WORKSHOP ON NEXT GENERATION NETWORKS AND APPLICATIONS (Athens, Greece, 8 May 2009) Architectural Overview of ITU-T NGN (including Future Vision) Chaesub Lee Chairman of ITU-T SG 13 Athens,
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WORKSHOP ON NEXT GENERATION NETWORKS AND APPLICATIONS (Athens, Greece, 8 May 2009) Architectural Overview of ITU-T NGN (including Future Vision) Chaesub Lee Chairman of ITU-T SG 13 Athens, Greece, 8 May 2009 Content 1. NGN Architectures 2. IPv6 NGN 3. Future Vision 4. NGU(Ubiquitous)N(Networking) 5. Conclusion Athens, Greece, 8 May 2009 1. NGN Architectures Definition of NGN ITU-T Rec. Y.2001 Next Generation Network (NGN): a packet-based network able to provide telecommunication services and able to make use of multiple broadband, QoS-enabled transport technologies and in which servicerelated functions are independent from underlying transport-related technologies. It enables unfettered access for users to networks and to competing service providers and/or services of their choice. It supports generalized mobility which will allow consistent and ubiquitous provision of services to users. Athens, Greece, 8 May 2009 1. NGN Architectures NGN in 4 words… • by Fixed • by Mobile • by Wireless NGN = Broadband Managed IP Network • for Services • for Businesses • for Players • for Users 1. NGN Architectures Key Principles of NGN Open architecture: open to support service creation, service updating, and incorporation of service logic provision by third parties and also support “Distributed control” as well as enhanced security and protection. Independent provisioning: service provision process should be separated from network operation by using distributed, open control mechanism to promote competition. Multiplicity: The NGN functional architecture shall offer the configuration flexibility needed to support multiple access technologies. Athens, Greece, 8 May 2009 1. NGN Architectures NGN architecture overview (Rec. Y.2012) Applications ANI Management Functions Application Support Functions & Service Support Functions Service User Profiles Service Control Functions Service stratum Network Attachment Control Functions Transport User Profiles End-User Functions Resource and Admission Control Functions Other Networks Transport Control Functions Transport Functions UNI NNI Transport stratum Control Media Management Note: UNI/NNI/ANI are not meant to represent any specific interfaces. 1. NGN Architectures Resource and Admission Control Functions Service Control Functions Service Stratum Rp Network Attachment Control Functions intradomain interdomain Rd Transport Resource Control Function Ru Rt Policy Decision Function Ri RACF Other NGNs Rs Transport Stratum Rc Rn Transport Enforcement Function Rw Transport Functions o Policy Decision Function service facing, transport independent o Transport Resource Control Function service independent, transport dependent, network-segment specific o Policy Enforcement Function typically part of border transport elements Policy Enforcement Function RACF Augments native transport QoS support Preempting transport congestion at the service control layer Protecting ongoing premium traffic 1. NGN Architectures High Level Requirements of NACF Dynamic provision of IP address and other user equipment configuration parameters (e.g. using DHCP). User authentication, prior or during the IP address allocation procedure. Authorization of network access, based on user profile. Access network configuration, based on user profile. Location management. 1. NGN Architectures Functional Architecture of NACF Service Control Functions Service Stratum Transport Stratum NACF NACF TC-Ux S-TC1 HGWC-FE Nc TAA-FE TAA-FE PD-FE Ne Nk Na NAC-FE Nd AM-FE CPE TC-T1 AR-FE Transport Functions Transport Functions NAC-FE (Network Access Control Functional Entity) AM-FE (Access Management Functional Entity) TLM-FE (Transport Location Management Functional Entity) TAA-FE (Transport Authentication and Authorization Functional Entity) TUP-FE (Transport User Profile Functional Entity) HGWC-FE (Home GateWay Configuration Functional Entity) AR-FE (Access Relay Functional Entity) Other NGNs TLM-FE TUP-FE Nb TC-TC1 Nh TUP-FE TC-U1 Ng RACF RACF 1. NGN Architectures Key Features of NGN Functions Service delivery platform making use of NGN easily Applications