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Document Structure Discussion
June 2006 doc.: IEEE /826r3 July 2006 Document Structure Discussion Date: Authors: Name Address Company Phone W. Steven Conner 2111 NE 25th Ave, Hillsboro, OR 97124 Intel Jan Kruys Haarlerbergweg, 1101CHAmsterdam, Netherlands Cisco Systems International Guenael Strutt 485 N. Keller Rd., Suite 250, Maitland, FL 32751 Motorola Inc Notice: This document has been prepared to assist IEEE It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE Patent Policy and Procedures: The contributor is familiar with the IEEE 802 Patent Policy and Procedures < ieee802.org/guides/bylaws/sb-bylaws.pdf>, including the statement "IEEE standards may include the known use of patent(s), including patent applications, provided the IEEE receives assurance from the patent holder or applicant with respect to patents essential for compliance with both mandatory and optional portions of the standard." Early disclosure to the Working Group of patent information that might be relevant to the standard is essential to reduce the possibility for delays in the development process and increase the likelihood that the draft publication will be approved for publication. Please notify the Chair as early as possible, in written or electronic form, if patented technology (or technology under patent application) might be incorporated into a draft standard being developed within the IEEE Working Group. If you have questions, contact the IEEE Patent Committee Administrator at W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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Current Structure of the TGs Draft
June 2006 doc.: IEEE /826r3 July 2006 Current Structure of the TGs Draft 3 Definitions 4 Abbreviations and Acronyms 5 General Description 7 Frame Formats 11A WLAN Mesh Services 11A.1 Use of Mesh Identifier 11A.2 Single and Multiple Radio Devices 11A.3 Mesh Topology Discovery and Formation 11A.4 Mesh Path Selection and Forwarding 11A.5 Security 11A.6 Optimizations to EDCA for Mesh Points 11A.7 Intra-Mesh Congestion Control 11A.8 Multi-Channel MAC Using Common Channel Framework (Optional) 11A.9 Mesh Deterministic Access (Optional) 11A.10 Interworking Support in a WLAN Mesh 11A.11 Configuration and Management (DFS) 11A.12 Mesh Beaconing and Synchronization 11A.13 Power Management in a Mesh (Optional) 11A.14 Layer Management (Informative) Annex P WLAN Mesh Annex W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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Comments on Current Structure
June 2006 doc.: IEEE /826r3 July 2006 Comments on Current Structure Currently, all WLAN Mesh protocol descriptions are in a single major section of the document (11A) Some of the functions described here are closely related to similar functions in the base standard E.g., new versions of discovery, association, link security, beaconing, synchronization, power save functions, which are currently specified in the base std for BSS and IBSS modes E.g., new MAC protocols that build on and are tightly coupled to EDCA in the base standard (MDA and CCF) Other functions described here are unique to mesh and only loosely coupled to the base standard E.g. path selection and forwarding, mesh interworking, congestion control are new functions not included in the base standard W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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June 2006 doc.: IEEE /826r3 July 2006 Document Organization Conventions Typically Used by Other TG Amendments Functionality that is closely related to existing functions in the base standard integrated into existing sections Functionality that is new/unique to the TG goes in its own major section of the document Advantages of this approach Consistency with the base standard and other TG amendments May be helpful for non-TGs reviewers to understand what parts of the draft are closely related to existing functions/other amendments W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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Other considerations for Document Structure
June 2006 doc.: IEEE /826r3 July 2006 Other considerations for Document Structure The IEEE Standards Style Manual limits the subclause hierarchy to a maximum of 5 levels E.g is acceptable is not acceptable Many clauses in D0.02 exceed this limit W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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Proposed Re-Organization of the TGs Draft
June 2006 doc.: IEEE /826r3 Proposed Re-Organization of the TGs Draft July 2006 3 Definitions 4 Abbreviations and Acronyms 5 General Description 5.2 Components of the IEEE Architecture 5.2.7 Wireless LAN Mesh (was 5.4.7) 7 Frame Formats 8 Security Mesh Link Security (was 11A.5) 9 MAC Sublayer HCF EDCA Recommendations for use of EDCA in Mesh Points (informative) (was 11A.6) 9.9A CCF (was 11A.8) 9.9B MDA (was 11A.9) 10 Layer Management Mesh Layer Management (was 11A.14) 11 MLME Selecting and advertising a new channel in a WLAN Mesh (was 11A.11.1) 11A WLAN Mesh Networking 11A Mesh Discovery and Peer Link Establishment (was 11A.3) 11A Use of Mesh Identifier (was 11A.1) 11A Profiles for Extensibility (was 11A.3.1.1) 11A Neighbor Discovery (was 11A.3.1.2) 11A Mesh Peer Link Establishment (was 11A and 11A.3.2.2) 11A Mesh Network Channel Selection 11A Single and Multiple Radio Devices (was 11A.2) 11A Channel Selection Modes for Mesh Point Logical Radio Interfaces (was 11A.3.3.1) 11A Simple Channel Unification Protocol (was 11A.3.3.2) 11A Channel Graph Switch Protocol (was 11A.3.3.1) 11A Mesh Path Selection and Forwarding Framework (was 11A.4) 11A Overview (was 11A.4.1) 11A Extensible Path Selection Framework (was 11A.4.1.1) 11A Path Selection Protocols Overview (was 11A.4.3) 11A Path Selection Metrics (was 11A.4.2) 11A Data Message Forwarding (was 11A.4.4) 11A Interworking Framework (was 11A.10) 11A Airtime Link Metric Computation Procedures (was 11A.4.2.1) 11A Hybrid Wireless Mesh Path Selection Protocol (was 11A.4.3.1) 11A Radio Aware OLSR Path Selection Protocol (was 11A.4.3.2) 11A Intra-Mesh Congestion Control (was 11A.7) 11A Mesh Beaconing and Synchronization (was 11A.12) 11A Power Management in a Mesh (Optional) (was 11A.13) 11A Examples (Informative) 11A Mesh Point Boot Sequence (was 11A.3.4) 11A Mesh Point Tables (was 11A.3.5) Annex P WLAN Mesh Annex See 11-06/1064 for details W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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June 2006 doc.: IEEE /826r3 July 2006 Motion Moved to adopt the document structure changes in 11-06/1064r1 and direct the Technical Editor to incorporate them into the Draft. Moved by: Second by: Result (Yes/No/Abstain): W. Steven Conner, Intel Corp., et al. Donald Eastlake 3rd, Motorola
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