doc.: /0055r0 SubmissionSlide 1 06/02/2016 Slide 1 IEEE White Space Radio Draft ToC Considerations Notice: This document has been prepared to assist IEEE DYSPAN SC. 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 DYSPAN SC. Patent Policy and Procedures: The contributor is familiar with the IEEE Patent Policy and Procedures, 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 IEEE DYSPAN SC. If you have questions, contact the IEEE Patent Committee Administrator at. Date: ; Teleconference Authors:

doc.: /0055r0 SubmissionSlide 2 Abstract  This presentation provides some reference information for the discussion of draft ToC  The following standards have been used as reference ■ IEEE ■ IEEE ■ ECMA /02/2016

doc.: /0055r0 SubmissionSlide 3 IEEE  1. Overview  1.1 Scope  1.2 Purpose  1.3 – Other introductory information ■ PHY/MAC variants ■ Target frequency bands ■ Reference models 06/02/2016

doc.: /0055r0 SubmissionSlide 4 IEEE  2. Normative references ■ References to other documents (e.g., standards, recommendations, etc) that are mandatory for the implementation of the standard ■ If something is already defined in other documents, this is referred, not repeated in the standard ■ Examples IEEE Std 802.1D™, IEEE Standard for Local and metropolitan Area Networks: Media Access Control (MAC) Bridges. IETF RFC 2373, “IP Version 6 Addressing Architecture,” R. Hinden, S. Deering, July ( ITU-T Recommendation X.690, Information Technology—ASN.1 Encoding Rules: Specification of Basic Encoding Rules (BER), Canonical Encoding Rules (CER), and Distinguished Encoding Rules (DER), December /02/2016

doc.: /0055r0 SubmissionSlide 5 IEEE  3. Definitions ■ Definitions of terms that are used in the standard  4. Abbreviations and acronyms ■ Abbreviations and acronyms 06/02/2016

doc.: /0055r0 SubmissionSlide 6 IEEE  5. Service-specific convergence sublayer (CS) This part defines CS specific for different upper layer protocols CS serves as an interface between MAC sublayer and upper layers performing such functions as accepting higher layer protocol data units (PDUs) from the higher layer, performing classification of higher layer PDUs, processing (if required) the higher layer PDUs based on the classification, delivering CS PDUs to the appropriate MAC SAP, receiving CS PDUs from the peer entity ■ 5.1 ATM CS ■ 5.2 Packet CS ■ 5.3 Generic Packet CS 06/02/2016

doc.: /0055r0 SubmissionSlide 7 IEEE  6. MAC common part sublayer This clause defines everything related to MAC sublayer including some examples given below ■ 6.1 Point-to-multipoint (PMP) operation overview ■ 6.2 Reserved ■ 6.3 Data/Control plane Addressing and connections MAC PDU formats Construction and transmission of MAC PDUs ARQ mechanism Scheduling services Bandwidth allocation and request mechanisms MAC support of PHY Contention resolution Network entry and initialization 06/02/2016

doc.: /0055r0 SubmissionSlide 8 IEEE  6. MAC common part sublayer This clause defines everything related to MAC sublayer including some examples given below ■ 6.3 Data/Control plane Ranging Update of channel descriptors Assigning SSs to multicast groups Establishment of multicast connections Quality of service (QoS) Procedures for shared frequency band usage MAC support for HARQ DL CINR report operation Optional band AMC operations using 6-bit CQICH encoding 06/02/2016

doc.: /0055r0 SubmissionSlide 9 IEEE  6. MAC common part sublayer This clause defines everything related to MAC sublayer including some examples given below ■ 6.3 Data/Control plane Data delivery services for mobile network Sleep mode for mobility-supporting MS MAC HO procedures Multicast and broadcast service (MBS) MS idle mode (optional) MIHF support Location Based Services Persistent Scheduling Emergency Service 06/02/2016

doc.: /0055r0 SubmissionSlide 10 IEEE  7. Security sublayer This clause defines everything related to security sublayer typically with reference to some security protocols ■ 7.1 Architecture ■ 7.2 PKM protocol ■ 7.3 Dynamic SA creation and mapping ■ 7.4 Key usage ■ 7.5 Cryptographic methods ■ 7.6 Certificate profile ■ 7.7 Preauthentication ■ 7.8 PKMv2 ■ 7.9 Multicast and broadcast rekeying algorithm (MBRA) 06/02/2016

