Antonio de la Oliva (UC3M)

Slides:



Advertisements
Similar presentations
Extended Service Set (ESS) Mesh Network Daniela Maniezzo.
Advertisements

Omniran TG 1 Cooperation for OmniRAN P802.1CF Max Riegel, NSN (Chair OmniRAN TG)
TCP/IP Protocol Suite 1 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 26 IPv6 Addressing.
© 2006 Cisco Systems, Inc. All rights reserved.IP6FD v2.0—2-1 IPv6 Operations Defining and Configuring Neighbor Discovery.
IPV6. Features of IPv6 New header format Large address space More efficient routing IPsec header support required Simple automatic configuration New protocol.
Omniran GPP Trusted WLAN Access to EPC Use Case Analysis Date: Authors: NameAffiliationPhone Max RiegelNSN
بسم الله الرحمن الرحیم. Why ip V6 ip V4 Addressing Ip v4 :: 32-bits :: :: written in dotted decimal :: :: ::
Module 3: Designing IP Addressing. Module Overview Designing an IPv4 Addressing Scheme Designing DHCP Implementation Designing DHCP Configuration Options.
Part 3: Internetworking Internet architecture, addressing, encapsulation, reliable transport and the TCP/IP protocol suite.
Addressing IP v4 W.Lilakiatsakun. Anatomy of IPv4 (1) Dotted Decimal Address Network Address Host Address.
MuGM IEEE MEDIA INDEPENDENT HANDOVER DCN: Title: Group management mechanisms Date Submitted: November, 2012 Authors or Source(s): Daniel.
Internet Protocol CLASS E
TCP/IP Protocol Suite 1 Chapter 16 Upon completion you will be able to: Host Configuration: BOOTP and DHCP Know the types of information required by a.
Cisco Discovery Semester 1 Chapter 5 JEOPADY Q&A by R. Prensky, Template by K. Martin.
© 2006 Cisco Systems, Inc. All rights reserved. BSCI v3.0—8-1 Implementing IPv6 Implementing Dynamic IPv6 Addresses.
Sybex CCNA Chapter 13: IPv6 Instructor & Todd Lammle.
1 © 2004, Cisco Systems, Inc. All rights reserved. CCNA 1 v3.1 Module 9 TCP/IP Protocol Suite and IP Addressing.
1/28/2010 Network Plus IP Addressing Review. IP Address Classes.
© Cengage Learning 2014 How IP Addresses Get Assigned A MAC address is embedded on a network adapter at a factory IP addresses are assigned manually or.
MuGM IEEE MEDIA INDEPENDENT HANDOVER DCN: MuGM Title: Definition of IEEE d multicast identifiers Date Submitted:
Omniran Thoughts about the tenets in IEEE 802.1CF Date: Authors: NameAffiliationPhone Max RiegelNSN
Network Addressing Tom Harper, Martell Maten, Robert Pohlman, Jarrod Rotolo.
Omniran CF00 1 Key Concepts of Network Selection and Detection Date: Authors: NameAffiliationPhone Max RiegelNokia Networks+49.
(ITI310) By Eng. BASSEM ALSAID SESSIONS 9: Dynamic Host Configuration Protocol (DHCP)
Omniran CF00 1 IEEE OmniRAN TG Athens NRM Conclusions Max Riegel, Nokia Networks (OmniRAN TG Chair)
1 IEEE interim, Orlando, Florida, March, 2008new-nfinn-fast-chains-rings-par5c-0308-v1 Fast Recovery for Chains and Rings Proposal for PAR and 5.
CSE5803 Advanced Internet Protocols and Applications (13) Introduction Existing IP (v4) was developed in late 1970’s, when computer memory was about.
Omniran OmniRAN SaMOG Use Case Date: Authors: NameAffiliationPhone Max RiegelNSN
Omniran CF00 1 Key Concepts of Network Selection and Detection Date: Authors: NameAffiliationPhone Max RiegelNokia Networks+49.
3GPP SA2 SaMOG Status Document Number: Omniran Date Submitted: Source: Antonio de la Oliva UC3M *
Chapter 5. An IP address is simply a series of binary bits (ones and zeros). How many binary bits are used? 32.
Cisco I Introduction to Networks Semester 1 Chapter 8 JEOPADY.
CHAPTER 10: DHCP Routing & Switching. Objectives 10.0 Introduction 10.1 Dynamic Host Configuration Protocol v Dynamic Host Configuration Protocol.
IEEE Std Proposed Revision Purpose, Scope & 5 Criteria.
Instructor Materials Chapter 4: Network Addressing
Local MAC Address Assignment Protocol(LAAP) -- Thought on 802.1CQ
IPv6/Hexadecimal Objectives:
Internetworking JEOPARDY Discovery Module 5 K. Martin.
IEEE 802 OmniRAN Study Group: SDN Use Case
Host Configuration: BOOTP and DHCP
Chapter 26 IPv6 Addressing
WLAN Paging and Idle Mode
Local MAC Address Protocol
Chapter 26 IPv6 Addressing
Brief Introduction to IEEE P802.1CF
Host Configuration: BOOTP and DHCP
Proposal for IEEE 802.1CQ-LAAP
Proposal for IEEE 802.1CQ-LAAP
Chapter 26 IPv6 Addressing
Get Ready for the New Internet: IPv.6
Proposal for IEEE 802.1CQ-LAAP
MAC address assignment in IEEE through IEEE aq
MAC address assignment in IEEE through IEEE aq
Internet Protocol, Version 6 (IPv6)
San Diego 802.1CQ discussions
Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [MAC address assignment in IEEE
MAC address assignment in IEEE through IEEE aq
802.11u Proposal Date: Authors: September, 2005 July 2005
Delivering the Data.
Current IEEE 802.1CQ Project status
MAC Address Acquisition Protocol
MAC address assignment in IEEE through IEEE aq
OmniRAN SDN Use Case ToC
MAC Address Acquisition Protocol
OmniRAN SDN Use Case ToC
Naval Research Laboratory Dynamic Backbone Subnets
IEEE MEDIA INDEPENDENT HANDOVER DCN: Title: Group management in MIHF Date Submitted: November 4, 2011 Presented at IEEE session #47 in Atlanta.
Assignment of Temporary Addresses
ICOM TC Charter TC’s Scope Out of TC’s Scope Call for Participation
Summary of MAC Address policy contribution to IEEE
Presentation transcript:

