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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: Comparison of use cases and their requirements in 15-14-0105-01 and in Sections 5 and 6 of 15-13-0753-05 Date Submitted: March 17, 2014

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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:Comparison of use cases and their requirements in 15-14-0105-01 and in Sections 5 and 6 of 15-13-0753-05 Date Submitted:March 17, 2014 Source: Jaehwan Kim (ETRI), Sangjae Lee (ETRI), Sangsung Choi (ETRI), Soo-Young Chang (SYCA), and Kyuyong Lee (A2UICT) Voice: +82 42 860 5338, E-maill: kimj@etri.re.kr Re: [802.15 TG10 TGD] Abstract:In 15-14-0753-05, use cases are described in Sections 5 and 6. The TG10 group decided to include description of all use cases to Section 5 and their requirements to Section 6. This document was prepared to check all use cases which are described in 15-14-0105-01 are included in Sections 5 and 6. Purpose: To prepare the evaluation methodology for TG10. 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.

  2. Applications in doc. 15-14-0105-01 All applications listed in 15-24-0105-01 are also included in 15-14-0753-05. • Smart Metering (HAN and NAN) included in 5.1 in 15-13-0753-05 • Advanced metering infrastructure (AMI): • Smart City (Street Lighting/Parking/Meters) included in 5.2 in 15-13-0753-05

  3. Requirements in doc. 15-14-0105-01 • (Dynamic) Address network changes on the order of a minute time frame • Minimizes impact to route handling • Route establishment and continuity • Effective frame forwarding • Priority vs. sphere of relevance (right size fit for the priority level) • Impact of maintaining security (don’t break it) • Impacts on provisioning, joining • Dynamic route reconfiguration • Discovery and addition of new nodes • Breaking of established routes • Loss and recurrence of routes • Pruning of routes • Restart of network

  4. Requirements in doc. 15-14-0105-01 (cont’d) • Route determination metrics and real time gathering of link status (Policy & Metrics) • Intra • Quality of individual hop • Quality of end-to-end route • Reduction of end-to-end retransmissions • Latency • Data rate/multi-hop end-to-end route time • Resources (constraints) • Inter workings • Reported to system management • Persistent/consistent issues • Node outage (failure detection) • Respond to system management feedback

  5. Requirements in doc. 15-14-0105-01 (cont’d) • Support scalability • Node density, network size etc. • Hardware resource requirements • Behavior at restarts • Secondary, tertiary route considerations • Scalability of # takeout points - bridges to connecting networks (take out points) • Management of flooding, multicasts • Support of broadcast • Support of (efficient) multicast • Allowing for single hop appearance at the networking layer(not breaking standard L3 mechanisms) • Multiple route approaches within a network, possibilities include: • Concentric based • Linear (highway based) • Function /behavior/ priority based

  6. Subsections in 15-13-0753-05 for requirements • Dynamic) Address network changes on the order of a minute time frame • 6.12. Routing Metrics • 6.13. Discovery and Association with a L2R Network • 6.14. Frequency Agility • Minimizes impact to route handling • 7.4. Control Traffic Overhead • Route establishment and continuity • 4.1.2. Purpose of PAR • Priority vs. sphere of relevance (right size fit for the priority level) • 6.11. Mesh Security • Impacts on provisioning, joining • 6.1. Mesh Topology Discovery

  7. Subsections in 15-13-0753-05 for requirements (cont’d) • Dynamic route reconfiguration • 4.1.2. Purpose of PAR • Route determination metrics and real time gathering of link status (Policy & Metrics) • 6.18. Quality of Service • 7.5. Route Acquisition Time • Support scalability • 6.7. Memory Usage • 6.8. Mesh Network Size • 7.7. Scalability to Network Size • Management of flooding, multicasts • 6.4. Mesh Broadcast Data Delivery • Allowing for single hop appearance at the networking layer • 4.1.2. Purpose of PAR • Multiple route approaches within a network, possibilities include: • 6.3. Extensible Mesh Routing Architecture

  8. Conclusion The goal of this document is to check whether all applications and related requirements listed in 15-14-0105-01 are included in 15-13-0753-05. All applications listed in 15-14-0105-01 are also included in 15-13-0753-05. All requirements listed in 15-14-0105-01 are also included in 15-13-0753-05.

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