Service Stratum A variety of mobile and fixed terminals and their profile management targeting at FMC Application Support Functions and Application Functions Service Support Functions S. User Profile Functions Other NGN Service Components Service Control Functions Legacy Terminals Legacy Terminals Customer Networks NGN Terminals End-User Functions IP Multimedia Component IP Multimedia &PSTN/ISDN Simulation Service Component GW GW Network Attachment Network Access T. User User Control Functions Profile Profile Attachment (NACF) Functions Functions Functions AccessTransport Network Access Functions Functions Edge Functions Resource and Admission Control Functions (RACF) Re-use and adaptation of 3GPP IMS to provide multimedia services Other Networks PSTN/ISDN Emulation Service Component Evolution scenario of PSTN and short-term solution A unified IP network with improved security and QoS Core Transport Core transport Functions Functions Transport Stratum Border gateways * Note: Gateway (GW) may Media exist in either Transportto Stratum or End-User processing Broadband access able Functions. enabling secure assist content delivery to provide IPTV interworking 1. NGN Architectures Definition of IPTV IPTV is defined as multimedia services such as television/video/ audio/text/graphics/data delivered over IP based networks managed to provide the required level of QoS/QoE, security, interactivity and reliability • Multimedia Services • Over IP based networks More than TV distribution IP • Managed capabilities QoS/QoE, Security Interactivity, Reliability Athens, Greece, 8 May 2009 Scope Of IPTV 1. NGN Architectures NGN as an Infrastructure for IPTV TV QoS, Traffic control, Security, X-casting, Accounting etc. IP 802.xx Access Cable Domain 1 IntServ Domain 2 Domain 3 DiffServ MPLS-TE Domain 4 Over-Prov xDSL Multi-Service Packet Transport NGN 2G/3G Wireless Integrated QoS, Traffic control, Security, Multi services etc. 2. Why need IPv6 based NGN 2. IPv6 NGN Relationship between NGN and IP NGN, by definition, is identified an infrastructure using packet technologies. • There is no specific mention which packet technology NGN should use, but generally assuming IP as a dominant packet technology today. • There are also no specific statement to specify the version of IP such as ‘version 4’, ‘version 6’ or ‘version 9,’ but most parts of NGN related ITU-T RECs are mainly assumed ‘version 4’ ITU-T has been initiated the study on ‘Impacts of IPv6 into the NGN’ which looks for the usage of IPv6 features into the NGN. • ITU-T SG 13 Q.7 has been developed 4 draft RECs on IPv6 based NGN. 2. Why need IPv6 based NGN 2. IPv6 NGN IPv6 Drive Ubiquitous network Grid networking Mobile computing Integration of Wireless and Wireline Home Appliances Peer-2-Peer applications Virtual Private Networks Multi-user gaming Internet-enable new devices Military applications 1. Key Feature of IPv6 2. IPv6 NGN IPv4… it looks like… 1. Key Feature of IPv6 2. IPv6 NGN Possible solutions Lack of IP addresses: efficient use of v4 but move to v6 Reliability • Improve bandwidth: xDSL, Optics etc. • Managed Routing: MPLS etc. Quality of Service: Managed by SLA, Session based Security: being developed now but intrinsic difficulties Mobility: Mobile/Wireless accesses, Mobile IP Configurability: Auto-configuration functions 4. Requirements 2. IPv6 NGN and Architecture Requirements of IPv6 based NGN General requirements of IPv6–based NGN are identified requirements which influenced by IPv6 features IPv6 based NGN shall share NGN R1 requirements generally Further requirements according to IPv6 features identified as IPv6 requirements IPv6 related requirements would be incorporated into NGN R2 requirements General Requirements of IPv6 based NGN • IPv6 based NGN shall accommodate the IPv6 addressing schemes. • IPv6-enabled FEs should differentiate the control information from the IPv6 packets. • IPv6-based NGN shall support the address transition and interworking without affecting the service provided to users. • IPv6-based NGN shall support the IPv6 extension headers and options. 