed frames), and corresponding to TID-to-link mapping, only the medium access control (MAC) service data unit (MSDU) or aggregate medium access control (MAC) service data unit (A-MSDU) corresponding to the TID mapped to the link can be transmitted downlink/uplink between the non-AP MLD affiliated station and the AP MLD affiliated AP corresponding to the link.
  • MAC medium access control
  • MSDU medium access control service data unit
  • A-MSDU aggregate medium access control service data unit
  • the MSDU or A-MSDU corresponding to the TID mapped to the link by TID-to-link mapping follows the channel access based on Hybrid Coordination Function (HCF) competition (such as Enhanced Distributed Channel Access (EDCA)) to perform downlink/uplink transmission between the non-AP MLD affiliated site corresponding to the link and the AP MLD affiliated AP.
  • HCF Hybrid Coordination Function
  • EDCA Enhanced Distributed Channel Access
  • Unicast (individually addressed) management frames and control frames can be transmitted uplink or downlink between a non-AP MLD-affiliated station and its associated AP MLD-affiliated AP corresponding to any enabled link.
  • the non-AP MLD when a non-AP MLD initiates multi-link establishment with an AP MLD, as long as one of the links requested to be established corresponds to a non-AP MLD-affiliated station and an AP MLD-affiliated AP that can communicate within the reachable range, the non-AP MLD can not only obtain the information of the AP MLD-affiliated AP corresponding to the other links requested to be established, but also complete the multi-link establishment including other links requested to be established through this link that can communicate within the reachable range, even if the non-AP MLD-affiliated station and the AP MLD-affiliated AP corresponding to the other links requested to be established may not be within the communication range.
  • all flow identifiers are mapped to all established links in the downlink and uplink directions, including the established links in the non-AP MLD that may not be within the communication range. Therefore, the established links in the non-AP MLD that are not within the communication range are also set to the enabled state, resulting in the actual communication state (i.e., the non-communication state) of the established link that is not within the communication range being inconsistent with the link management state (i.e., the enabled state) corresponding to the flow identifier to link mapping of the link.
  • the link management state i.e., the enabled state
  • a non-AP MLD completes multi-link establishment with an AP MLD, or a non-AP MLD is associated with an AP MLD, it is mainly based on the association at the multi-link device (MLD) level.
  • MLD multi-link device
  • the assumption premise for the establishment of the current multi-link management mechanism is that as long as a non-AP MLD subordinate station corresponding to an established link can communicate with an AP MLD subordinate AP within a reachable range, then other subordinate stations of non-AP MLDs corresponding to other established links can also communicate with other subordinate APs of AP MLD within a reachable range.
  • the present application proposes a multi-link communication solution, in which the non-AP MLD initiates the establishment of multiple links with the AP MLD based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established; and/or the non-AP MLD manages the N links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links; and/or the AP MLD manages the N links based on the communication reachability between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA corresponding to each of the N established links.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, so as to reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, so as to ensure that the actual communication status of the links is consistent with the link enablement status.
  • the non-AP MLD sets the enabled link in the N links where the communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable to the disabled state, or the non-AP MLD deletes the link in the N links where the communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • the AP MLD sets the enabled link in the N links where communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable to the disabled state, or the AP MLD deletes the link in the N links where communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG. 3 is a schematic flow chart of a method 200 for multi-link communication according to an embodiment of the present application. As shown in FIG. 3 , the method 200 for multi-link communication may include at least part of the following contents:
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD based on the communication reachability between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to the M links to be established; wherein M is a positive integer.
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established. That is, the non-AP MLD can optimize the multi-link establishment process according to the communication reachability of the links to be established, thereby ensuring that the actual communication state of the links is consistent with the link enablement state.
  • a "field” may also be referred to as a "field” or a "subfield.”
  • a field may occupy one or more bytes (byte/octet), or a field may occupy one or more bits (bit).
  • the embodiments of the present application are mainly aimed at the establishment and management of multiple links between AP MLD and non-AP MLD, and can also be extended to the establishment and management of multiple links between one non-AP MLD and another non-AP MLD, that is, replacing the AP MLD in the embodiments of the present application with another non-AP MLD.
  • the non-AP MLD may obtain information about the AP MLD and each of its subordinate APs of interest before initiating multi-link establishment with the AP MLD. That is, the non-AP MLD may obtain information about the AP MLD and information about the AP MLD subordinate APs corresponding to each of the M links before initiating multi-link establishment with the AP MLD.
  • the M links are part or all of the links that the non-AP MLD intends to establish.
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • a frame e.g., a beacon frame or other frame
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by another AP in the same Basic Service Set (BSS) (co-located BSS) as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • BSS Basic Service Set
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by another AP in the same multiple BSSID set (BSSID) as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • a frame e.g., a beacon frame or other frame
  • BSSID multiple BSSID set
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the above S210 may specifically include:
  • the non-AP MLD sends a first association request frame through a non-AP STA attached to it;
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA in the M links within the reachable communication range of the AP MLD affiliated AP.
  • the corresponding link establishment is performed, that is, the links requested to be established carried by the association request frame in the multi-link establishment include these links with determined communication reachability; for the non-AP MLD affiliated non-AP STA whose AP MLD affiliated AP corresponding to the proposed link is not within the reachable communication range, the corresponding link establishment is not performed, that is, the links requested to be established carried by the association request frame in the multi-link establishment do not include these links that have been determined to be unreachable.
  • non-AP MLD can also send the first association request frame through its multiple affiliated non-AP STAs, which is not limited to this in the embodiments of the present application.
  • the non-AP MLD requests to establish a link for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established within the reachable communication range of the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established. That is, the links requested to be established by the non-AP MLD can reflect the actual communication status of the links. In other words, the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • STA1 of non-AP MLD obtains the information of AP MLD and its subordinate APs through Beacon frames and/or multi-link probe response (ML Probe Response) frames; and confirms the reachability of the links to be established (Link1, Link2, and Link3) (the reachability confirmation method is as described above), confirming that Link1 and Link2 are reachable, but Link3 is not reachable; then non-AP MLD only requests to establish Link1 and Link2, but not Link3, in initiating the association request for establishing multiple links; after non-AP MLD and AP MLD complete the association request/response interaction, Link1 and Link2 are established.
  • ML Probe Response multi-link probe response
  • the above S210 may specifically include:
  • the non-AP MLD sends a second association request frame through a non-AP STA attached to it;
  • the second association request frame is used to request the establishment of the M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • a corresponding link is established for each subordinate site that requests to establish a link in the non-AP MLD, but when initiating multi-link establishment, the non-AP MLD indicates the reachability and/or enablement of the link requested to be established.
  • non-AP MLD can also send the second association request frame through its multiple affiliated non-AP STAs, which is not limited to this in the embodiments of the present application.
  • the non-AP MLD sends a second association request frame to request the establishment of M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established, and carries in the second association request frame: relevant information on whether the M links are reachable for communication, and/or relevant information on whether the M links are enabled.
  • relevant information on whether the M links are reachable for communication and/or relevant information on whether the M links are enabled.
  • This can reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • the corresponding link to be established is indicated as reachable and/or enabled.
  • the corresponding link to be established is indicated as unreachable and/or disabled.
  • the corresponding reachability indication of the proposed link is "reachable” and/or the corresponding indication of the link is "enabled”; for a non-AP MLD subordinate station whose AP MLD subordinate AP corresponding to the proposed link is not within the reachable communication range, the corresponding reachability indication of the proposed link is "unreachable” and/or the corresponding indication of the link is "disabled”.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field; wherein the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication; wherein the second indication field is used to indicate whether each of the M links is enabled.
  • the first indication field is a reachability field
  • the second indication field is a TID-To-Link Mapping element
  • the second association request frame includes a basic multi-link element (Basic Multi-Link element);
  • the site control field (STA Control field) in the per-STA profile subelement (Per-STA Profile subelement) contained in the link information field (Link Info field) of the basic multi-link element (Basic Multi-Link element) includes a link identification (link ID) field and the first indication field (i.e., reachability field) corresponding to the link identified by the link identification field.
  • the STA Control field in the Per-STA Profile subelement contained in the Link Info field of the Basic Multi-Link element may be as shown in FIG. 5 , and the STA Control field may include a reachability field.
  • the site control domain may also include the following information domains: complete configuration domain (Complete Profile), STA medium access control (MAC) address presence (STA MAC Address Present) domain, beacon interval presence (Beacon Interval Present) domain, timing synchronization function (TSF Offset Present) domain, delivery traffic indication message (DTIM) information presence (DTIM Info Present) domain, non simultaneous send and receive (NSTR Transmit and Receive, NSTR) link pair presence (NSTR Link Pair Present) domain, and BSS parameters change count presence (BSS Parameters Change Count Present) domain.
  • the reachability field occupies 1 bit. For example, when the reachability field takes 0, it indicates that the corresponding link communication is reachable, that is, the reported station is within the reachable communication range of the peer station (peer sta); when the reachability field takes 1, it indicates that the corresponding link communication is unreachable, that is, the reported station is outside the reachable communication range of the peer station (peer sta).
  • the reachability field when the reachability field takes 1, it indicates that the corresponding link communication is reachable, that is, the reported station is within the reachable communication range of the peer station (peer sta); when the reachability field takes 0, it indicates that the corresponding link communication is unreachable, that is, the reported station is outside the reachable communication range of the peer station (peer sta).
  • a proposed link when it is determined that its corresponding non-AP MLD affiliated station (set as STA i) is within the reachable communication range of the AP MLD affiliated AP (set as AP i) corresponding to the link, then in the flow identifier to link mapping element, it is indicated that at least one TID is mapped to the link in the uplink or downlink, that is, the link is "enabled”.
  • link Link-j when it is determined that its corresponding non-AP MLD affiliated station (set as STA j) is not within the reachable communication range of the AP MLD affiliated AP (set as AP j) corresponding to the link, then it is indicated in the flow identifier to link mapping element that "no TID is mapped to the link in the uplink or downlink", that is, the link is "disabled”.
