802.11ae
==============

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   802_11ae/802_11ae
   802_11ae/mac_functions
   802_11ae/mac_timings
   802_11ae/packet_formats
   802_11ae/power_save
   802_11ae/interoperability
   802_11ae/physical_rates
   802_11ae/ppdu

IEEE 802.11ae is an amendment that defines mechanisms for prioritizing management frames to improve quality of service (QoS) in Wi-Fi networks.

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   * - Category
     - Description
     - Use Case
   * - MAC Functions
     - Defines prioritization mechanisms for management frames within the MAC layer.
     - Ensuring timely and orderly delivery of management frames in Wi-Fi networks.
   * - MAC Timings
     - Adjustments in timing to support prioritized management frame transmission.
     - Improving responsiveness and reducing delays for critical management traffic.
   * - Packet Formats
     - Enhanced frame formats to support management frame prioritization.
     - Differentiating management frames for QoS handling.
   * - Power Save
     - Coordination with power-saving mechanisms to prioritize management traffic.
     - Maintaining efficient power usage without sacrificing management frame delivery.
   * - Interoperability
     - Ensures compatibility across devices with and without management frame prioritization.
     - Facilitating multi-vendor support and smooth network operation.
   * - Physical Rates
     - Uses existing physical rates; focuses on MAC layer management enhancements.
     - Maintaining efficient data transmission while improving management QoS.
   * - PPDU
     - No changes at the PPDU level; enhancements focus on MAC layer prioritization.
     - Seamless integration with existing physical layer protocols.


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   .. tab-item:: 802.11ae MAC Functions

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Provides prioritization and management of management frames within the MAC layer
      - Enables enhanced Quality of Service (QoS) for management traffic
      - Controls transmission ordering and prioritization of critical management frames
      - Works alongside existing MAC functions like frame delimiting and error detection
      - Supports improved network management and control message delivery
      - Integrates with power-saving and interoperability mechanisms

      **Use Cases:**

      - Ensuring timely delivery of management frames in congested wireless networks
      - Enhancing overall network performance by prioritizing control traffic
      - Supporting enterprise Wi-Fi environments with strict QoS requirements

      **Related Functions:**

      - Management frame prioritization
      - Frame control and addressing schemes
      - QoS enhancement for management traffic
      - Coordination with power management signaling

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         **Explore the details of 802.11ae 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_11ae/mac_functions.html
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   .. tab-item:: 802.11ae MAC Timings

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Defines timing parameters specific to management frame prioritization and transmission
      - Includes Interframe Spaces (SIFS, DIFS, AIFS) to coordinate prioritized access for management frames
      - Specifies slot times and contention windows adapted for enhanced QoS
      - Ensures timely delivery and collision avoidance for critical management traffic
      - Manages retransmission timing and acknowledgment for management frames
      - Synchronizes MAC and PHY layers to support management frame QoS enhancements

      **Use Cases:**

      - Prioritizing management frame transmissions in congested wireless environments
      - Reducing delays and collisions for management traffic with strict timing controls
      - Supporting enhanced Quality of Service (QoS) for management operations

      **Related Timing Parameters:**

      - Short Interframe Space (SIFS)
      - Distributed Interframe Space (DIFS)
      - Arbitration Interframe Space (AIFS) with prioritization
      - Slot time and backoff timers tailored for management frames

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         **Explore the details of 802.11ae 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>`

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         Jump to "802.11ae MAC Timings"


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   .. tab-item:: 802.11ae Packet Formats

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Defines the structure of MAC and PHY layer frames with emphasis on management frame prioritization
      - Includes Frame Control, Duration, Address fields, Sequence Control, and CRC with enhancements for management frames
      - Supports prioritized management frames along with standard data and control frames
      - Uses OFDM and other PHY techniques per 802.11 standards for efficient transmission
      - Frame formats support management frame classification and QoS tagging
      - Enables fragmentation and reassembly including for prioritized management frames

      **Use Cases:**

      - Structuring wireless packets to support management frame prioritization in WLANs
      - Ensuring timely delivery and acknowledgment of high-priority management traffic
      - Enhancing interoperability by standardizing prioritized management frame formats

      **Related Frame Types:**

      - Prioritized management frames (e.g., enhanced Beacon, QoS Action frames)
      - Control frames (e.g., ACK, RTS, CTS)
      - Data frames with QoS and management priorities

