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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [NAN Application Description] Date Submitted: [11 November 2008] Source: [Benjamin A. Rolfe] Company [Blind Creek Associates] Address [] Voice:[+1.408.395.7207]

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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

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  1. Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [NAN Application Description] Date Submitted: [11 November 2008] Source: [Benjamin A. Rolfe] Company [Blind Creek Associates] Address [] Voice:[+1.408.395.7207] E-Mail:[ben@blindcreek.com] Re: [] Abstract: Discussion of NAN application characteristics and relates them to 802.15.4 MAC Purpose: Contribution to technical requirements definition and discussion for task group 15.4e Notice: This document has been prepared to assist the IEEE P802.15. 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 acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15. Rolfe

  2. NAN Application Description Benjamin A. Rolfe ben@blindcreek.com Neighborhood Area Networks TG4e November 2008 Rolfe

  3. What is NAN? Utility Networks (Smart Grid Networks): • Wide Area process control • Bi-directional communication: monitoring and control • Heterogeneous Networks • Long reach with short range (multi-hop) • Large scale networks, Dynamic scalability • Private NAN Part: • Home-to-Home, Home-to-Grid • Connecting devices ON the home • Bridge into the home • Ad-hoc associations and forwarding • Minimal infrastructure dependence • May include infrastructure bridging points • Adaptive Rolfe

  4. Utility Networks Architecture Reference: 15-08-0199-00-wng0 Rolfe

  5. Utility Automation:Business Case Considerations • Market multi-billions of devices • Multiple market drivers • Environmental, Economic, Political • Value brought by enabling • New usage and revenue models • Distributed generation, RTP, DR, etc. • Greater energy efficiency • Greater grid reliability • Better operating economics • New market opportunities • Risk adverse Rolfe

  6. Deployment Needs • Rapid, low cost deployment • Diverse deployment scenarios • Consistent practices region to region • Cost effective integration with utility equipment • Adapt to changing requirements (regulatory, technical, operational) • Multi-vendor interoperability • No customer involvement • Long term installation • Long time no touch! Rolfe

  7. Scalable Network • Scale to millions of connected nodes • Few to many direct (1 hop) connections (~1 to ~1000) • Many indirect connections (multi-hop) (millions to 100s millions) • Peer-to-Peer, Self-forming and maintaining • Flexible • Path redundancy/diversity • Bridges/gateways • Used to access and egress • Widely variable GW per mesh Rolfe

  8. Performance • Bi-directional communication • monitoring and control • Modest data rates 40Kbps • Latency tolerant (10 sec) when bounded • 15-20 Hops possible • Safety considerations • secure command and control • High Reliability • Trade data rate for reliable delivery (eventually) • Positive error detection • Agility and adaptability to conditions • Complete ubiquity Rolfe

  9. Hostile RF environments • Non-optimal placement • Where it has to be, not where we want it • Outdoors, indoors, basements, etc. • Co-existence • Varying interference sources • Transparency (friendly neighbor) • Adaptability / Agility Rolfe

  10. Secure Information Exchange • Secure from inception • Needed at APP layer for application interoperability • Link layer (1-hop) • MAC layer not enough Rolfe

  11. Key MAC Characteristics • Data Characteristics • Modest volume • Deterministic Latency (QoS) • Reliability • positive error detection • link quality assessment and reporting • Flexibility • (15.4 PHY diversity) • Channel utilization (hopping/agility) • Low Overhead • Cost Considerations Rolfe

  12. Some References • 15-08-0199-00-wng0-the-smart-grid.ppt • 15-08-0271-00-wng0-ig-ban-restating-the-requirements.ppt • 15-08-0244-00-wng0-fitting-smart-grid-applications-and-802-wireless-ecosystem.ppt • 15-08-0245-00-wng0-utilities-view-of-smart-grid-network-needs.ppt • 15-08-0272-01-wng0-mac-requirements-for-utility-networks.ppt • 15-08-0297-00-0000-pg-e-smart-grid-discussion.ppt- • 15-08-0317-00-004e-some-mac-requirements-for-neighborhood-area-networks.ppt • 15-08-0454-00-0000-wireless-neighborhood-area-networks-wnan.ppt • 15-08-0455-00-0000-utility-view-of-nan-drivers-and-requirements.pdf • 15-08-0456-00-0000-nist-roles-under-2007-eisa-on-smart-grid-networks.ppt • 15-08-0457-00-0000-wireless-neighborhood-area-networks-wnan.ppt • 15-08-0502-00-0nan-phy-considerations-for-neighbourhood-area-networking.ppt • 15-08-0506-01-0nan-broad-market-potential-of-the-neighbor-area-network.ppt • 15-08-0508-00-0000-wireless-neighborhood-area-networks.ppt • 15-08-0514-00-0nan-wnan-recap.ppt • 15-08-0517-00-0nan-summary-of-nan-applications-market-a-need-for-standards.ppt • 15-08-0705-03-0nan-wnan-par.pdf • 15-08-0706-01-0nan-wnan-5c.pdf Rolfe

  13. Thank You for Listening Rolfe

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