  • STA1 of non-AP MLD obtains information of AP MLD and its subordinate APs through Beacon frames and/or multi-link probe response (ML Probe Response) frames; and performs reachability confirmation of the links to be established (Link1, Link2, and Link3) (the reachability confirmation method is as described above), confirming that Link1 and Link2 are reachable, but Link3 is not reachable.
  • ML Probe Response multi-link probe response
  • non-AP MLD establishes corresponding links (Link1, Link2, Link3) for each subordinate station for which a link establishment is requested, but when non-AP MLD initiates multi-link establishment, in the association request, for Link1 and Link2, their reachability indication is "reachable” and/or the link corresponding indication is “enabled", while for Link3, the reachability indication is "unreachable” and/or the link corresponding indication is "disabled”.
  • the association request/response interaction is completed between the non-AP MLD and the AP MLD, the establishment of Link1, Link2 and Link3 is completed.
  • FIG. 6 exemplarily shows that the association request and the association response only indicate whether it is enabled, and may also indicate whether it is reachable, or indicate both whether it is enabled and whether it is reachable.
  • the embodiment of the present application is not limited to this.
  • the non-AP MLD manages the N established links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links, where N is a positive integer and N ⁇ M.
  • the non-AP MLD manages the N links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links. That is, the non-AP MLD can optimize the multi-link management process according to the communication reachability of the established links, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • the N links are part or all of the links established by the non-AP MLD.
  • the N links may include links requested to be established by other association request frames except the first association request frame and the second association request frame mentioned above, which is not limited in this embodiment of the present application.
  • the non-AP MLD manages the N established links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links, including:
  • the non-AP MLD sets the enabled link among the N links, in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable, to a disabled state, or the non-AP MLD deletes the link among the N links, in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable.
  • the non-AP MLD may adopt one of the following actions:
  • the non-AP MLD initiates a TID-To-Link Mapping request to the AP MLD, and negotiates with the AP MLD to set Link-i to the "Disabled” state; or, the non-AP MLD initiates a TID-To-Link Mapping notification to the AP MLD, and sets Link-i to the "Disabled” state.
  • the non-AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) to the AP MLD and negotiates with the AP MLD to delete Link-i; or, the non-AP MLD initiates a link reconfiguration notification to the AP MLD to delete Link-i.
  • Link Reconfiguration Request Link Reconfiguration Request
  • the manner in which the non-AP MLD handles the unreachable links between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP among the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link in the N links set to the disabled state refers to a link without a flow identifier (TID) mapping.
  • the established link is defined as “enabled” or “enabled state”; if no TID is mapped to an established link in the uplink or downlink, the established link is defined as “disabled” or “disabled state”.
  • the non-AP MLD when the non-AP MLD sets an enabled link among the N links in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable to a disabled state, for a link among the N links that is set to a disabled state due to communication unreachable between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP, the non-AP MLD sets the link to an enabled state when communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is reachable.
  • the non-AP MLD sets the enabled Link-i to a disabled state; after a period of time, due to the movement of STAi or the improvement of link quality, the communication between STAi and APi may become reachable. After the communication between STAi and APi is reachable, the non-AP MLD sets Link-i to an enabled state.
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the time length T j , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to communicate with the AP MLD-affiliated AP; or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the duration T all , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to the AP MLD-affiliated AP;
  • the j-th link is the j-th link among all established links
  • the duration T j is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j may be an idle timeout limit during the link enabling period corresponding to the j-th link
  • the duration T all may be an idle timeout limit during the link enabling period corresponding to all established links.
  • the duration Tj is a periodic duration, that is, the duration Tj may be the maximum idle time period during the link enabling period corresponding to the jth link.
  • the duration T j is determined or indicated by the non-AP MLD.
  • the duration T all is a periodic duration, that is, the duration T all may be the maximum idle time period during the link enabling period corresponding to all established links.
  • the duration T all is determined or indicated by the non-AP MLD.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the frame type designated for indicating link enable or active status may be a protected frame, that is, only a protected frame indicates an enable or active status.
  • the frame type specified for indicating the link enablement or active state may be a protected frame and an unprotected frame, that is, both the protected frame and the unprotected frame may indicate the enablement or active state.
  • the at least one frame includes but is not limited to at least one of the following: a data frame corresponding to the TID mapped to the j-th link, a Power Saving Poll (PS-Poll) frame, and a management frame.
  • PS-Poll Power Saving Poll
  • the association request frame for multi-link establishment sent by the non-AP MLD through a non-AP STA affiliated with it includes S third indication fields, and the S third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S links, and S is a positive integer.
  • the third indication field included in the association request frame can be used to indicate the duration T j to the AP MLD.
  • the association request frame may be the first association request frame or the second association request frame.
  • the number of third indication fields included in the association request frame may be different from the number of links requested to be established by the association request frame, that is, the non-AP MLD may indicate through the association request frame the maximum idle time information during the link enabling period corresponding to some or part of the links requested to be established.
  • the association request frame for multilink establishment includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field is the maximum idle time period information field during the link enabling period or the maximum idle time period information subfield during the link enabling period
  • the first existence field is the maximum idle time period information existence field during the link enabling period or the maximum idle time period information existence subfield during the link enabling period.
  • the STA Control field in the Per-STA Profile subelement contained in the Link Info field of the Basic Multi-Link element may be as shown in FIG7 , and the STA Control field includes a max idle period Info for link enabled Present field.
  • the STA Control field may also include the above-mentioned reachability field, as shown in FIG8 .
  • the site control domain may also include the following information domains: a complete configuration domain (Complete Profile), a STA medium access control (MAC) address present (STA MAC Address Present) domain, a beacon interval present (Beacon Interval Present) domain, a time synchronization function (TSF Offset Present) domain, a delivery traffic indication message (DTIM) information present (DTIM Info Present) domain, a non-simultaneous transmit and receive (NSTR) link pair present (NSTR Link Pair Present) domain, and a BSS parameters change count present (BSS Parameters Change Count Present) domain.
  • a complete configuration domain Complete Profile
  • STA medium access control (MAC) address present STA MAC Address Present
  • Beacon Interval Present Beacon Interval Present
  • TDF Offset Present time synchronization function
  • DTIM delivery traffic indication message
  • DTIM Info Present DTIM Info Present
  • NSTR non-simultaneous transmit and receive
  • NSTR Link Pair Present NSTR Link Pair Present
  • the maximum idle time period information for link enabled period exists field occupies 1 bit. For example, when the maximum idle time period information for link enabled period exists field takes 0, it means that the station information field (STA Info field) in each station configuration subelement (Per-STA Profile subelement) includes the maximum idle time period information for link enabled period corresponding to the link identified by the link identification field (Link ID field) field, and when the maximum idle time period information for link enabled period exists field takes 1, it means that the station information field (STA Info field) in each station configuration subelement (Per-STA Profile subelement) does not include the maximum idle time period information for link enabled period corresponding to the link identified by the link identification field (Link ID field) field.
  • the maximum idle period information for link enabled exists field is 1, it indicates that the STA Info field in each station configuration subelement (Per-STA Profile subelement) includes the maximum idle period information for link enabled during the link period corresponding to the link identified by the link identification field (Link ID field)
  • the field (max idle period Info for link enabled) field when the maximum idle period information for link enabled exists field is 1, it indicates that the STA Info field in each station configuration subelement (Per-STA Profile subelement) includes the maximum idle period information for link enabled during the link period corresponding to the link identified by the link identification field (Link ID field)
  • the field (max idle period Info for link enabled) field when the maximum idle period information for
  • the STA Info field in the Per-STA Profile subelement included in the Link Info field of the Basic Multi-Link element may be as shown in FIG9 , and the STA Info field includes a maximum idle period Info for link enabled field.
  • the STA Info field may also include at least one of the following: a STA Info Length field, a STA MAC Address field, a Beacon Interval field, a TSF Offset field, a DTIM Info field, an NSTR Indication Bitmap field, and a BSS Parameters Change Count field.
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA corresponding to the corresponding enabled link and the AP MLD-affiliated AP is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the duration T j is a periodic duration, that is, when the duration T j is the maximum idle time period during the link enabling period corresponding to the j-th link, the first subfield is the maximum idle time period during the link enabling period (max idle period for link enabled) subfield, the second subfield is the idle option subfield during the link enabling period, the first field is the Protected Keep-enabled Required field, and the second field is the expected behavior field exceeding the maximum space time.
  • the third indication field is a maximum idle period information for link enabled (max idle period Info for link enabled) field.
  • the maximum idle period information for link enabled (max idle period Info for link enabled) field may be as shown in FIG. 10, which may include a maximum idle period for link enabled (max idle period for link enabled) subfield and an idle option for link enabled subfield.
  • the idle option for link enabled subfield may be as shown in FIG. 11, which may include a protected keep-enabled required (Protected Keep-enabled Required) field and an expected behavior field exceeding the maximum space time.
  • the max idle period for link enabled subfield is used to indicate the idle timeout limit during link enabled, using 1000TUs as the unit; its value “0” is reserved.
  • the max idle period for link enabled information subfield is sent by the non-AP MLD to which the non-AP STA is attached: the non-AP STA shall receive at least one frame sent by the AP MLD corresponding to the attached AP to which it is associated (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield) during the maximum idle period during link enabled indicated by the max idle period for link enabled subfield, before the link is considered to be maintained in the enabled state.
  • the maximum idle time period information subfield during link enablement is sent by the AP MLD to which the AP is attached: within the maximum idle time period during link enablement indicated by the maximum idle time period during link enablement subfield, the AP should receive at least one frame sent by the non-AP STA corresponding to its associated non-AP MLD (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield) before the link is considered to be maintained in an enabled state.
  • the non-AP STA such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield
  • the Protected Keep-enabled Required field occupies 1 bit.
  • the Protected Keep-enabled Required field takes 1 to indicate that only the protected frame indicates an enabled or active state
  • the Protected Keep-enabled Required field takes 0 to indicate that both the protected frame and the non-protected frame can indicate an enabled or active state.
