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IEEE IP over Broadband Access in Support of Convergence

Global Standards Collaboration (GSC) 14. IEEE IP over Broadband Access in Support of Convergence. Dr. W. Charlton Adams, President, IEEE Standards Association. IP over Broadband Access in Support of Convergence: IEEE 802.11.

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IEEE IP over Broadband Access in Support of Convergence

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  1. Global Standards Collaboration (GSC) 14 IEEEIP over Broadband Access in Support of Convergence Dr. W. Charlton Adams, President, IEEE Standards Association

  2. IP over Broadband Access in Support of Convergence: IEEE 802.11 IEEE Standard for Information Technology—Telecommunications and Information Exchange Between Systems—Local and Metropolitan Area Networks—Specific Requirements—Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Scope: The scope of this standard is to define one medium access control (MAC) and several physical layer (PHY) specifications for wireless connectivity for fixed, portable, and moving stations (STAs) within a local area. Purpose: The purpose of this standard is to provide wireless connectivity for fixed, portable, and moving stations within a local area. This standard also offers regulatory bodies a means of standardizing access to one or more frequency bands for the purpose of local area communication.

  3. IP over Broadband Access in Support of Convergence: IEEE 802.16 IEEE Standard for Local and Metropolitan Area Networks— Part 16: Air Interface for Broadband Wireless Access Systems Scope: This standard specifies the air interface, including the medium access control layer (MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access (BWA) systems providing multiple services. The MAC is structured to support multiple PHY specifications, each suited to a particular operational environment. Purpose: This standard enables rapid worldwide deployment of innovative, cost-effective, and interoperable multivendor broadband wireless access products, facilitates competition in broadband access by providing alternatives to wireline broadband access, encourages consistent worldwide spectrum allocation, and accelerates the commercialization of broadband wireless access systems.

  4. IP over Broadband Access in Support of Convergence: IEEE 802.20 IEEE Standard for Local and Metropolitan Area Networks— Part 20: Air Interface for Mobile Broadband Wireless Access Systems Supporting Vehicular Mobility—Physical and Media Access Control Layer Specification Scope: This standard specifies the physical and medium access control layers of an air interface for interoperable mobile broadband wireless access systems, operating in licensed bands below 3.5 GHz. The system is optimized for IP-data transport, with peak data rates per user in excess of 1 Mbps.

  5. IP over Broadband Access in Support of Convergence: IEEE 802.22 Draft Standard for Information Technology—Telecommunications and information exchange between systems—Wireless Regional Area Networks (WRAN)—Specific requirements—Part 22: Cognitive Wireless RAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Policies & procedures for operation in the TV Bands Scope: This standard specifies the air interface, including the medium access control layer (MAC) and physical layer (PHY), of fixed point-to- multipoint wireless regional area networks operating in the VHF/UHF TV broadcast bands between 54 MHz and 862 MHz. Purpose: This standard is intended to enable deployment of interoperable 802 multivendor wireless regional area network products, to facilitate competition in broadband access by providing alternatives to wireline broadband access and extending the deployability of such systems into diverse geographic areas, including sparsely populated rural areas, while preventing harmful interference to incumbent licensed services in the TV broadcast bands.

  6. Wireless Access including RLANs & ad-hoc Networking: IEEE 802.11ad IEEE Standard for Information Technology—Telecommunications and Information Exchange Between Systems—Local and Metropolitan Area Networks—Specific Requirements—Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications—Amendment: Enhancements for Very High Throughput in the 60 GHz Band Scope: This amendment defines standardized modifications to both the 802.11 physical layers (PHY) and the 802.11 Medium Access Control Layer (MAC) to enable operation in the 60 GHz frequency band (typically 57-66 GHz) capable of very high throughput. The MAC and PHY specified in this amendment: • Enables a maximum throughput of at least 1 Gbps, as measured at the MAC data service access point (SAP) • Enables fast session transfer between PHYs • Maintains the 802.11 user experience • Provides mechanisms that enable coexistence with other systems in the band including IEEE 802.15.3c systems Purpose: The purpose of the amendment is to improve the 802.11 user experience by providing significantly higher throughput for local area networking.