      .. panels::
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         **Explore the details of 802.11ae 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>`

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   .. tab-item:: 802.11ae Power Saving Mechanisms

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Enhances power saving by prioritizing management frame delivery efficiently
      - Supports mechanisms for timely transmission and reception of prioritized management frames with minimal wake time
      - Works with existing Power Save Mode (PSM) and Unscheduled Automatic Power Save Delivery (U-APSD)
      - Enables access points to manage buffered prioritized management frames during client sleep cycles
      - Reduces power consumption in devices by optimizing management traffic handling
      - Coordinates with MAC layer to maintain QoS and power efficiency for management frame traffic

      **Use Cases:**

      - Extending battery life of Wi-Fi devices requiring prioritized management frame delivery
      - Optimizing power consumption in enterprise WLANs with QoS-sensitive management traffic
      - Balancing performance and energy savings in Wi-Fi networks with management frame prioritization

      **Related Mechanisms:**

      - Management frame prioritization
      - Integration with existing power save protocols like PSM and U-APSD
      - Beacon and TIM enhancements for prioritized frame buffering

      .. panels::
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         **Explore the details of 802.11ae 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>`

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   .. tab-item:: 802.11ae Interoperability

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Ensures compatibility between devices implementing management frame prioritization
      - Works seamlessly with existing 802.11 standards and power save mechanisms like PSM and U-APSD
      - Defines standardized signaling for prioritized management frame delivery across vendors
      - Supports coexistence with legacy devices and heterogeneous Wi-Fi environments
      - Facilitates integration of management frame prioritization without disrupting normal MAC/PHY operations
      - Enables reliable and efficient management traffic handling in multi-vendor enterprise networks

      **Use Cases:**

      - Enabling interoperability of prioritized management frame delivery in mixed device networks
      - Supporting enterprise WLANs with enhanced QoS and power-saving features
      - Allowing seamless operation of management frame prioritization across different vendors and devices

      **Related Mechanisms:**

      - Management frame prioritization signaling
      - Integration with legacy power save and QoS protocols
      - Standardized MAC procedures for frame delivery and buffering

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

         **Explore the details of 802.11ae 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>`

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   .. tab-item:: 802.11ae Physical Rates

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Defines physical layer rates for management frame prioritization mechanisms
      - Operates alongside existing 802.11 PHY rates without introducing new data rates
      - Compatible with various modulation and coding schemes (MCS) used in 802.11 standards
      - Supports dynamic rate adaptation based on channel conditions and device capabilities
      - Works with standard 20 MHz channel widths typically used in 2.4 GHz and 5 GHz bands
      - Ensures reliable delivery of prioritized management frames with minimal impact on throughput

      **Use Cases:**

      - Prioritized transmission of management frames in enterprise WLANs
      - Enhancing QoS by managing management traffic efficiently at physical layer rates
      - Seamless integration with existing PHY rate adaptation and power save features

      **Related Concepts:**

      - Management frame prioritization and delivery
      - Modulation and coding schemes (MCS) in 802.11 PHY layers
      - Rate adaptation algorithms and QoS management

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

         **Explore the details of 802.11ae 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>`

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   .. tab-item:: 802.11ae PPDU

      **Standard:** IEEE 802.11ae (2012)

      **Main Features:**

      - Defines the Physical Protocol Data Unit (PPDU) related to management frame prioritization
      - Works in conjunction with existing 802.11 PHY PPDU formats without changing core structure
      - Supports enhanced signaling for prioritized management frame delivery
      - Ensures compatibility with various modulation and coding schemes (MCS) used in 802.11 standards
      - Incorporates mechanisms to improve reliability of management traffic transmission
      - Facilitates efficient use of spectrum in 2.4 GHz and 5 GHz bands through adaptive techniques

      **Use Cases:**

      - Prioritizing delivery of management frames at the PHY level
      - Improving quality of service (QoS) for critical network management tasks
      - Enabling interoperability with other 802.11 amendments and devices

      **Related Concepts:**

      - PHY layer signaling enhancements
      - Management frame prioritization
      - Modulation and coding schemes (MCS)

      .. panels::
         :container: container pb-4
         :column: col-lg-12 p-2
         :card: What You Will Learn in This Section

         **Explore the details of 802.11ae 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_11ae/ppdu.html
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