  • the Protected Keep-enabled Required field takes 0 to indicate that only the protected frame indicates an enabled or active state
  • the Protected Keep-enabled Required field takes 1 to indicate that both the protected frame and the non-protected frame can indicate an enabled or active state.
  • the maximum idle time period information field during link enablement is sent by the non-AP MLD to which the non-AP STA is attached, and the Protected Keep-enabled Required field is used to indicate the frame requirement of the associated AP to the non-AP STA.
  • the maximum idle time period information field during link enablement is sent by the AP MLD to which the AP is attached, and the Protected Keep-enabled Required field is used to indicate the frame requirement of the associated non-AP STA to the AP.
  • the expected behavior field exceeding the maximum space time occupies 1 bit.
  • the expected behavior field exceeding the maximum space time takes 0 to indicate that when the duration of any frame sent by the peer site (meeting the frame requirements indicated by the protected maintenance enable required subfield) not received on the corresponding link is equal to or exceeds the time indicated by the "maximum idle time period during link enablement" subfield, the link is expected to be set to "disabled”; the expected behavior field exceeding the maximum space time takes 1 to indicate that when the duration of any frame sent by the peer site (meeting the frame requirements indicated by the protected maintenance enable required subfield) not received on the corresponding link is equal to or exceeds the time indicated by the "maximum idle time period during link enablement" subfield, the link is expected to be deleted.
  • the expected behavior field exceeding the maximum space time is 1, indicating that when the duration of not receiving any frame sent by the peer site on the corresponding link (meeting the frame requirements indicated by the protected maintenance enable requirement subfield) is equal to or exceeds the time indicated by the "maximum idle time period during link enablement" subfield, the link is expected to be set to "disabled”; the expected behavior field exceeding the maximum space time is 0, indicating that when the duration of not receiving any frame sent by the peer site on the corresponding link (meeting the frame requirements indicated by the protected maintenance enable requirement subfield) is equal to or exceeds the time indicated by the "maximum idle time period during link enablement" subfield, the link is expected to be deleted.
  • the expected behavior for exceeding the maximum space time field indicates that the non-AP MLD does not receive any frame (meeting the frame requirement indicated by the protected maintenance enable required subfield) sent by the peer station of the link (i.e., the corresponding AP) on the corresponding link to which the maximum idle time period information subfield during link enablement is applied for a duration equal to or greater than the time indicated by the "maximum idle time period during link enablement" subfield, and the expected behavior is to be performed.
  • the expected behavior for exceeding the maximum space time field indicates that the AP MLD does not receive any frame (meeting the frame requirement indicated by the protected maintenance enable required subfield) sent by the peer station of the link (i.e., the corresponding non-AP STA) on the corresponding link to which the maximum idle time period information subfield during link enablement is applied for a duration equal to or greater than the time indicated by the "maximum idle time period during link enablement" subfield, and the expected behavior is to be performed.
  • the association request frame for multi-link establishment sent by the non-AP MLD through one of its affiliated non-AP STAs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the fourth indication field included in the association request frame can be used to indicate the duration T all to the AP MLD.
  • the association request frame may be the first association request frame or the second association request frame.
  • the association request frame for multilink establishment includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field is the maximum idle time period information field during the link enabling period or the maximum idle time period information subfield during the link enabling period
  • the second existence field is the maximum idle time period information existence field during the link enabling period or the maximum idle time period information existence subfield during the link enabling period.
  • the Presence Bitmap subfield of the Multi-Link Control field of the Basic Multi-Link element may be as shown in FIG. 12 , where the Presence Bitmap subfield includes a max idle period Info for link enabled Present field.
  • the presence bitmap subdomain may also include the following information domains: link identification information presence (Link ID Info Present) domain, BSS parameter change count presence (BSS Parameters Change Count Present) domain, medium synchronization delay information presence (Medium Synchronization Delay Information Present) domain, Enhanced Multi-Link (Enhanced Multi-Link, EML) capability presence (EML Capabilities Present) domain, MLD capabilities and operations presence (MLD Capabilities and Operations Present) domain, and AP MLD identification presence domain.
  • the Common Info field in the Multi-Link Control field of the Basic Multi-Link element may be as shown in FIG. 13, and the Common Info field includes a maximum idle period Info for link enabled field. As shown in FIG. 13, the Common Info field may also include at least one of the following: a Common Info Length field, an MLD MAC Address field, a Link ID Info field, a BSS Parameters Change Count field, a Medium Synchronization Delay Information field, an EML Capabilities field, an MLD Capabilities and Operations field, and an AP MLD Identifier field.
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element is unreachable.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the duration T j is a periodic duration, that is, the duration T all can be the maximum idle time period during the link enabling period corresponding to all established links
  • the third subfield is the maximum idle time period during the link enabling period (max idle period for link enabled) subfield
  • the fourth subfield is the idle option subfield during the link enabling period
  • the third field is the Protected Keep-enabled Required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the format of the third sub-domain can be the same as the format of the above-mentioned first sub-domain
  • the format of the fourth sub-domain can be the same as the format of the above-mentioned second sub-domain
  • the format of the third field can be the same as the format of the above-mentioned first field
  • the format of the fourth field can be the same as the format of the above-mentioned second field, which will not be repeated here.
  • a subordinate non-AP STA of a non-AP MLD includes a maximum idle time period information subfield during link enablement in the per-site configuration sub-element of the multi-link element carried in the association request frame, then the values of each subfield in the maximum idle time period information subfield during link enablement are applied to the link corresponding to the per-site configuration sub-element (i.e., identified by the carried Link ID); if a subordinate non-AP STA of a non-AP MLD includes a maximum idle time period information subfield during link enablement in the general information field of the multi-link element carried in the association request frame, then the values of each subfield in the maximum idle time period information subfield during link enablement are applied to all links indicated by the multi-link element or the link where the sending multi-link element is located.
  • the non-AP STA corresponding to the link should receive at least one frame (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement required subfield (if any) indicated by the subfield) sent by the subordinate AP corresponding to the AP MLD to which it is associated (that is, the AP corresponding to the link) within the maximum idle period during the link enablement indicated by the subfield, before the link can be considered to be maintained in an enabled state.
  • a frame such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link
  • the non-AP MLD before initiating multi-link establishment with the AP MLD, obtains information about the AP MLD and each subordinate AP of interest.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" for requesting to establish a link, which is used to indicate that for the corresponding link, within the maximum idle period during the link enablement period, the corresponding non-AP STA should receive at least one frame sent by the subordinate AP corresponding to the AP MLD to which it is associated (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meets the frame requirements indicated by the protected maintenance enablement required subfield) before the link is considered to be maintained in an enabled state.
  • the basic multi-link element of AP MLD in the association response frame also carries the "maximum idle time period information during link enablement" requesting to establish a link, which is used to indicate that the Non-AP station should send at least one frame to maintain the link enablement state to its associated AP within the maximum idle period during the link enablement period indicated by this subfield (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield) to maintain the link in the enabled state.
  • this subfield such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield
  • the non-AP MLD after completing the establishment of multiple links, for the non-AP MLD, for the enabled link (i.e., Enabled Link, set to Link-i), when the non-AP MLD affiliated station (set to STAi) corresponding to Link-i does not receive any frame sent by the AP MLD affiliated station (set to APi) corresponding to Link-i during the corresponding "maximum idle time period during link enablement (sent by the non-AP MLD)" (in the case where there is no frame type requirement) or does not receive a frame of a specified type sent by APi (in the case where there is a frame type requirement), the non-AP MLD initiates a flow identifier to link mapping (TID-To-Link Mapping) request to the AP MLD, and negotiates with the AP MLD to set Link-i to the "disabled" state; or, the non-AP MLD initiates a flow identifier to link mapping notification to the AP MLD, and sets Link-i to the
  • non-AP MLD before initiating multi-link establishment with AP MLD, obtains information about AP MLD and each subordinate AP it is interested in.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" for requesting to establish a link, that is, the maximum idle time period T1 during the link enablement corresponding to link 3 in FIG14; at the same time, the basic multi-link element in the association response frame of AP MLD also carries the "maximum idle time period information during link enablement" (optional) for requesting to establish a link, that is, the maximum idle time period T2 during the link enablement corresponding to link 3 in FIG14.
  • the non-AP MLD After completing the multi-link establishment, for the enabled link Link3, when it starts to be enabled, if STA3 does not receive any frame sent by AP3 during the corresponding "maximum idle time period during link enablement" (i.e. T1 in Figure 14) (no frame type requirement) or does not receive the specified type of frame sent by AP3 during the T1 period (with frame type requirement), the non-AP MLD initiates a flow identifier to link mapping (TID-To-Link Mapping) request through Link1, and negotiates with the non-AP MLD to set Link3 to the "Disabled" state.
  • T1 maximum idle time period during link enablement
  • non-AP MLD for non-AP MLD, for an enabled link (i.e., Enabled Link, set as Link-i)
  • an enabled link i.e., Enabled Link, set as Link-i
  • the non-AP MLD subordinate station set as STAi
  • APi AP MLD subordinate station
  • Link-i link reconfiguration request
  • the non-AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) to the AP MLD and negotiates with the AP MLD to delete Link-i; or, the non-AP MLD initiates a link reconfiguration notification to the AP MLD to delete Link-i.
  • non-AP MLD has other enabled links
  • the non-AP MLD is kept associated with the AP MLD. For example, as shown in FIG15, before initiating multi-link establishment with AP MLD, non-AP MLD obtains information about AP MLD and each subordinate AP of interest.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" for requesting to establish the link, i.e., the maximum idle time period T1 during the link enablement corresponding to link 3 in FIG15; at the same time, the basic multi-link element in the association response frame of AP MLD also carries the "maximum idle time period information during link enablement” (optional) for requesting to establish the link, i.e., the maximum idle time period T2 during the link enablement corresponding to link 3 in FIG15.
  • the non-AP MLD After completing the establishment of multiple links, for the enabled link Link3, when it starts to be enabled, if STA3 does not receive any frame sent by AP3 in the corresponding "maximum idle time period during link enablement" (T1 in Figure 15) (no frame type requirement) or does not receive the specified type of frame sent by AP3 in the T1 period (with frame type requirement), then the non-AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) through Link1, and negotiates with the AP MLD to delete Link3. Since there are still enabled links Link1 and Link2, the non-AP MLD maintains the status of being associated with the AP MLD.
