802.11aq
============

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   802_11aq/802_11aq
   802_11aq/mac_functions
   802_11aq/mac_timings
   802_11aq/packet_formats
   802_11aq/power_save
   802_11aq/interoperability
   802_11aq/physical_rates
   802_11aq/ppdu


802.11aq is a Wi-Fi protocol amendment that enables pre-association service discovery, allowing devices to discover available services before connecting to a network.


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   * - Category
     - Description
     - Use Case
   * - MAC Functions
     - Enhancements to MAC layer to support pre-association service discovery.
     - Allowing devices to discover network services before connecting
   * - MAC Timings
     - Adjusted MAC operations to enable timely service discovery frames.
     - Efficient coordination of discovery messages during scanning
   * - Packet Formats
     - New or modified frame types to carry service discovery information.
     - Structured communication of service availability to clients
   * - Power Save
     - Support for low-power discovery without full association.
     - Enables energy-efficient scanning for services
   * - Interoperability
     - Designed to be compatible with existing 802.11 infrastructure.
     - Allows integration with legacy devices and networks
   * - Physical Rates
     - Utilizes underlying PHY capabilities of the base 802.11 standard.
     - Ensures flexible deployment across various PHY implementations
   * - PPDU
     - No changes to the PPDU format; leverages existing PHY layer structures.
     - Maintains compatibility while enabling new MAC-level features


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   .. tab-item:: 802.11aq MAC Functions

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Enhances MAC functionality for pre-association service discovery
      - Allows devices to discover available services before connecting
      - Supports extended service advertisements in Wi-Fi networks
      - Works with existing MAC mechanisms to provide seamless service awareness
      - Helps IoT and mobile devices find context-relevant services faster
      - Integrates with higher-layer protocols to advertise network capabilities

      **Use Cases:**

      - Enabling pre-association service discovery in public Wi-Fi
      - Supporting smart city and IoT applications needing early service context
      - Improving user experience by reducing time-to-service

      **Related Functions:**

      - Service advertisement frameworks
      - Information Elements (IEs) used in Beacon and Probe Response frames
      - MAC-layer enhancements for non-associated service access
      - Compatibility with legacy 802.11 MAC operations

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         **Explore the details of 802.11aq MAC Functions:**

         * :ref:`Learnings in this section <mac_functions_step1>`

         * :ref:`Terminology <mac_functions_step2>`

         * :ref:`Version Info <mac_functions_step3>`

         * :ref:`mac_functions Basic Setup on Ubuntu using IPv4 <mac_functions_step18>`

         * :ref:`Reference links <mac_functions_step17>`

      .. button-link:: ./802_11aq/mac_functions.html
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   .. tab-item:: 802.11aq MAC Timings

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Introduces timing considerations for pre-association service discovery
      - Maintains compatibility with existing 802.11 MAC timing mechanisms
      - Coordinates timing of service advertisements using standard intervals
      - Leverages existing Interframe Spaces (SIFS, DIFS) for media access
      - Ensures reliable and timely discovery of services before association
      - Synchronizes service delivery with beacon/probe frame timing

      **Use Cases:**

      - Timing service announcements for unassociated clients
      - Enhancing responsiveness in IoT and mobile discovery scenarios
      - Coordinating efficient service discovery in dense Wi-Fi environments

      **Related Timing Parameters:**

      - Short Interframe Space (SIFS)
      - Distributed Interframe Space (DIFS)
      - Timing of Beacon and Probe Response frames
      - Contention window timing for service-based access

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         **Explore the details of 802.11aq MAC Timings:**

         * :ref:`Learnings in this section <mac_timings_step1>`

         * :ref:`Terminology <mac_timings_step2>`

         * :ref:`Version Info <mac_timings_step3>`

         * :ref:`mac_timings Basic Setup on Ubuntu using IPv4 <mac_timings_step18>`

         * :ref:`Reference links <mac_timings_step17>`

      .. button-link:: ./802_11aq/mac_timings.html
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         Jump to "802.11aq MAC Timings"


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   .. tab-item:: 802.11aq Packet Formats

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Extends standard 802.11 frame formats to support service discovery
      - Adds new Information Elements (IEs) to management frames (e.g., Beacons, Probe Responses)
      - Ensures backward compatibility with legacy frame structures
      - Leverages existing MAC and PHY headers defined in prior amendments
      - Enables pre-association advertisement of services via standardized frame fields
      - Maintains support for QoS and security features within extended frames

      **Use Cases:**

      - Broadcasting service availability information before client association
      - Embedding metadata in Wi-Fi frames to support smarter device behavior
      - Supporting seamless connectivity in IoT and mobile-first environments

      **Related Frame Types:**

      - Management frames (e.g., Beacon with Service Discovery IE)
      - Probe Request/Response frames with extended service data
      - Data and Control frames reused without modification

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         **Explore the details of 802.11aq Packet Formats:**

         * :ref:`Learnings in this section <packet_formats_step1>`

         * :ref:`Terminology <packet_formats_step2>`

         * :ref:`Version Info <packet_formats_step3>`

         * :ref:`packet_formats Basic Setup on Ubuntu using IPv4 <packet_formats_step18>`

         * :ref:`Reference links <packet_formats_step17>`

      .. button-link:: ./802_11aq/packet_formats.html
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   .. tab-item:: 802.11aq Power Saving Mechanisms