doc.: /0055r0 SubmissionSlide 11 IEEE  8. Physical layer (PHY) This clause defines everything related to PHY layer with possibility to define several PHY layers ■ 8.1 WirelessMAN-SC PHY specification ■ 8.2 Reserved ■ 8.3 WirelessMAN-OFDM PHY ■ 8.4 WirelessMAN-OFDMA PHY ■ 8.5 WirelessHUMAN specific components 06/02/2016

doc.: /0055r0 SubmissionSlide 12 IEEE  8. Physical layer (PHY) This clause defines everything related to PHY layer with possibility to define several PHY layers ■ 8.4 WirelessMAN-OFDMA PHY –Examples of the topics are below Introduction OFDMA symbol description, symbol parameters and transmitted signal OFDMA basic terms definition Frame structure Map message fields and Ies OFDMA subcarrier allocations OFDMA ranging Space-time coding (STC) (optional) 06/02/2016

doc.: /0055r0 SubmissionSlide 13 IEEE  8. Physical layer (PHY) This clause defines everything related to PHY layer with possibility to define several PHY layers ■ 8.4 WirelessMAN-OFDMA PHY –Examples of the topics are below Channel coding Control mechanisms Fast-feedback channels Channel quality measurements Transmitter requirements Receiver requirements Frequency control requirements Optional HARQ support 06/02/2016

doc.: /0055r0 SubmissionSlide 14 IEEE  9. Configuration This clause defines some topics related to the configuration of managed objects e.g. base station and terminal including ■ 9.1 SS IP addressing used on secondary management connection ■ 9.2 SS Configuration file ■ 9.3 ASN.1 Management Information Base ■ 9.4 Management protocols 06/02/2016

doc.: /0055r0 SubmissionSlide 15 IEEE  10. Parameters and constants Usually, previous clauses use parameter/constant names, not exact values This clause defines value for this parameters/constants ■ 10.1 Global values ■ 10.2 PKM parameter values ■ 10.3 PHY-specific values ■ 10.4 Well-known addresses and identifiers 06/02/2016

doc.: /0055r0 SubmissionSlide 16 IEEE  11. TLV encodings This clause defines encoding for MAC management messages and other messages, for example ■ 11.3 UCD management message encodings ■ 11.5 RNG-REQ management message encodings ■ HO management encodings 06/02/2016

doc.: /0055r0 SubmissionSlide 17 IEEE  12. System profiles This clause defines system profiles System profile defines which of the options need to be selected for this profile 06/02/2016

doc.: /0055r0 SubmissionSlide 18 IEEE  13. MIB Modules This clause defines SNMP-based ASN.1 description of MIB ■ 13.1 Structure of MIB modules ■ 13.2 ASN.1 Definitions of MIB Modules 06/02/2016

doc.: /0055r0 SubmissionSlide 19 IEEE  14. Management interfaces and procedures This clause defines primitives of the M-SAP and C-SAP ■ 14.1 Service primitive template ■ 14.2 Management and control functions 06/02/2016

doc.: /0055r0 SubmissionSlide 20 IEEE  Annexes ■ Annexes could be two types Informative –Not mandatory for implementation, some supporting or explanatory material to help implementors Normative –Mandatory for implementation, moved from the main part to simplify the main part 06/02/2016

doc.: /0055r0 SubmissionSlide 21 IEEE  1. Overview  2. Normative references  3. Definitions  4. Abbreviations and acronyms  5. System architecture ■ 5.1 Reference architecture ■ 5.2 Management reference architecture  6. Packet Convergence sublayer  7. MAC Common Part sublayer  8. Security mechanism in IEEE  9. PHY 06/02/2016

doc.: /0055r0 SubmissionSlide 22 IEEE  10. Cognitive radio capability ■ 10.1 General ■ 10.2 Spectrum Manager operation ■ 10.3 Spectrum Sensing Automaton (SSA) ■ 10.4 Spectrum sensing ■ 10.5 Geolocation ■ 10.6 Database service ■ 10.7 Primitives for cognitive radio capabilities  11. Configuration  12. Parameters and connection management  13. MIB structure  Annex A (normative) IEEE regulatory domains and regulatory classes requirements 06/02/2016

doc.: /0055r0 SubmissionSlide 23 ECMA-392  1 Scope  2 Conformance  3 Normative references  4 Terms and definitions  5 Abbreviations and Acronyms  6 General description  7 MAC common part sublayer  8 Security  9 PHY  Annex A (normative) MUX sublayer 06/02/2016