  • Link Reconfiguration Request link reconfiguration request
  • the maximum idle time period T2 during the link enablement period is greater than the maximum idle time period T1 during the link enablement period.
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established; and/or the non-AP MLD manages the N links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links. This ensures that the actual communication state of the link is consistent with the link enablement state.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, so as to reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, so as to ensure that the actual communication status of the links is consistent with the link enablement status.
  • the non-AP MLD sets the corresponding non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP in the N links where communication is unreachable to the non-AP MLD to a disabled state, or the non-AP MLD deletes the corresponding non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP in the N links where communication is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG. 16 is a schematic flow chart of a method 300 for multi-link communication according to an embodiment of the present application. As shown in FIG. 16 , the method 300 for multi-link communication may include at least part of the following contents:
  • AP MLD receives a first association request frame or a second association request frame through an AP affiliated with it; wherein the first association request frame is used to request to establish a link of the non-AP MLD affiliated non-AP STA corresponding to the M links within the reachable communication range of the AP MLD affiliated AP; wherein the second association request frame is used to request to establish M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or, the second association request frame includes relevant information on whether the M links are enabled; wherein M is a positive integer.
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established.
  • the non-AP MLD sends the first association request frame or the second association request frame based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established. That is, the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • a "field” may also be referred to as a "field” or a "subfield.”
  • a field may occupy one or more bytes (byte/octet), or a field may occupy one or more bits (bit).
  • the embodiments of the present application are mainly aimed at the establishment and management of multiple links between AP MLD and non-AP MLD, and can also be extended to the establishment and management of multiple links between one non-AP MLD and another non-AP MLD, that is, replacing the AP MLD in the embodiments of the present application with another non-AP MLD.
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • a frame e.g., a beacon frame or other frame
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by another AP in the same Basic Service Set (BSS) (co-located BSS) as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • BSS Basic Service Set
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame (e.g., a beacon frame or other frame) sent by another AP in the same multiple BSSID set (e.g., a beacon frame or other frame) as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time, the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other;
  • a frame e.g., a beacon frame or other frame
  • a multiple BSSID set e.g., a beacon frame or other frame
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the first association request frame is determined based on the communication reachability between the non-AP MLD affiliated non-AP STAs corresponding to each of the M links to be established and the AP MLD affiliated APs.
  • the corresponding link establishment is performed, that is, the links requested to be established carried by the association request frame in the multi-link establishment include these links with determined communication reachability; for the non-AP MLD affiliated non-AP STA whose AP MLD affiliated AP corresponding to the proposed link is not within the reachable communication range, the corresponding link establishment is not performed, that is, the links requested to be established carried by the association request frame in the multi-link establishment do not include these links that have been determined to be unreachable.
  • non-AP MLD can also send the first association request frame through its multiple affiliated non-AP STAs, which is not limited to this in the embodiments of the present application.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the corresponding non-AP MLD-affiliated non-AP STA in the M links, based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established. That is, the links requested to be established by the non-AP MLD can reflect the actual communication status of the links. In other words, the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • STA1 of non-AP MLD obtains the information of AP MLD and its subordinate APs through Beacon frames and/or multi-link probe response (ML Probe Response) frames; and confirms the reachability of the links to be established (Link1, Link2, and Link3) (the reachability confirmation method is as described above), confirming that Link1 and Link2 are reachable, but Link3 is not reachable; then non-AP MLD only requests to establish Link1 and Link2, but not Link3, in initiating the association request for establishing multiple links; after non-AP MLD and AP MLD complete the association request/response interaction, Link1 and Link2 are established.
  • ML Probe Response multi-link probe response
  • the second association request frame is determined based on the communication reachability between the non-AP MLD affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD affiliated AP.
  • a corresponding link is established for each subordinate site that requests to establish a link in the non-AP MLD, but when initiating multi-link establishment, the non-AP MLD indicates the reachability and/or enablement of the link requested to be established.
  • non-AP MLD can also send the second association request frame through its multiple affiliated non-AP STAs, which is not limited to this in the embodiments of the present application.
  • the non-AP MLD sends a second association request frame to request the establishment of M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established, and carries in the second association request frame: relevant information on whether the M links are reachable for communication, and/or relevant information on whether the M links are enabled.
  • relevant information on whether the M links are reachable for communication and/or relevant information on whether the M links are enabled.
  • This can reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • the corresponding link to be established is indicated as reachable and/or enabled.
  • the corresponding link to be established is indicated as unreachable and/or disabled.
  • the corresponding reachability indication of the proposed link is "reachable” and/or the corresponding indication of the link is "enabled”; for a non-AP MLD subordinate station whose AP MLD subordinate AP corresponding to the proposed link is not within the reachable communication range, the corresponding reachability indication of the proposed link is "unreachable” and/or the corresponding indication of the link is "disabled”.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field; wherein the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication; wherein the second indication field is used to indicate whether each of the M links is enabled.
  • the first indication field is a reachability field
  • the second indication field is a TID-To-Link Mapping element
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the format of the second association request frame may refer to the relevant description of FIG. 5 in the multi-link communication method 200, and will not be repeated here.
  • STA1 of non-AP MLD obtains information of AP MLD and its subordinate APs through Beacon frames and/or multi-link probe response (ML Probe Response) frames; and performs reachability confirmation of the links to be established (Link1, Link2, and Link3) (the reachability confirmation method is as described above), confirming that Link1 and Link2 are reachable, but Link3 is not reachable.
  • ML Probe Response multi-link probe response
  • non-AP MLD establishes corresponding links (Link1, Link2, Link3) for each subordinate station for which a link establishment is requested, but when non-AP MLD initiates multi-link establishment, in the association request, for Link1 and Link2, their reachability indication is "reachable” and/or the link corresponding indication is “enabled", while for Link3, the reachability indication is "unreachable” and/or the link corresponding indication is "disabled”.
  • the association request/response interaction is completed between the non-AP MLD and the AP MLD, the establishment of Link1, Link2 and Link3 is completed.
  • FIG. 6 exemplarily shows that the association request and the association response only indicate whether it is enabled, and may also indicate whether it is reachable, or indicate both whether it is enabled and whether it is reachable.
  • the embodiment of the present application is not limited to this.
  • the AP MLD manages the N established links based on the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to each of the N established links, where N is a positive integer and N ⁇ M.
  • the AP MLD manages the N links according to the communication reachability between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA corresponding to each of the N established links. That is, the AP MLD can optimize the multi-link management process according to the communication reachability of the established links, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • the N links are part or all of the links established by the AP MLD.
  • the AP MLD manages the N links according to the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N established links, including:
  • the AP MLD sets the enabled link among the N links, in which communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable, to a disabled state, or the AP MLD deletes the link among the N links, in which communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable.
  • the AP MLD may adopt one of the following actions:
  • the AP MLD initiates a TID-To-Link Mapping request to the non-AP MLD, and negotiates with the non-AP MLD to set Link-i to the "Disabled” state; or, the AP MLD initiates a TID-To-Link Mapping notification to the non-AP MLD, and sets Link-i to the "Disabled” state.
  • AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) to the non-AP MLD and negotiates with the non-AP MLD to delete Link-i; or, AP MLD initiates a link reconfiguration notification to the non-AP MLD to delete Link-i.
  • Link Reconfiguration Request Link Reconfiguration Request
  • the manner in which the AP MLD handles the unreachable links between the corresponding AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs in the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link in the N links that is set to the disabled state refers to a link without a flow identifier (TID) mapping.
  • TID flow identifier
  • the established link is defined as “enabled” or “enabled state”; if no TID is mapped to an established link in the uplink or downlink, the established link is defined as “disabled” or “disabled state”.
  • the AP MLD when the AP MLD sets an enabled link among the N links in which communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable to a disabled state, for a link among the N links that is set to a disabled state due to communication unreachable between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA, the AP MLD sets the link to an enabled state when communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is reachable.
  • AP MLD sets the enabled Link-i to a disabled state; after a period of time, due to the movement of STAi or the improvement of link quality, communication between STAi and APi may become reachable. After communication between STAi and APi is reachable, AP MLD sets Link-i to an enabled state.
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the time length T j ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA can communicate with each other; or,
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the duration T all ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA are reachable in communication;
  • the j-th link is the j-th link among all established links
  • the duration T j ′ is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all ′ is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j ′ may be an idle timeout limit during the link enabling period corresponding to the j-th link
  • the duration T all ′ may be an idle timeout limit during the link enabling period corresponding to all established links.
  • the duration T j ′ is a periodic duration, that is, the duration T j ′ may be a maximum idle time period during the link enabling period corresponding to the jth link.
  • the duration T j ′ is determined or indicated by the AP MLD.
  • the duration T all ′ is a periodic duration, that is, the duration T all ′ may be the maximum idle time period during the link enabling period corresponding to all established links.
  • the duration T all ′ is determined or indicated by the AP MLD.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the frame type designated for indicating link enable or active status may be a protected frame, that is, only a protected frame indicates an enable or active status.
  • the frame type specified for indicating the link enablement or active state may be a protected frame and an unprotected frame, that is, both the protected frame and the unprotected frame may indicate the enablement or active state.
  • the at least one frame includes but is not limited to at least one of the following: a data frame corresponding to the TID mapped to the j-th link, a Power Saving Poll (PS-Poll) frame, and a management frame.
  • PS-Poll Power Saving Poll
  • the association response frame sent by the AP MLD through an AP affiliated with it includes S′ third indication fields, and the S′ third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S′ links; wherein the association response frame is an association response frame corresponding to the association request frame for multi-link establishment, and S′ is a positive integer.
  • the third indication field included in the association response frame may be used to indicate the duration T j ′ to the non-AP MLD.
  • the association response frame may be an association response frame for the first association request frame, or may be an association response frame for the second association request frame.