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Builds on legacy Power Save Mode (PSM) with enhancements for service discovery
      - Optimizes timing and power use during pre-association phases
      - Enables unassociated clients to conserve energy while listening for service advertisements
      - Extends use of Beacon and Probe Response timing to minimize wake duration
      - Integrates with Delivery Traffic Indication Message (DTIM) and Traffic Indication Map (TIM)
      - Facilitates efficient discovery while maintaining low power profiles in IoT devices

      **Use Cases:**

      - Reducing energy use during service discovery for mobile and IoT clients
      - Supporting low-power Wi-Fi devices in smart environments
      - Improving pre-association efficiency without sacrificing battery life

      **Related Mechanisms:**

      - TIM and DTIM fields used for service announcement coordination
      - Extended sleep intervals for passive discovery
      - Efficient scanning strategies for low-duty-cycle devices

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         **Explore the details of 802.11aq Power Saving mechanisms:**

         * :ref:`Learnings in this section <power_save_step1>`

         * :ref:`Terminology <power_save_step2>`

         * :ref:`Version Info <power_save_step3>`

         * :ref:`power_save Basic Setup on Ubuntu using IPv4 <power_save_step18>`

         * :ref:`Reference links <power_save_step17>`

      .. button-link:: ./802_11aq/power_save.html
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   .. tab-item:: 802.11aq Interoperability

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Ensures compatibility across devices implementing pre-association service discovery
      - Supports coexistence with legacy 802.11 standards and dual-band operations
      - Defines standardized service advertisement formats for seamless integration
      - Uses common MAC and PHY layer procedures to maintain interoperability
      - Implements clear channel assessment (CCA) and CSMA/CA for media coordination
      - Facilitates coexistence with other wireless systems sharing the 2.4/5 GHz bands

      **Use Cases:**

      - Enabling multi-vendor deployments supporting 802.11aq service discovery
      - Supporting seamless roaming and handoff in mixed-standard Wi-Fi networks
      - Allowing legacy and new devices to operate harmoniously in overlapping bands

      **Related Mechanisms:**

      - Standardized management and service discovery frame formats
      - Frequency band coordination and coexistence mechanisms
      - Unified PHY and MAC procedures for interoperability

      .. panels::
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         **Explore the details of 802.11aq Interoperability mechanisms:**

         * :ref:`Learnings in this section <interoperability_step1>`

         * :ref:`Terminology <interoperability_step2>`

         * :ref:`Version Info <interoperability_step3>`

         * :ref:`interoperability Basic Setup on Ubuntu using IPv4 <interoperability_step18>`

         * :ref:`Reference links <interoperability_step17>`

      .. button-link:: ./802_11aq/interoperability.html
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   .. tab-item:: 802.11aq Physical Rates

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Builds on existing physical layer rates defined in legacy 802.11 standards
      - Supports OFDM modulation with rates compatible with 802.11a/n/ac where applicable
      - Focuses primarily on MAC layer enhancements; physical rates remain aligned with underlying PHY
      - Operates in 2.4 GHz and 5 GHz bands depending on deployment scenario
      - Enables efficient pre-association service discovery without impacting PHY performance
      - Adapts to channel conditions using legacy rate adaptation schemes

      **Use Cases:**

      - Maintaining PHY data rates while adding service discovery capabilities
      - Supporting seamless integration with existing Wi-Fi physical layers
      - Enabling high-throughput wireless connections alongside enhanced service features

      **Related Concepts:**

      - Rate adaptation and modulation coding schemes (MCS)
      - Channel bandwidth and frequency allocation
      - Integration of PHY rates with MAC-layer service discovery

      .. panels::
         :container: container pb-4
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         **Explore the details of 802.11aq Physical Rates:**

         * :ref:`Learnings in this section <physical_rates_step1>`

         * :ref:`Terminology <physical_rates_step2>`

         * :ref:`Version Info <physical_rates_step3>`

         * :ref:`physical_rates Basic Setup on Ubuntu using IPv4 <physical_rates_step18>`

         * :ref:`Reference links <physical_rates_step17>`

      .. button-link:: ./802_11aq/physical_rates.html
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         Jump to "802.11aq Physical Rates"


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   .. tab-item:: 802.11aq PPDU

      **Standard:** IEEE 802.11aq (2018)

      **Main Features:**

      - Builds on the existing 802.11 PHY PPDU structure without altering base format
      - Includes legacy preamble for synchronization and channel estimation
      - Utilizes SIGNAL field consistent with 802.11a/n/ac standards to indicate rate and length
      - Supports transmission of MAC frames including service discovery extensions
      - Maintains robust modulation and coding techniques for reliable 5 GHz communication
      - Enables integration of pre-association service discovery without PHY layer changes

      **Use Cases:**

      - Ensuring compatibility with existing PHY encapsulation mechanisms
      - Supporting service discovery within standard PPDU frames
      - Maintaining synchronization and efficient wireless transmission

      **Related Concepts:**

      - OFDM symbol and subcarrier structure
      - Service and tail bits in PPDU frame
      - Channel coding, interleaving, and error correction

      .. panels::
         :container: container pb-4
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         :card: What You Will Learn in This Section

         **Explore the details of 802.11aq PPDU:**

         * :ref:`Learnings in this section <ppdu_step1>`

         * :ref:`Terminology <ppdu_step2>`

         * :ref:`Version Info <ppdu_step3>`

         * :ref:`ppdu Basic Setup on Ubuntu using IPv4 <ppdu_step18>`

         * :ref:`Reference links <ppdu_step17>`

      .. button-link:: ./802_11aq/ppdu.html
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         Jump to "802.11aq PPDU"