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Emergency Services in PacketCableTM 2.0

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Title: Emergency Services in PacketCableTM 2.0


1
Emergency Services in PacketCableTM 2.0
  • Sandeep Sharma
  • Senior Architect, Signaling Protocols
  • SDO Emergency Services Coordination Workshop,
    Columbia University, New York
  • October 5 and 6, 2006

2
CableLabs Introduction
  • Established in 1988, CableLabs is a non-profit,
    research and development organization for the
    cable industry
  • Members are exclusively cable system operators
  • Board of Directors is made up of member company
    CEOs
  • Technical leadership is provided by member
    company CTOs
  • There are currently 52 member cable companies
    representing 82 million cable subscribers in
    North America, Latin America, Europe, and Japan
  • US (62M)
  • Canada (7M)
  • Europe (10M)
  • Japan (1.5M)
  • Latin America (1.5M)

3
CableLabs Mission
  • Plan, fund and perform RD projects
  • CableLabs works with the manufacturing community
    to develop technology to meet the business and
    strategic initiatives of its members
  • Funnel relevant research to member companies
  • Serve as a clearinghouse to provide information
    on current and prospective technological advances
    through strategic and technical assessments
  • Develop technology for new businesses
  • Foster equipment development
  • Interoperability specifications and certification
    activities
  • Coordination with relevant industry fora
  • ITU, 3GPP, ETSI, SCTE, IETF, UPnP, DLNA

4
What is PacketCableTM?
  • The PacketCableTM project was founded in 1997 to
    develop an architecture for real-time IP
    communication services over cable
  • PacketCable 1.0 and 1.5
  • An end-to-end architecture for providing IP-based
    digital telephony services
  • Signaling based on MGCP to the endpoints and SIP
    between call management servers, provisioning,
    QoS, management, PSTN interconnect, accounting,
    security, codecs
  • Leveraging DOCSIS 1.1 and 2.0 access network
    technologies
  • PacketCable Multimedia
  • A QoS architecture that support a wide range of
    QoS-enabled, beyond-voice services
  • Leverages existing mechanisms defined in
    PacketCable 1.01.5 and DOCSIS 1.1 2.0
  • PacketCable 2.0
  • Defines an end-to-end architecture for providing
    real-time IP communication services based
    entirely on SIP and 3GPP IMS
  • Extend cables existing Internet Protocol service
    environment to accelerate the convergence of
    voice, video, data, and mobility technologies

5
IMS in PacketCable 2.0
PacketCable 2.0 integrated an IMS core into the
cable architecture
Cable-based provisioning, management, and
accounting
PSTN Interconnect via PacketCable 1.5
Client-managed NAT Firewall Traversal
Interconnect with PacketCable 1.5 digital
telephony networks and clients (E-MTAs)
IP connectivity via DOCSIS Access Network
Policy Control via PacketCable Multimedia
Enhancements based upon cable requirements
Cable clients
6
Application Agnostic Architecture
Cable Application Servers
Residential SIP Telephony
Wireless Cellular Integration
Video Application
XYZ Application
OSS
BGCF
HSS
PacketCable 2.0 Network (IMS based)
I-CSCF
S-CSCF
P-CSCF
Cable Clients
7
PacketCable 2.0 Residential SIP Telephony (RST)
  • Application that makes use of PacketCable 2.0
    architecture
  • 5 published documents http//www.packetcable.com
    /specifications/packetcableapps.html
  • Provides traditional North American residential
    digital telephony features
  • Examples of supported features
  • Caller ID / Calling name delivery
  • Call Forwarding (multiple variants)
  • Call Blocking (inbound, outbound)
  • Multi party features (Call Waiting, Hold,
    Transfer, Three Way calling)
  • Call History (Auto recall, Auto callback)
  • Operator Services
  • Emergency Services
  • Do Not Disturb, Distinctive Alerting, Message
    Waiting, Speed Dialing, Call Trace
  • Rest of the presentation references PacketCable
    2.0 RST Feature Specification