  • the association response frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field is the maximum idle time period information field during the link enabling period or the maximum idle time period information subfield during the link enabling period
  • the first existence field is the maximum idle time period information existence field during the link enabling period or the maximum idle time period information existence subfield during the link enabling period.
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the AP MLD when communication between the AP MLD-affiliated AP corresponding to the corresponding enabled link and the non-AP MLD-affiliated non-AP STA is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the duration T j ′ is a periodic duration, that is, when the duration T j ′ is the maximum idle time period during the link enabling period corresponding to the j-th link, the first subfield is the maximum idle time period during the link enabling period (max idle period for link enabled) subfield, the second subfield is the idle option subfield during the link enabling period, the first field is the Protected Keep-enabled Required field, and the second field is the expected behavior field exceeding the maximum space time.
  • the association response frame sent by the AP MLD through one of its affiliated APs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association response frame is an association response frame corresponding to the association request frame for multi-link establishment.
  • the fourth indication field included in the association response frame may be used to indicate the duration T all ′ to the AP MLD.
  • the association response frame may be an association response frame corresponding to the first association request frame, or may be an association response frame corresponding to the second association request frame.
  • the association response frame includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field is the maximum idle time period information field during the link enabling period or the maximum idle time period information subfield during the link enabling period
  • the second existence field is the maximum idle time period information existence field during the link enabling period or the maximum idle time period information existence subfield during the link enabling period.
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the AP MLD when the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element and the non-AP MLD-affiliated non-AP STA cannot communicate.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the duration T j ′ is a periodic duration
  • the duration T all ′ may be the maximum idle time period during the link enabling period corresponding to all established links
  • the third subfield is the maximum idle time period during the link enabling period (max idle period for link enabled) subfield
  • the fourth subfield is the idle option subfield during the link enabling period
  • the third field is the Protected Keep-enabled Required field
  • the fourth field is the expected behavior field for exceeding the maximum space time.
  • a subordinate AP of AP MLD includes a maximum idle time period information subfield during link enablement in the per-site configuration sub-element of the multi-link element carried in the association response frame
  • the values of each subfield in the maximum idle time period information subfield during link enablement are applied to the link corresponding to the per-site configuration sub-element (i.e., identified by the carried Link ID);
  • a subordinate AP of AP MLD includes a maximum idle time period information subfield during link enablement in the general information field of the multi-link element carried in the association response frame, the values of each subfield in the maximum idle time period information subfield during link enablement are applied to all links indicated by the multi-link element or the link where the sending multi-link element is located.
  • the Non-AP station corresponding to the link should send at least one frame for maintaining the enabled state of the link to its associated AP (i.e., the AP corresponding to the link) within the maximum idle period during the link enablement period indicated by the subfield (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement subfield (if any) indicated by the subfield), before the link is considered to be maintained in an enabled state.
  • the subfield such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link
  • the basic multi-link element of the AP MLD in the association response frame also carries the "maximum idle time period information during link enablement" requesting to establish a link, which is used to indicate that the Non-AP station should send at least one frame to maintain the link enablement state to the AP it is associated with within the maximum idle period during the link enablement period indicated by the sub-field (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement sub-field) to maintain the link in the enabled state.
  • the sub-field such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, meet the frame requirements indicated by the protected maintenance enablement requirement sub-field
  • the non-AP MLD obtains information about the AP MLD and each of its affiliated APs of interest before initiating multi-link establishment with the AP MLD.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" of the link establishment request, which is used to indicate that for the corresponding link, within the maximum idle period during the link enablement period, its corresponding non-AP STA should receive at least one frame sent by the AP MLD corresponding to its associated AP (such as a data frame, PS-Poll frame, or management frame corresponding to the TID mapped to the link, and at the same time, it meets the frame requirements indicated by the protected maintenance enablement required subfield) before the link is considered to be maintained in an enabled state.
  • the AP MLD for the AP MLD, for the enabled link (i.e., Enabled Link, set as Link-i) established between it and the non-AP MLD, when the AP MLD subordinate station (set as APi) corresponding to Link-i does not receive any frame sent by the Non-AP MLD subordinate station (set as STAi) corresponding to Link-i within the corresponding "maximum idle time period during link enablement (sent by the AP MLD)" (in the case where there is no frame type requirement) or does not receive a frame of a specified type sent by STAi (in the case where there is a frame type requirement), then the AP MLD initiates a flow identifier to link mapping (TID-To-Link Mapping) request to the non-AP MLD, and negotiates with the non-AP MLD to set Link-i to the "disabled" state; or, the AP MLD initiates a flow identifier to link mapping notification to the non-AP MLD, and sets Link-
  • non-AP MLD before initiating multi-link establishment with AP MLD, obtains information about AP MLD and each subordinate AP it is interested in.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" (optional) for requesting to establish a link, i.e., the maximum idle time period T1 during the link enablement corresponding to link 3 in FIG17 ; at the same time, the basic multi-link element in the association response frame of AP MLD also carries the "maximum idle time period information during link enablement" for requesting to establish a link, i.e., the maximum idle time period T2 during the link enablement corresponding to link 3 in FIG17 .
  • AP MLD After completing the multi-link establishment, for AP MLD, when the enabled link Link3 starts to be enabled, if AP3 does not receive any frame sent by STA3 during the corresponding "maximum idle time period during link enablement" (T2 in the figure) (no frame type requirement) or does not receive the specified type of frame sent by STA3 during the T2 period (with frame type requirement), then AP MLD initiates a flow identifier to link mapping (TID-To-Link Mapping) request through Link1, and negotiates with the non-AP MLD to set Link3 to the "Disabled" state.
  • T2 maximum idle time period during link enablement
  • an enabled link i.e., Enabled Link, set as Link-i
  • an enabled link i.e., Enabled Link, set as Link-i
  • the AP MLD subordinate station set as APi
  • STAi link-i
  • Link-i link reconfiguration request
  • the AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) to the non-AP MLD and negotiates with the non-AP MLD to delete Link-i; or, the AP MLD initiates a link reconfiguration notification to the non-AP MLD to delete Link-i.
  • non-AP MLD has other enabled links
  • the non-AP MLD remains associated with the AP MLD. For example, as shown in FIG18, before initiating multi-link establishment with AP MLD, non-AP MLD obtains information about AP MLD and each subordinate AP of interest.
  • the basic multi-link element in the association request frame carries the "maximum idle time period information during link enablement" (optional) for requesting to establish the link, i.e., the maximum idle time period T1 during the link enablement corresponding to link 3 in FIG18; at the same time, the basic multi-link element in the association response frame of AP MLD also carries the "maximum idle time period information during link enablement” for requesting to establish the link, i.e., the maximum idle time period T2 during the link enablement corresponding to link 3 in FIG18.
  • AP3 After completing the establishment of multiple links, for the enabled link Link3, when it starts to be enabled, if AP3 does not receive any frame sent by STA3 during the corresponding "maximum idle time period during link enablement" (T2 in Figure 18) (no frame type requirement) or does not receive the specified type of frame sent by STA3 during the T2 period (with frame type requirement), then AP MLD initiates a link reconfiguration request (Link Reconfiguration Request) through Link1, and negotiates with the non-AP MLD to delete Link3. Since there are still enabled links Link1 and Link2, the non-AP MLD maintains the status of being associated with AP MLD.
  • Link Reconfiguration Request link reconfiguration request
  • the non-AP MLD initiates the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established; and/or the AP MLD manages the N links according to the communication reachability between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA corresponding to each of the N established links. This ensures that the actual communication state of the link is consistent with the link enablement state.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, so as to reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, so as to ensure that the actual communication status of the links is consistent with the link enablement status.
  • the AP MLD sets the corresponding unreachable link between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA in the N links to a disabled state, or the AP MLD deletes the corresponding unreachable link between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA in the N links, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG. 19 is a schematic flow chart of a multi-link communication method 400 according to an embodiment of the present application. As shown in FIG. 19 , the multi-link communication method 400 may include at least part of the following contents:
  • the non-AP MLD manages the N established links according to the communication reachability between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to each of the N links, where N is a positive integer.
  • the non-AP MLD manages the N established links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links, including:
  • the non-AP MLD sets the enabled link among the N links, in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable, to a disabled state, or the non-AP MLD deletes the link among the N links, in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable.
  • the manner in which the non-AP MLD handles the unreachable links between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP among the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link among the N links set to the disabled state refers to a link without flow identifier TID mapping.
  • the method when the non-AP MLD sets the enabled link corresponding to the N links, in which communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable, to a disabled state, the method further includes:
  • the non-AP MLD For a link among the N links that is set to a disabled state due to unreachable communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP, the non-AP MLD sets the link to an enabled state when communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is reachable.
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the time length T j , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to communicate with the AP MLD-affiliated AP; or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the duration T all , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to the AP MLD-affiliated AP;
  • the j-th link is the j-th link among all established links
  • the duration T j is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j is a periodic duration, and/or the duration T all is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the TID of the j-th link is mapped, the energy-saving polling PS-Poll frame, and the management frame.
  • the association request frame for multi-link establishment sent by the non-AP MLD through a non-AP STA affiliated with it includes S third indication fields, and the S third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S links, and S is a positive integer.
  • the association request frame for multilink establishment includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA corresponding to the corresponding enabled link and the AP MLD-affiliated AP is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association request frame for multi-link establishment sent by the non-AP MLD through one of its affiliated non-AP STAs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association request frame for multilink establishment includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element is unreachable.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the non-AP MLD before the non-AP MLD manages the N links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N links, the non-AP MLD initiates multi-link establishment with the AP MLD based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established, where M is a positive integer and M ⁇ N.
  • the non-AP MLD initiates establishment of multiple links with the AP MLD according to communication reachability between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to the M links to be established, including:
  • the non-AP MLD sends a first association request frame through a non-AP STA attached to it;
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA in the M links within the reachable communication range of the AP MLD affiliated AP.
  • the non-AP MLD initiates establishment of multiple links with the AP MLD according to communication reachability between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to the M links to be established, including:
  • the non-AP MLD sends a second association request frame through a non-AP STA attached to it;
  • the second association request frame is used to request the establishment of the M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding link to be established is indicated as communication unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field; wherein the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication; wherein the second indication field is respectively used to indicate whether each of the M links is enabled.