3. Definition and Scope 2. IPv6 NGN Scope of IPv6 based NGN IPv6 based service/application Application IPv6 xDSL Access IPv6 Enabled End-User Functions Service Stratum Mobile Access Wireless Access (WiMAX) Core Network Fiber Access IPv6 based IP Connectivity Enabled Processing 4. Requirements and Architecture 2. IPv6 NGN Relationship with other networks 2a IPv6-based 2b NGN2 IPv6-based IPv6-based 1b 1a IPv6-based IPv4-based NGN1 2c 3c IPv4-based IPv4-based 3b IPv4-based 1c 3a 4b 4c Non-NGN IPv6-based IPv4-based 4a IPv6-based Group 1 Intra-NGN Communication Group 2 Inter-NGN Communication Group 3 Group 4 Interworking with Non-NGN Interworking between Non-NGN 3. Future Vision Overall Future Directions 3. Future Vision Clue for the Future Preparation Future should direct to the Convergence • Vision: Any Time, Any Where, Any Services and Any Devices • FMC should be the 1st instantiation • 2nd should be the IPTV • Any information/services over any transport infrastructures: VoDSL, TVoMobile, etc. Convergence classifies into following: • Internal Convergences (within a industry): FMC, IPTV and others • External Convergences: between/among different industries, e.g., Telematics/ITS, USN, e-Health, Networked Robotics and others The vision of ubiquitous networking 3. Future Vision Services on the Convergences • Always on with Any devices • Anytime, anywhere and in any form • Voice and multimedia • Self service, intuitive • Simple for the end user • Secure, trusted and reliable 3. Future Vision Extension of “Quality of Service” Meaningful QoS over NGUN Services over ‘Connecting to Anything’ Quality of Personalization • One-stop Service • Service AAA • Personalized service Open/Control Quality of Security Quality of Mobility • Network AAA; • RT Mobility control • Service Continuity control • Security support Terminal, User, Mobility, Access etc. Need further study in more details Quality of Media • End-End QoS • QoS Monitoring • Service Policy handover 3. Future Vision Physical Communication Infrastructure Full Converged MM Terminal Radio/Wireless Spectrum: fi Wave Length: λi 3. Future Vision Logical Communication Infrastructure Mobile Phone Nr Fixed Phone Nr User Id: Earth-KoreaMan:LeeChaesub -19yy-mm-dd WiFi/WiBro Id - Certified by UN - Cable/IPTV Id Internet Id 3. Future Vision Business Communication Infrastructure Fixed Phone Mobile Phone One Integrated Bill WiFi WiBro Internet Cable/IPTV 3. Future Vision Key theme of Future Control Plane: Identity Processing User ID Customer ID Service ID Mobile Phone Nr Comm. ID Content Owner ID Provider ID Family 1 User Id: Earth-KoreaMan:LeeChaesub -19yy-mm-dd - Certified by UN - Family 2 Family 3 Fixed Phone Nr WiFi WiBro Id Cable/ IPTV Id Media ID Session ID TCP/UDP Port ID IP Address ATM/Ether net ID MAC ID E.164 ID Family 4 Internet Id Line ID 3. Future Vision Key theme of Future Management Plane: ABC Processing Accounting: Billing: Charging: C D Mobile Ph Mobile Ph A MobileFixed Ph MobileFixed Ph Ph Ph Fixed Ph WiFi/WiBro Fixed Ph WiFi/WiBro WiFi/WiBro IPTV WiFi/WiBro IPTV IPTV Internet IPTV Internet Internet Internet B Providers Set of functions required for Usage Metering, Charging and Billing (ITU-T Rec. Q.825) Administrative function to prepare bills to service customers, to prompt payments, to obtain revenues and to take care of customer reclaims (ITU-T Rec. Q.825) The set of functions needed to determine the price assigned to the service utilization (ITU-T Rec. Q.825) 4 Mobile Ph 2 Mobile Ph 1 MobileFixed Ph Ph Mobile Acc Fixed Ph Fixed Ph WiFi/WiBro Fixed Acc WiFi/WiBro WiFi/WiBro WiFi/WiBro IPTV IPTV Acc IPTV Internet IPTV Acc Internet Internet 3 Internet Acc Family Account 4 Mobile Ph 2 Mobile Ph 1 MobileFixed Ph MobileFixed Chg Ph Ph Fixed Ph WiFi/WiBro Fixed Chg WiFi/WiBro WiFi/WiBro WiFi/WiBro IPTV IPTV Chg IPTV Internet IPTV Chg Internet Internet 3 Int. Bill (1 or 2) : User Conv. Internet Chg Family Charging Billing and Bill 4. NGU(Ubiquitous)N(Networking) Vision and Goals of NGUN Vision • Everything of value is connected to the network • Physical mobility & Service mobility Goals • Widespread interconnection of computing and communication devices • Pervasive networks that include both wireline and wireless segments • Mobile-to-fixed; mobile-to-mobile architectures • Includes public and private information spaces • Embedded intelligence, anywhere and anytime 4. NGU(Ubiquitous)N(Networking) Key Requirements for NGUN • More connectivity for whenever, whoever, wherever, whatever, etc; • More reality for subconscious connectivity to provide connectable real world environments; • More intelligence for innovative communication to accelerate value creation. 