8
RST Emergency Services Scope
  • Identification and storage of location
    information by UE
  • Identification of emergency calls at UE and/or
    CSCF servers
  • Conveyance of UE location information in SIP
    signaling for emergency calls
  • Special handling (establishing QoS and priority
    treatment) for emergency calls post I01
  • Handling of emergency calls at SIP Proxies and
    PacketCable 2.0 routing server functions

9
RST Emergency Services Assumptions
  • Applicability of NENA i1, i2 and i3
  • Use of IETF protocols and methodologies for
    location determination and conveyance
  • Location information is provided to UE via
    DHCPv6/v4
  • UE supports DHCP protocol and associated options
    for geographical location (RFC 3825) and civic
    location (draft-ietf-geopriv-dhcp-civil-09)
  • UE supports SIP multipart MIME (RFC 3261) and
    SIPPING location conveyance I-D with PIDF-LO
    object(s) to convey location information in SIP
    message bodies

10
RST Emergency Call Handling
  • At UE boot time
  • UE request its location from the access network
    using DHCP
  • UE is provisioned by its home network backoffice
    systems with the digit map that identifies the
    emergency dial string
  • When an emergency call is initiated, UE sends an
    INVITE with the universal emergency service URN
    URNservicesos as Request-URI and To header
  • INVITE request also includes the location
    obtained from DHCP in its message body in the
    form of PIDF-LO as defined in draft-ietf-sip-locat
    ion-conveyance-04
  • The P-CSCF detects the emergency call and
    forwards the call to E-CSCF
  • E-CSCF follows the procedures outlined in RST
    specification for the various NENA phases to
    forward the call to PSAP

11
RST Emergency Services UE Requirements
  • Minimum UE state (registered and authenticated)
  • Emergency calling configuration (e.g. digit map)
  • Obtain location using DHCP
  • Recognition of an emergency call
  • Basic call modifications while on an emergency
    call
  • PSAP Operator Ringback
  • PSAP Callback (PSAP originated emergency call)
  • Feature Interactions
  • Signaling Identification of an emergency call
  • Priority emergency
  • Media QOS for emergency call
  • Mark media packets with special DSCP values

12
RST Emergency Services P-CSCF Requirements
  • Recognition of UE-originated emergency call
  • Forwarding the call to an E-CSCF
  • Handling of Network-initiated de-registration
    during emergency calls

13
RST Emergency Services E-CSCF requirements
  • Call routing in NENA i3 architecture
  • Use location in INVITE to determine Request URI
    of PSAP (using draft-ietf-ecrit-lost-01 for
    example), currently left FFS as IETF documents
    mature
  • Forward INVITE to PSAP URI
  • Call routing in NENA i2
  • Use location in INVITE to determine ESRN and ESQK
    (from a VoIP Positioning Center VPC)
  • Route INVITE to ESGW (on to PSAP)
  • Call routing in NENA Pre-i2
  • E-CSCF routes to dedicated selective router
  • Selective router routes to PSAP based on
    telephone number of caller
  • Location in INVITE not used
  • Call routing in NENA i1
  • Call is routed to telephone number associated
    with PSAP
  • Does not make use of dedicated selective router
  • Route INVITE to MGC
  • Call treated as normal PSTN call

14
References
  • CableLabs
  • http//www.cablelabs.com
  • DOCSIS Specifications
  • http//www.cablemodem.com/specifications/
  • Overall PacketCableTM project
  • http//www.packetcable.com
  • PacketCable 2.0 project
  • http//www.packetcable.com/specifications/specific
    ations20.html
  • Residential SIP Telephony
  • http//www.packetcable.com/specifications/packetca
    bleapps.html

15
Thank You
  • Feedback is welcome
  • CableLabs specifications are intended to be
    revised as IETF and other standard requirements
    mature
  • For further information, email to s dot sharma at
    cablelabs dot com

16
Backup slide 1 (Emergency call)
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