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP are reachable for communication;
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link and the AP MLD-affiliated AP can communicate with each other;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the non-AP MLD manages N links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the N established links; and/or the non-AP MLD initiates the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established. This ensures that the actual communication state of the link is consistent with the link enablement state.
  • the non-AP MLD requests to establish a link within the reachable communication range of the AP MLD-affiliated AP for the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established and the AP MLD-affiliated AP, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, so as to reflect the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, so as to ensure that the actual communication status of the links is consistent with the link enablement status.
  • the non-AP MLD sets the corresponding non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP in the N links where communication is unreachable to the non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP to a disabled state, or the non-AP MLD deletes the corresponding non-AP MLD-affiliated non-AP STA and AP MLD-affiliated AP in the N links where communication is unreachable, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG. 20 is a schematic flow chart of a multi-link communication method 500 according to an embodiment of the present application. As shown in FIG. 20 , the multi-link communication method 500 may include at least part of the following contents:
  • AP MLD manages the N established links according to the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-access point stations non-AP STAs corresponding to each of the N established links, where N is a positive integer.
  • the AP MLD manages the N links according to the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N established links, including:
  • the AP MLD sets the enabled link among the N links that is unreachable for communication between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA to a disabled state, or the AP MLD deletes the link among the N links that is unreachable for communication between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA.
  • the manner in which the AP MLD handles the unreachable links between the corresponding AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs in the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link in the N links that is set to the disabled state refers to a link without flow identifier TID mapping.
  • the method when the AP MLD sets the enabled link in the N links that is unreachable between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA to a disabled state, the method further includes:
  • the AP MLD For a link among the N links that is set to a disabled state due to unreachable communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA, the AP MLD sets the link to an enabled state if communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is reachable.
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the time length T j ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA can communicate with each other; or,
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the duration T all ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA are reachable in communication;
  • the j-th link is the j-th link among all established links
  • the duration T j ′ is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all ′ is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j ′ is a periodic duration, and/or the duration T all ′ is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the flow identifier TID of the j-th link, the energy-saving polling PS-Poll frame, and the management frame are mapped.
  • the association response frame sent by the AP MLD through an AP affiliated with it includes S′ third indication fields, and the S′ third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S′ links; wherein the association response frame is an association response frame corresponding to the association request frame for multi-link establishment, and S′ is a positive integer.
  • the association response frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the AP MLD when communication between the AP MLD-affiliated AP corresponding to the corresponding enabled link and the non-AP MLD-affiliated non-AP STA is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association response frame sent by the AP MLD through one of its affiliated APs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association response frame is an association response frame corresponding to the association request frame for multi-link establishment.
  • the association response frame includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the AP MLD when the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element and the non-AP MLD-affiliated non-AP STA cannot communicate.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the AP MLD before the AP MLD manages the N links according to communication reachabilities between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N links, the AP MLD receives a first association request frame through one of its affiliated APs;
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA among the M links within the reachable communication range of the AP MLD affiliated AP.
  • the AP MLD before the AP MLD manages the N links according to communication reachabilities between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N links, the AP MLD receives a second association request frame through one of its affiliated APs;
  • the second association request frame is used to request the establishment of M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding indication of the proposed link is that communication is unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field;
  • the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication;
  • the second indication field is used to indicate whether each link in the M links is enabled.
  • the second association request frame includes a basic multi-link element; wherein the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP are reachable for communication;
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link can communicate with the AP MLD-affiliated AP;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the AP MLD manages N links according to the communication reachability between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N established links; and/or the non-AP MLD initiates the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to the M links to be established. This ensures that the actual communication state of the link is consistent with the link enablement state.
  • the non-AP MLD requests to establish a link of the non-AP MLD-affiliated non-AP STA corresponding to each of the M links to be established within the reachable communication range of the AP MLD-affiliated AP, based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established.
  • the non-AP MLD requests to establish M links based on the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established, and reports relevant information on whether the M links are reachable for communication, and/or reports relevant information on whether the M links are enabled, thereby reflecting the actual communication status of the links.
  • the non-AP MLD can optimize the multi-link establishment process based on the communication reachability of the links to be established, thereby ensuring that the actual communication status of the links is consistent with the link enablement status.
  • the AP MLD sets the corresponding unreachable link between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA in the N links to a disabled state, or the AP MLD deletes the corresponding unreachable link between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA in the N links, thereby ensuring that the actual communication state of the link is consistent with the link enablement state.
  • FIG21 shows a schematic block diagram of a non-AP MLD 600 according to an embodiment of the present application.
  • the non-AP MLD 600 includes:
  • the communication unit 610 is used to initiate the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP STA affiliated with the AP MLD and the access point AP affiliated with the access point multi-link device AP MLD corresponding to each of the M links to be established; wherein M is a positive integer.
  • the communication unit 610 is specifically used to:
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA in the M links within the reachable communication range of the AP MLD affiliated AP.
  • the communication unit 610 is specifically used to:
  • the second association request frame is used to request the establishment of the M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding link to be established is indicated as communication unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field;
  • the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication;
  • the second indication field is used to indicate whether each link in the M links is enabled.
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP are reachable for communication;
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link and the AP MLD-affiliated AP can communicate with each other;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the non-AP MLD 600 further includes:
  • the processing unit 620 is used to manage the N established links according to the communication reachability between the non-AP MLD affiliated non-AP STA and the AP MLD affiliated AP corresponding to each of the N established links, where N is a positive integer and N ⁇ M.
  • the processing unit 620 is specifically configured to:
  • the manner in which the non-AP MLD handles the unreachable links between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP among the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link among the N links set to the disabled state refers to a link without flow identifier TID mapping.
  • the processing unit 620 when the non-AP MLD sets the enabled link among the N links in which communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable to a non-AP state, for the link among the N links that is set to the disabled state due to unreachable communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP, when communication between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is reachable, the processing unit 620 is further used to set the link to the enabled state.
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the time length T j , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to communicate with the AP MLD-affiliated AP; or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the duration T all , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to the AP MLD-affiliated AP;
  • the j-th link is the j-th link among all established links
  • the duration T j is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j is a periodic duration, and/or the duration T all is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the TID of the j-th link is mapped, the energy-saving polling PS-Poll frame, and the management frame.
  • the association request frame for multi-link establishment sent by the non-AP MLD through a non-AP STA affiliated with it includes S third indication fields, and the S third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S links, and S is a positive integer.
  • the association request frame for multilink establishment includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA corresponding to the corresponding enabled link and the AP MLD-affiliated AP is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association request frame for multi-link establishment sent by the non-AP MLD through one of its affiliated non-AP STAs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association request frame for multilink establishment includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element is unreachable.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the communication unit may be a communication interface or a transceiver, or an input/output interface of a communication chip or a system on chip.
  • the processing unit may be one or more processors.
  • non-AP MLD 600 may correspond to the non-AP MLD in the method embodiment of the present application, and the above-mentioned and other operations and/or functions of each unit in the non-AP MLD 600 are respectively for realizing the corresponding process of the non-AP MLD in the method 200 shown in Figure 3, which will not be repeated here for the sake of brevity.
  • FIG22 shows a schematic block diagram of an access point multi-link device AP MLD 700 according to an embodiment of the present application.
  • the AP MLD 700 includes:
  • the communication unit 710 is configured to receive a first association request frame or a second association request frame through an access point AP to which it is attached;
  • the first association request frame is used to request to establish a link of a non-access point multi-link device non-AP MLD-affiliated non-access point station non-AP STA corresponding to the M links within the reachable communication range of the AP MLD-affiliated AP;
  • the second association request frame is used to request the establishment of M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled;
  • M is a positive integer.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding link to be established is indicated as communication unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field;
  • the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication;
  • the second indication field is used to indicate whether each link in the M links is enabled.
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time, the communication between the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP is reachable; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link and the AP MLD-affiliated AP can communicate with each other;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the AP MLD 700 further includes:
  • the processing unit 720 is used to manage the N established links according to the communication reachability between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA corresponding to each of the N established links, where N is a positive integer and N ⁇ M.
  • the processing unit 720 is specifically configured to:
  • the manner in which the AP MLD handles the unreachable links between the corresponding AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs in the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link in the N links that is set to the disabled state refers to a link without flow identifier TID mapping.
  • the method when the AP MLD sets the enabled link in the N links that is unreachable between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA to a disabled state, the method further includes:
  • the AP MLD For a link among the N links that is set to a disabled state due to unreachable communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA, the AP MLD sets the link to an enabled state if communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is reachable.
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the time length T j ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA can communicate with each other; or,
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the duration T all ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA are reachable in communication;
  • the j-th link is the j-th link among all established links
  • the duration T j ′ is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all ′ is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j ′ is a periodic duration, and/or the duration T all ′ is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the flow identifier TID of the j-th link, the energy-saving polling PS-Poll frame, and the management frame are mapped.
  • the association response frame sent by the AP MLD through an AP affiliated thereto includes S′ third indication fields, and the S′ third indication fields are respectively used to indicate maximum idle time information during link enabling periods corresponding to the S′ links;
  • the association response frame is an association response frame corresponding to the association request frame for establishing multiple links, and S′ is a positive integer.
  • the association response frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the AP MLD when communication between the AP MLD-affiliated AP corresponding to the corresponding enabled link and the non-AP MLD-affiliated non-AP STA is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association response frame sent by the AP MLD through one of its affiliated APs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association response frame is an association response frame corresponding to the association request frame for multi-link establishment.
  • the association response frame includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the AP MLD when the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element and the non-AP MLD-affiliated non-AP STA cannot communicate.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the communication unit may be a communication interface or a transceiver, or an input/output interface of a communication chip or a system on chip.
  • the processing unit may be one or more processors.
  • the AP MLD 700 may correspond to the AP MLD in the method embodiment of the present application, and the above and other operations and/or functions of each unit in the AP MLD 700 are respectively for realizing the corresponding process of the AP MLD in the method 300 shown in Figure 16, which will not be repeated here for the sake of brevity.