  7. Wireless Access including RLANs & ad-hoc Networking: IEEE 802.11 series Approved IEEE standards IEEE drafts under development • IEEE P802.11s • IEEE P802.11v • IEEE P802.11w • IEEE P802.11z • IEEE P802.11.2 IEEE Std 802.11-2007 IEEE Std 802.11k-2008 IEEE Std 802.11r-2008 IEEE Std 802.11y-2008 IEEE Std 802.11a-1999 IEEE Std 802.11b-1999 IEEE Std 802.11d-2001 IEEE Std 802.11e-2005 IEEE Std 802.11F-2003 IEEE Std 802.11g-2003 IEEE Std 802.11h-2003 IEEE Std 802.11i-2004 IEEE Std 802.11j-2004

  8. Wireless Access including RLANs & ad-hoc Networking: IEEE 802.15.1 IEEE Standard for Information Technology—Telecommunications and information exchange Systems between systems—Local and metropolitan area networks—Specific requirements—- Part 15.1a: Wireless Medium Access Control (MAC) and Physical Layer (PHY) specifications for Wireless Personal Area Networks (WPAN) • Scope: Incorporates the changes between 802-15-1-2002 (Bluetooth specification 1.1) and Bluetooth Specification 1.2 into 802-15-1-2002. The scope of the original project was: To define PHY and MAC specifications for wireless connectivity with fixed, portable and moving devices within or entering a Personal Operating Space (POS). A goal of the WPAN Group will be to achieve a level of interoperability which could allow the transfer of data between a WPAN device and an 802.11 device. A Personal Operating Space (POS) is the space about a person or object that typically extends up to 10 meters in all directions and envelops the person whether stationary or in motion. The proposed WPAN Standard will be developed to ensure coexistence with all 802.11 Networks. • Project purpose: Incorporates editorial changes, the errata from 802-15-1-2002 (Bluetooth spec 1.1), the functional changes between 802-15-1-2002 (Bluetooth1.1) and Bluetooth specification 1.2 into 802-15-1-2002. Specifically these include: Format (new volume structure, cleaner formatting); Fixes (Errata from the SIG and IEEE applied, Language cleanup (nomenclature + IEEE)); Features (Architectural Overview, Faster Connections, Adaptive Frequency Hopping for improved coexistence, Extended SCO, Scatternet / Scattermode / Absence Masks, Anonymity Mode, L2CAP Flow & Error Control, LMP Improvements / HCI Improvements); Full Backward Compatibility with 802-15-1-2002 ( Bluetooth Specificaton 1.1)

  9. Wireless Access including RLANs & ad-hoc Networking: IEEE 802.15.3 IEEE Standard for Information Technology—Telecommunications and Information Exchange Between Systems—Local and Metropolitan Area Networks—Specific Requirements— Part 15.3: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for High Rate Wireless Personal Area Networks (WPAN) Standard for a Next Generation Service Overlay Network Scope: Defines the PHY and MAC specifications for high data rate wireless connectivity with fixed, portable and moving devices within or entering a Personal Operating Space (POS). A goal of the WPAN-HR (High Rate) Task Group is to achieve a level of interoperability or coexistence with other 802.15 Task Groups. It is also the intent to work toward a level of coexistence with other wireless devices in conjunction with Coexistence Task Groups such as 802.15.2. Purpose: Provides a standard for low complexity, low cost, low power consumption (comparable to the goals of 802.15.1) and high data rate wireless connectivity among devices within or entering the Personal Operating Space (POS). The data rate will be high enough, 20 Mbps or more, to satisfy a set of consumer multimedia industry needs for WPAN communications. Also addresses the Quality of Service capabilities required to support multimedia data types.

  10. Wireless Access including RLANs & ad-hoc Networking: IEEE 802.15.4 IEEE Standard for Information Technology—Telecommunications and Information Exchange Between Systems— Local and Metropolitan Area Networks—Specific Requirements—Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low Rate Wireless Personal Area Networks (WPANs) Scope: Produces specific enhancements and corrections to IEEE Std 802.15.4, all of which will be backwards compatible with IEEE Std 802.15.4-2003. These enhancements and corrections include resolving ambiguities, reducing unnecessary complexity, increasing flexibility in security key usage, considerations for newly available frequency allocations, and others. Defines the physical layer (PHY) and medium access control (MAC) sublayer specifications for low-data-rate wireless connectivity with fixed, portable, and moving devices with no battery or very limited battery consumption requirements typically operating in the personal operating space (POS) of 10 m. It is foreseen that, depending on the application, a longer range at a lower data rate may be an acceptable tradeoff. It is the intent of this revision to work toward a level of coexistence with other wireless devices in conjunction with Coexistence Task Groups, such as IEEE 802.15.2 and IEEE 802.11/ETSI-BRAN/MMAC 5GSG. Purpose: Extends the market applicability of IEEE Std 802.15.4 and to remove ambiguities in the standard. Implementations of the 2003 edition of this standard have revealed potential areas of improvements. Additional frequency bands are being made available in various countries that are attractive for this application space.