Antonio de la Oliva (UC3M) IEEE 802.1CQ ToC Antonio de la Oliva (UC3M)

Current state 1. Overview 1.1 Scope 2. Normative references 3. Definitions, acronyms and abbreviations 3.1  Definitions 3.2  Acronyms and abbreviations 4. Basics of multicast and local address assignment 5. Theory of operation 6. Address space 6.1  Null address 6.2  Default blocks 6.3  Well-known multicast addresses 7. Message formats 7.1 Address client behavior 7.2 Address server behavior 7.3 Bridge behavior 8. Interaction with 802.1X, 802.1AE, etc.

Proposed ToC 1. Overview Interaction with DHCP 1.1 Scope Normative references Definitions, acronyms and abbreviations 3.1  Definitions 3.2  Acronyms and abbreviations Basics of multicast and local address assignment Architecture Proxy DHCP Identifiers Theory of operation Address space 6.1  Null address 6.2  Default blocks: Blocks reserved for randomnization 6.3  Well-known multicast addresses Protocol definitions Unicast self-assignment Multicast self-assignment Local Address Assignment Protocol (LAAP) Interaction with DHCP Discovery of MAC Address Local Policies WLAN WIRED Interaction with 802.1X, 802.1AE, etc. (this must include deviceID) Appendix IEEE 802.11PAD Deployment scenarios

Open topics Identifiers DHCP interaction We must have identifiers to enable the mapping of STAs to known MAC address Requirement from WBA? Identifier does not need to be unique for the STA, it can have multiple Ids and use them as required. Potentially one per point of attachment Do we need to specify some bunding between the ID and the address? Cryptographic relation 64 bits? Randomnly choosen? DHCP interaction Shall we asume Proxies are able to get pull of addresses out of DHCP? Of any quadrant?

Open Points Shall we use MAAP for multicast addresses? Do we need a new redefinition of it for multicast? Probably we have a problem with the multicast pull, specified in 1722 Blocks of addresses and allocation of addresses What can we safely used as source address in self-assignment? EUI-48? Do we want to define a default block of addresses for randomisation? We have something working to discover the MAC Address Policy in IEEE 802.11 What do we do for wired? LDP?

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.