  • FIG23 shows a schematic block diagram of a non-AP MLD 800 according to an embodiment of the present application.
  • the non-AP MLD 800 includes:
  • the processing unit 810 is used to manage the N established links according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the access point multi-link device AP MLD-affiliated access point AP corresponding to each of the N established links, where N is a positive integer.
  • processing unit 810 is specifically configured to:
  • the manner in which the non-AP MLD handles the unreachable links between the corresponding non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP among the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link among the N links set to the disabled state refers to a link without flow identifier TID mapping.
  • the processing unit 810 when the non-AP MLD sets the enabled link among the N links whose corresponding communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is unreachable to a non-AP state, for the link among the N links that is set to the non-enabled state due to the unreachable communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP, when the communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP is reachable, the processing unit 810 is further used to set the link to the enabled state.
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the time length T j , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to communicate with the AP MLD-affiliated AP; or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the j-th link receives at least one frame sent by the AP MLD-affiliated AP corresponding to the j-th link within the duration T all , the non-AP MLD-affiliated non-AP STA corresponding to the j-th link is reachable to the AP MLD-affiliated AP;
  • the j-th link is the j-th link among all established links
  • the duration T j is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j is a periodic duration, and/or the duration T all is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the TID of the j-th link is mapped, the energy-saving polling PS-Poll frame, and the management frame.
  • the association request frame for multi-link establishment sent by the non-AP MLD through a non-AP STA affiliated with it includes S third indication fields, and the S third indication fields are respectively used to indicate the maximum idle time information during the link enabling period corresponding to the S links, and S is a positive integer.
  • the association request frame for multilink establishment includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA corresponding to the corresponding enabled link and the AP MLD-affiliated AP is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association request frame for multi-link establishment sent by the non-AP MLD through one of its affiliated non-AP STAs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association request frame for multilink establishment includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the non-AP MLD when communication between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element is unreachable.
  • the third subfield is a maximum idle time subfield during link enablement
  • the fourth subfield is an idle option subfield during link enablement
  • the third field is a protected maintenance enablement required field
  • the fourth field is an expected behavior field exceeding the maximum space time.
  • the non-AP MLD 800 before the non-AP MLD manages the N links according to communication reachabilities between the non-AP MLD-affiliated non-AP STAs and the AP MLD-affiliated APs corresponding to the N links, the non-AP MLD 800 further includes:
  • the communication unit 810 is used to initiate the establishment of multiple links with the AP MLD according to the communication reachability between the non-AP MLD-affiliated non-AP STA and the AP MLD-affiliated AP corresponding to each of the M links to be established, where M is a positive integer and M ⁇ N.
  • the communication unit 810 is specifically used to:
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA in the M links within the reachable communication range of the AP MLD affiliated AP.
  • the communication unit 810 is specifically used to:
  • the second association request frame is used to request the establishment of the M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding link to be established is indicated as communication unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field;
  • the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication;
  • the second indication field is used to indicate whether each link in the M links is enabled.
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP are reachable for communication;
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link and the AP MLD-affiliated AP can communicate with each other;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the communication unit may be a communication interface or a transceiver, or an input/output interface of a communication chip or a system on chip.
  • the processing unit may be one or more processors.
  • non-AP MLD 800 may correspond to the non-AP MLD in the method embodiment of the present application, and the above-mentioned and other operations and/or functions of each unit in the non-AP MLD 800 are respectively for realizing the corresponding process of the non-AP MLD in the method 400 shown in Figure 19, which will not be repeated here for the sake of brevity.
  • FIG24 shows a schematic block diagram of an access point multi-link device AP MLD 900 according to an embodiment of the present application.
  • the AP MLD 900 includes:
  • the processing unit 910 is used to manage the N established links according to the communication reachability between the AP MLD-affiliated access point AP and the non-AP multi-link device non-AP MLD-affiliated non-access point station non-AP STA corresponding to each of the N established links, where N is a positive integer.
  • processing unit 910 is specifically configured to:
  • the manner in which the AP MLD handles the unreachable links between the corresponding AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs in the N links is determined by negotiation between the non-AP MLD and the AP MLD.
  • the link in the N links that is set to the disabled state refers to a link without flow identifier TID mapping.
  • the processing unit 910 when the AP MLD sets the enabled link among the N links whose corresponding communication between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA is unreachable to a disabled state, for the link among the N links that is set to the disabled state due to the unreachable communication between the corresponding AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA, when communication between the AP MLD-affiliated AP and the non-AP MLD-affiliated non-AP STA corresponding to the link is reachable, the processing unit 910 is further used to set the link to the enabled state.
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the time length T j ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA can communicate with each other; or,
  • the AP MLD-affiliated AP corresponding to the j-th link receives at least one frame sent by the non-AP MLD-affiliated non-AP STA corresponding to the j-th link within the duration T all ′, the AP MLD-affiliated AP corresponding to the j-th link and the non-AP MLD-affiliated non-AP STA are reachable in communication;
  • the j-th link is the j-th link among all established links
  • the duration T j ′ is the maximum idle time during the link enabling period corresponding to the j-th link
  • the duration T all ′ is the maximum idle time during the link enabling period corresponding to all established links
  • j is a positive integer.
  • the duration T j ′ is a periodic duration, and/or the duration T all ′ is a periodic duration.
  • the type of the at least one frame is a frame type designated to indicate a link enabled or active state.
  • the at least one frame includes at least one of:
  • the data frame corresponding to the flow identifier TID of the j-th link, the energy-saving polling PS-Poll frame, and the management frame are mapped.
  • the association response frame sent by the AP MLD through an AP affiliated thereto includes S′ third indication fields, and the S′ third indication fields are respectively used to indicate maximum idle time information during link enabling periods corresponding to the S′ links;
  • the association response frame is an association response frame corresponding to the association request frame for establishing multiple links, and S′ is a positive integer.
  • the association response frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and a first existence field, and the first existence field is used to indicate whether the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the site information field in the per-site configuration sub-element when the value of the first existence field is used to indicate that the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field, the site information field in the per-site configuration sub-element includes the third indication field corresponding to the link identified by the link identification field.
  • the third indication field is a maximum idle time information field during link enablement
  • the first existence field is a maximum idle time information existence field during link enablement
  • the third indication field includes a first subfield and a second subfield, wherein the first subfield is used to indicate the maximum idle time during the link enablement period of the corresponding link, and the second subfield includes a first field and a second field, the first field is used to indicate the type information of the frame in the enabled or active state, and the second field is used to indicate the behavior of the AP MLD when communication between the AP MLD-affiliated AP corresponding to the corresponding enabled link and the non-AP MLD-affiliated non-AP STA is unreachable.
  • the first subfield is a maximum idle time subfield during link enablement
  • the second subfield is an idle option subfield during link enablement
  • the first field is a protected maintain enablement required field
  • the second field is an expected behavior field exceeding maximum space time.
  • the association response frame sent by the AP MLD through one of its affiliated APs includes a fourth indication field, and the fourth indication field is used to indicate the maximum idle time information during the link enabling period corresponding to all established links.
  • the association response frame is an association response frame corresponding to the association request frame for multi-link establishment.
  • the association response frame includes a basic multilink element
  • the existence bitmap subfield in the multilink control field of the basic multilink element includes a second existence field, and the second existence field is used to indicate whether the general information field in the multilink control field includes the fourth indication field.
  • the general information field in the multi-link control field when the value of the second existence field is used to indicate that the general information field in the multi-link control field includes the fourth indication field, the general information field in the multi-link control field includes the fourth indication field.
  • the fourth indication field is a maximum idle time information field during link enablement
  • the second existence field is a maximum idle time information existence field during link enablement
  • the fourth indication field includes a third subfield and a fourth subfield, wherein the third subfield is used to indicate the maximum idle time during the link enablement period corresponding to all links indicated by the basic multi-link element, and the fourth subfield includes a third field and a fourth field, the third field is used to indicate the type information of the frame in the enabled or active state, and the fourth field is used to indicate the behavior of the AP MLD when the AP MLD-affiliated AP corresponding to all links indicated by the basic multi-link element and the non-AP MLD-affiliated non-AP STA cannot communicate.
  • the third subfield is the maximum idle time subfield during link enablement
  • the fourth subfield is the idle option subfield during link enablement
  • the third field is the protected maintenance enablement required field
  • the fourth field is the expected behavior field exceeding the maximum space time.
  • the AP MLD 900 before the AP MLD manages the N links according to communication reachabilities between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N links, the AP MLD 900 further includes:
  • the communication unit 920 is configured to receive a first association request frame through an AP to which it is attached;
  • the first association request frame is used to request to establish a link of the corresponding non-AP MLD affiliated non-AP STA among the M links within the reachable communication range of the AP MLD affiliated AP.
  • the AP MLD 900 before the AP MLD manages the N links according to communication reachabilities between the AP MLD-affiliated APs and the non-AP MLD-affiliated non-AP STAs corresponding to the N links, the AP MLD 900 further includes:
  • the communication unit 920 is configured to receive a second association request frame through an AP to which it is attached;
  • the second association request frame is used to request the establishment of M links, and the second association request frame includes relevant information on whether the M links are reachable for communication, and/or the second association request frame includes relevant information on whether the M links are enabled.
  • the corresponding link to be established is indicated as communication reachable and/or enabled
  • the corresponding indication of the proposed link is that communication is unreachable and/or disabled.
  • the second association request frame includes M first indication fields, and/or the second association request frame includes a second indication field;
  • the M first indication fields correspond to the M links respectively, and the M first indication fields are respectively used to indicate whether the corresponding links are reachable for communication;
  • the second indication field is used to indicate whether each link in the M links is enabled.
  • the second association request frame includes a basic multilink element
  • the site control field in the per-site configuration sub-element contained in the link information field of the basic multi-link element includes a link identification field and the first indication field corresponding to the link identified by the link identification field.