  11. Mobile Multimedia Broadcast & Multicast: IEEE 802.16 series Approved IEEE standards IEEE Std 802.16-2009 IEEE Std 802.16.2-2004 IEEE Std 802.16f-2006 IEEE Std 802.16g-2007 IEEE Std 802.16k-2007 IEEE Std 802.16/ Conformance01-2003 IEEE Std 802.16/ Conformance03-2004 IEEE Std 802.16/ Conformance04-2006 IEEE Std 802.16a-2003 IEEE Std 802.16c-2002

  12. NGN—General:IEEE P1903 Draft Standard for a Next Generation Service Overlay Network Scope: Describes a framework of Internet Protocol(IP)-based service overlay networks and specifies context-aware, (e.g., such as required Quality of Service(QoS) level, type of service such as real-time vs. data, nature of data stream such as I-frame vs. B-frame, and type of terminal such as TV monitor vs. Personal Digital Assistant) dynamically adaptive (e.g., using locally derived information to discover, organize, and maintain traffic flows in the network within a local area network), and self-organizing networking capabilities (e.g., developing network structures based on the needs of the customers and the capabilities of existing network structures), including advanced routing and forwarding schemes, and that are independent of underlying transport networks. Purpose: To enable network operators, service/content providers, and end-users to provide and consume collaborative services by the deployment of context-aware, dynamically adaptive, and self-organizing networking capabilities.

  13. Broadband Over Powerline: IEEE P1901—Existing Powerlines Draft Standard for Broadband over Power Line Networks: Medium Access Control and Physical Layer Specifications Scope: The project will develop a standard for high speed (>100 Mbps at the physical layer) communication devices via alternating current electric power lines, so called Broadband over Power Line (BPL) devices. The standard will use transmission frequencies below 100 MHz. This standard will be usable by all classes of BPL devices, including BPL devices used for the first-mile/last-mile connection (<1500m to the premise) to broadband services as well as BPL devices used in buildings for LANs and other data distribution (<100m between devices). This standard will focus on the balanced and efficient use of the power line communications channel by all classes of BPL devices, defining detailed mechanisms for coexistence and interoperability between different BPL devices, and ensuring that desired bandwidth and quality of service may be delivered. The standard will address the necessary security questions to ensure the privacy of communications between users and allow the use of BPL for security sensitive services. This standard is limited to the physical layer and the medium access sub-layer of the data link layer, as defined by the International Organization for Standardization (ISO) Open Systems Interconnection (OSI) Basic Reference Model. The effort will begin with an architecture investigation, and this will form the basis for detailed scope of task groups that will work within P1901 to develop the components of the final standard. Purpose: New modulation techniques offer the possibility to use the power lines for high speed communications. This new high speed media is open, and locally shared by several BPL devices. Without an independent, openly defined standard, BPL devices serving different applications will conflict with one another and provide unacceptable service to all parties. The standard will provide a minimum implementation subset which allows the fair coexistence of the BPL devices. The full implementation will provide the interoperability among the BPL devices, as well as interoperability with other networking protocols, such as bridging for seamless interconnection via 802.1. It is also the intent of this effort to quickly progress towards a robust standard so powerline applications may begin to impact the marketplace. The standard will also comply with EMC limits set by national regulators, so as to ensure successful coexsitence with wireless and telecommunications systems.

  14. Passive Optical Networking— IEEE 802.3av 10GEPON—Fiber Optics Standard for Information Technology—Telecommunications and Information Exchange Between Systems—Local and Metropolitan Area Networks—Specific Requirements Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment: Physical Layer Specifications and Management Parameters for 10Gb/s Passive Optical Networks • Scope: The scope of this project is to amend IEEE Std 802.3 to add physical layer specifications and management parameters for symmetric and/or asymmetric operation at 10 Gb/s on point-to-multipoint passive optical networks. • Purpose: The purpose of this document is to significantly increase performance of point-to-multipoint architecture (Ethernet Passive Optical Network) to support emerging bandwidth-intensive services while considering equipment, operation, upgrade, and maintenance costs.

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