4. NGU(Ubiquitous)N(Networking) Definition of Ubiquitous in ITU-T “The term used for networking capabilities to support various classes of applications/services which require “Any Services, Any Time, Any Where and Any Devices” operation using NGN enabled capabilities. This networking capability should support human-to-human, human-to-object (e.g., device and/or machine) and object-to-object communications.” Temporary definition in ITU-T Draft Rec. Y.NGN-UbiNet: ‘Overview and Principles for Ubiquitous Networking in NGN’ 4. NGU(Ubiquitous)N(Networking) Four Key Technology Enablers Tagging Things: RFID • enabling real-time identification and tracking Sensing Things: Sensor technologies • enabling detection of environmental status and sensory information Thinking Things: Smart technologies • building intelligence into the edges of the network • enabling smart homes, smart vehicles etc Shrinking Things: Nanotechnology • making possible the “networking” of smaller and smaller objects (more powerful?!) 4. NGU(Ubiquitous)N(Networking) Basic conceptual Model of NGUN PC TV Home Electronics Human-to-Object Communication Vehicl e PDA Human-toHuman Communication NGN Database , Web, applicati on server RFID tag Humans with Attached Devices Camera Object-toObject Communication Wearable PC Mobile Phone Sensor s Home server, gateway Human-to-Object Communication Smart Card Ubiquitous Networking Telematics, Navigation Device Medical Device Objects (Remote Monitoring and Information Devices) 4. NGU(Ubiquitous)N(Networking) Technologies for NGUN Ultra-small One-Chip Components, RFID, Sensors, Smart Things IPv6, Security, Seamless Network, QoS over Heterogeneous Networks, Sensor Networks Personalized Services, Content Distribution, Steaming Data Distribution, Digital Rights Management Devices Network Contents, Services New PDA’s for Ubiquitous Environments, Digital Home Appliances, Wearable Computers Applications Ubiquitous Networking Infrastructure Impacts Ubiquitous Society, Mobility vs. Ubiquity, Business Models, Government Regulations High Performance Computing, 3G-2-4G, ISO Standards 4. NGU(Ubiquitous)N(Networking) Functional Architecture of NGUN based on NGN 4. NGU(Ubiquitous)N(Networking) Identity Processing for NGUN Layered Architecture Applications (Human, Objects) Ubiquitous Identity Processing User/Object Identities Name (Attributes) Identification/ Authorization Services (Service stratum) Service IDs RFID, Content ID, Telephone number, URL/URI, etc Mapping/ Binding Networks (Transport stratum) Communication IDs Session/Protocol ID, IP Address, MAC Address, etc Ubiquitous Networking Services Identity Management Services Context-Aware Services Location Management Services Directory Services, Domain Name Services Networked ID Services Overview of IPv6 based NGN5. Conclusion NGN: Currently IP based … IPv6-based NGN: This is a NGN which support addressing, routing protocol and mechanisms of IPv6 IPv4-based NGN: This is a NGN which support addressing, routing protocol and mechanisms of IPv4 IPv6-based Non-NGN: This is an IPv6 based packet network which is not comply with NGN IPv4-based Non-NGN: This is an IPv4 based packet network which is not comply with NGN ASTAPXX/FRXX/XX/XX NGN Non-NGN IPv4 based IPv4 based IPv6 based IPv6 based 5. Conclusion NGN: Enabler for Convergence Business/Application oriented projects Limited Services BE IP Limited BB FMC N G N •Simple linkage btw layers •Simple business relationships •Simple players RFID IPTV Others Managed IP Converged Broadband •Simple linkage btw layers with dynamics •Diverse and Flexible business relationships •Diverse business models and players 5. Conclusion NGN: Changing Regulation Frameworks Pre-NGN Video Services (TV, movie, etc) Telephone Services Data Services (WWW, e-mail, etc) Video Services Network Telephone Services Network Data Services Network Transport Agnostic Access Agnostic Service-based Pol./Reg. Voice Internet Video MM Access Network Provider Domain Pol. Reg. ANP 1 (DSL) Service/Application Provider Domain SP SP SP 1 2 3 SP m ANP 2 (DSL) IP (Future Packet ?) Platform ANP 3 (Opt) Pol. X Reg. x xDSL/Optic based Fixed-Mobile Resource-based Pol./Reg. User ANP N (Cable) CNP 1 CNP 2 CNP 3 Core Network Provider Domain Thank you for your attention !!!