  • the first indication field is a reachability field
  • the second indication field is a flow identifier to link mapping element
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP are reachable for communication;
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link receives a frame sent by another AP in the same basic service set BSS as the AP MLD-affiliated AP corresponding to the ith proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the ith proposed link and the AP MLD-affiliated AP can communicate with each other; and/or,
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link receives a frame sent by another AP in the same multiple basic service set identifier BSSID set as the AP MLD-affiliated AP corresponding to the i-th proposed link within a preset time
  • the non-AP MLD-affiliated non-AP STA corresponding to the i-th proposed link can communicate with the AP MLD-affiliated AP;
  • the i-th link to be built is the i-th link among the M links, i is a positive integer, and 1 ⁇ i ⁇ M.
  • the preset time is configured or indicated by the AP MLD, or the preset time is determined by negotiation between the non-AP MLD and the AP MLD, or the preset time is agreed upon by a protocol.
  • the communication unit may be a communication interface or a transceiver, or an input/output interface of a communication chip or a system on chip.
  • the processing unit may be one or more processors.
  • the AP MLD 900 may correspond to the AP MLD in the method embodiment of the present application, and the above-mentioned and other operations and/or functions of each unit in the AP MLD 900 are respectively for realizing the corresponding process of the AP MLD in the method 500 shown in Figure 20, which will not be repeated here for the sake of brevity.
  • Fig. 25 is a schematic structural diagram of a communication device 1000 provided in an embodiment of the present application.
  • the communication device 1000 shown in Fig. 25 includes a processor 1010, and the processor 1010 can call and run a computer program from a memory to implement the method in the embodiment of the present application.
  • the communication device 1000 may further include a memory 1020.
  • the processor 1010 may call and run a computer program from the memory 1020 to implement the method in the embodiment of the present application.
  • the memory 1020 may be a separate device independent of the processor 1010 , or may be integrated into the processor 1010 .
  • the communication device 1000 may further include a transceiver 1030 , and the processor 1010 may control the transceiver 1030 to communicate with other devices, specifically, may send information or data to other devices, or receive information or data sent by other devices.
  • the transceiver 1030 may include a transmitter and a receiver.
  • the transceiver 1030 may further include an antenna, and the number of antennas may be one or more.
  • processor 1010 may implement the functionality of a processing unit in a non-AP MLD, or processor 1010 may implement the functionality of a processing unit in an AP MLD, which will not be described in detail here for the sake of brevity.
  • transceiver 1030 may implement the functionality of a communication unit in a non-AP MLD, which will not be described herein for brevity.
  • transceiver 1030 may implement the functionality of a communication unit in AP MLD, which will not be described herein for brevity.
  • the communication device 1000 may specifically be the AP MLD of the embodiment of the present application, and the communication device 1000 may implement the corresponding processes implemented by the AP MLD in the various methods of the embodiment of the present application, which will not be described again here for the sake of brevity.
  • the communication device 1000 may specifically be the non-AP MLD of the embodiment of the present application, and the communication device 1000 may implement the corresponding processes implemented by the non-AP MLD in the various methods of the embodiment of the present application, which will not be described herein for the sake of brevity.
  • Fig. 26 is a schematic structural diagram of a device according to an embodiment of the present application.
  • the device 1100 shown in Fig. 26 includes a processor 1110, and the processor 1110 can call and run a computer program from a memory to implement the method according to the embodiment of the present application.
  • the apparatus 1100 may further include a memory 1120.
  • the processor 1110 may call and run a computer program from the memory 1120 to implement the method in the embodiment of the present application.
  • the memory 1120 may be a separate device independent of the processor 1110 , or may be integrated into the processor 1110 .
  • the device 1100 may further include an input interface 1130.
  • the processor 1110 may control the input interface 1130 to communicate with other devices or chips, and specifically, may obtain information or data sent by other devices or chips.
  • the processor 1110 may be located inside or outside the chip.
  • processor 1110 may implement the functionality of a processing unit in a non-AP MLD, or processor 1110 may implement the functionality of a processing unit in an AP MLD, which will not be described in detail here for the sake of brevity.
  • input interface 1130 may implement the functionality of a communication unit in a non-AP MLD, or input interface 1130 may implement the functionality of a communication unit in an AP MLD.
  • the apparatus 1100 may further include an output interface 1140.
  • the processor 1110 may control the output interface 1140 to communicate with other devices or chips, and specifically, may output information or data to other devices or chips.
  • the processor 1110 may be located inside or outside the chip.
  • the output interface 1140 may implement the functionality of a communication unit in a non-AP MLD, or the output interface 1140 may implement the functionality of a communication unit in an AP MLD.
  • the device can be applied to the non-AP MLD in the embodiments of the present application, and the device can implement the corresponding processes implemented by the non-AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the device can be applied to the AP MLD in the embodiments of the present application, and the device can implement the corresponding processes implemented by the AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the device mentioned in the embodiments of the present application may also be a chip, for example, a system-on-chip, a system-on-chip, a chip system, or a system-on-chip chip.
  • FIG27 is a schematic block diagram of a communication system 1200 provided in an embodiment of the present application. As shown in FIG27 , the communication system 1200 includes a non-AP MLD 1210 and an AP MLD 1220.
  • the non-AP MLD 1210 can be used to implement the corresponding functions implemented by the non-AP MLD in the above method
  • the AP MLD 1220 can be used to implement the corresponding functions implemented by the AP MLD in the above method.
  • the sake of brevity they will not be repeated here.
  • the processor of the embodiment of the present application may be an integrated circuit chip with signal processing capabilities.
  • each step of the above method embodiment can be completed by the hardware integrated logic circuit in the processor or the instruction in the form of software.
  • the above processor can be a general processor, a digital signal processor (Digital Signal Processor, DSP), an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a field programmable gate array (Field Programmable Gate Array, FPGA) or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components.
  • DSP Digital Signal Processor
  • ASIC Application Specific Integrated Circuit
  • FPGA Field Programmable Gate Array
  • the methods, steps and logic block diagrams disclosed in the embodiments of the present application can be implemented or executed.
  • the general processor can be a microprocessor or the processor can also be any conventional processor, etc.
  • the steps of the method disclosed in the embodiment of the present application can be directly embodied as a hardware decoding processor to perform, or the hardware and software modules in the decoding processor can be combined to perform.
  • the software module can be located in a mature storage medium in the field such as a random access memory, a flash memory, a read-only memory, a programmable read-only memory or an electrically erasable programmable memory, a register, etc.
  • the storage medium is located in the memory, and the processor reads the information in the memory and completes the steps of the above method in combination with its hardware.
  • the memory in the embodiment of the present application can be a volatile memory or a non-volatile memory, or can include both volatile and non-volatile memories.
  • the non-volatile memory can be a read-only memory (ROM), a programmable read-only memory (PROM), an erasable programmable read-only memory (EPROM), an electrically erasable programmable read-only memory (EEPROM), or a flash memory.
  • the volatile memory can be a random access memory (RAM), which is used as an external cache.
  • RAM Direct Rambus RAM
  • SRAM Static RAM
  • DRAM Dynamic RAM
  • SDRAM Synchronous DRAM
  • DDR SDRAM Double Data Rate SDRAM
  • ESDRAM Enhanced SDRAM
  • SLDRAM Synchlink DRAM
  • DR RAM Direct Rambus RAM
  • the memory in the embodiment of the present application may also be static random access memory (static RAM, SRAM), dynamic random access memory (dynamic RAM, DRAM), synchronous dynamic random access memory (synchronous DRAM, SDRAM), double data rate synchronous dynamic random access memory (double data rate SDRAM, DDR SDRAM), enhanced synchronous dynamic random access memory (enhanced SDRAM, ESDRAM), synchronous link dynamic random access memory (synch link DRAM, SLDRAM) and direct memory bus random access memory (Direct Rambus RAM, DR RAM), etc. That is to say, the memory in the embodiment of the present application is intended to include but not limited to these and any other suitable types of memory.
  • An embodiment of the present application also provides a computer-readable storage medium for storing a computer program.
  • the computer-readable storage medium can be applied to the AP MLD in the embodiments of the present application, and the computer program enables the computer to execute the corresponding processes implemented by the AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the computer-readable storage medium can be applied to the non-AP MLD in the embodiments of the present application, and the computer program enables the computer to execute the corresponding processes implemented by the non-AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • An embodiment of the present application also provides a computer program product, including computer program instructions.
  • the computer program product can be applied to the AP MLD in the embodiments of the present application, and the computer program instructions enable the computer to execute the corresponding processes implemented by the AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the computer program product can be applied to the non-AP MLD in the embodiments of the present application, and the computer program instructions enable the computer to execute the corresponding processes implemented by the non-AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the embodiment of the present application also provides a computer program.
  • the computer program can be applied to the AP MLD in the embodiments of the present application.
  • the computer program runs on a computer, the computer executes the corresponding processes implemented by the AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the computer program can be applied to the non-AP MLD in the embodiments of the present application.
  • the computer program runs on a computer, the computer executes the corresponding processes implemented by the non-AP MLD in the various methods of the embodiments of the present application. For the sake of brevity, they will not be repeated here.
  • the disclosed systems, devices and methods can be implemented in other ways.
  • the device embodiments described above are only schematic.
  • the division of the units is only a logical function division. There may be other division methods in actual implementation, such as multiple units or components can be combined or integrated into another system, or some features can be ignored or not executed.
  • Another point is that the mutual coupling or direct coupling or communication connection shown or discussed can be through some interfaces, indirect coupling or communication connection of devices or units, which can be electrical, mechanical or other forms.
  • the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in one place or distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
  • each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
  • the functions are implemented in the form of software functional units and sold or used as independent products, they can be stored in a computer-readable storage medium.
  • the technical solution of the present application can be embodied in the form of a software product in essence or in other words, the part that contributes to the prior art or the part of the technical solution.
  • the computer software product is stored in a storage medium and includes several instructions for a computer device (which can be a personal computer, server, or network device, etc.) to execute all or part of the steps of the methods described in each embodiment of the present application.
  • the aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM), random access memory (RAM), disk or optical disk, and other media that can store program codes.

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