1 / 20

TECHNICAL SEMINAR PRESENTATION

TECHNICAL SEMINAR PRESENTATION. MIGRATION OF GSM TO GPRS. Presented by. NISHITH RANJAN SAHOO Roll no: EI200117284. Under the Guidance of. Dr. Partha S. Mallik. MIGRATION OF GSM TO GPRS. INTRODUCTION. GPRS (General Packet Radio Service) Reuse the existing GSM infrastructure

golda
Télécharger la présentation

TECHNICAL SEMINAR PRESENTATION

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. TECHNICAL SEMINAR PRESENTATION MIGRATION OF GSM TO GPRS Presented by NISHITH RANJAN SAHOO Roll no: EI200117284 Under the Guidanceof Dr. Partha S. Mallik EI200117284

  2. MIGRATION OF GSM TO GPRS INTRODUCTION • GPRS (General Packet Radio Service) • Reuse the existing GSM infrastructure • Introduce packet-switched routing functionality • Better data transfer rates • Low cost and connectivity-oriented • Migration Path to 3G Networks • “Always on” / always connected EI200117284

  3. MIGRATION OF GSM TO GPRS NEED FOR GPRS • Existing Cellular networks have problems: • Data Rates too slow – about 9.6 kbps • Connections setup too long & complicated • Proves expensive for bursty traffic utilization • Inefficient resource utilization for bursty traffic • No efficient method for packet transfers EI200117284

  4. MIGRATION OF GSM TO GPRS PACKET-SWITCHED TECHNIQUEVS. CIRCUIT-SWITCHED • In circuit-switching, resources (e.g. a channel) are allocated to user for duration of connection • Inefficient use of resources • User pays for the whole connection • High QoS: channel maintains real-time connection • In packet-switching, resources are allocated to user only for the time it takes to send each packet • A channel can serve many users • User pays by the packet • Ideal for bursty data connections EI200117284

  5. MIGRATION OF GSM TO GPRS GPRS ARCHITECTURE • GPRS = GSM + packet switching. GPRS has the features of a real data network. • Speeds up to 190 kbps (theoretical maximum). • No dial-up modems needed, but direct • connections. • Billing based on sended/received bits, no • telephone ticks. • All applications available (www, e-mail, ftp,..). • The setup time is negligible – less than a second. EI200117284

  6. MIGRATION OF GSM TO GPRS GPRS ARCHITECTURE • How is the high speed of GPRS realized? • Dynamic assignment of bursts to a user. In GSM 1 burst per user. • In GPRS theoretical maximum of 8 bursts per user. Sync: 26 bits 000 Data: 57 bits 1 1 000 Data: 57 bits EI200117284

  7. MIGRATION OF GSM TO GPRS MIGRATION FROM GSM TO GPRS The migration path from GSM to GPRS requires: • Additional packet switching nodes (routers between the base stations and the mobile switch center). • The existing GSM nodes to be upgraded with GPRS functionality. • Commercial data services to be provided for this a GPRS operator needs to deploy other elements like Access servers and Firewalls. EI200117284

  8. MIGRATION OF GSM TO GPRS GPRS ENVIRONMENT EI200117284

  9. MIGRATION OF GSM TO GPRS GPRS ARCHITECTURE : MOBILE STATION • GPRS MS includes two components: • MT (Mobile Terminal). Typically a handset used to access the radio interface. • TE (Terminal Equipment). Typically a laptop or a Personal Digital Assistant (PDA). • Three types of MS: • Class-A: Could be attached to both GPRS and other GSM services, and the MS supports simultaneous operation of GPRS and other GSM services. • Class-B: Could be attached to both GPRS and other GSM services, but the MS can only operate one set of services at a time. • Class-C: Could be exclusively attached to one service type at a given time. EI200117284

  10. MIGRATION OF GSM TO GPRS GPRS ArchitectureInterfaces MSC/VLR HLR D Gr Gs Gc A Gb Gn Gi PDN TE TE MT BSS SGSN GGSN Ga R Um Ga Gp Gn Billing System Other PLMN CGF SGSN GGSN Gf EIR • CGF(Charging Gateway) EI200117284

  11. MIGRATION OF GSM TO GPRS SGSN – SERVING GPRS SUPPORT NODE • At the same hierarchical level as the MSC. • Transfers data packets between mobile stations and GGSNs. • Keeps track of the individual MSs’ location and performs security functions and access control. • Detects and registers new GPRS mobile stations located in its service area • Participates into routing, as well as mobility management functions. EI200117284

  12. MIGRATION OF GSM TO GPRS GGSN – GATEWAY GPRS SUPPORT NODE • Provides inter-working between PLMN and external packet-switched networks. • Converts the GPRS packets from SGSN into the appropriate packet data protocol format (e.g., IP or X.25) and sends out on the corresponding packet data network. • Participates into the mobility management. • Maintains the location information of the mobile stations that are using the data protocols provided by that GGSN. • Collects charging information for billing purpose. EI200117284

  13. MIGRATION OF GSM TO GPRS GPRS ARCHITECTURE:BACKBONE NETWORK • Tunnels of data and signaling messages between GPRS support nodes.Protocol architecture based on the Internet Protocol (IP). • GTP (GPRS Tunneling Protocol) used to tunnel user data and signaling between GPRS Support Nodes. • Two kinds of GPRS backbone Network: • Intra-PLMN backbone network: The IP network interconnecting GSNs within the same PLMN. • Inter-PLMN backbone network: The IP network interconnecting GSNs and intra-PLMN backbone networks in different PLMNs. • Border Gateway handles the packet transfer between GPRS PLMNs. EI200117284

  14. MIGRATION OF GSM TO GPRS GPRS ARCHITECTURE: BACKBONE NETWORK Packet Data Network Inter-PLMN Backbone Gi Gi Gp GGSN BG BG GGSN Intra-PLMN Backbone Intra-PLMN Backbone SGSN SGSN SGSN EI200117284

  15. MIGRATION OF GSM TO GPRS PACKET TRANSFER EI200117284

  16. MIGRATION OF GSM TO GPRS PLMN2 PLMN1 BSC BTS BSC BTS SGSN SGSN MS Inter-PLMN GPRS Backbone Gn Intra-PLMN GPRS Backbone Intra-PLMN GPRS Backbone Gp Border Gateway Gn Border Gateway Gn GGSN Packet Data Network(PDN) Eg.Internet,Intranet SGSN Gi GGSN Host Router EI200117284

  17. MIGRATION OF GSM TO GPRS MOBILITY MANAGEMENT • Mobility management is the means by which GPRS keeps track of a mobile subscriber location while connected to the Network. • Main concepts : • GPRS mobility management states • GPRS network access. • Attachment. • Location management • Packet Data protocol PDP context • Detachment EI200117284

  18. MIGRATION OF GSM TO GPRS MOBILITY MANAGEMENT STATES IDLE GPRS Attach unreachable mobile Explicit Detach GPRS Detach READY Timer expiry/Force STANDBY/Abnormal RLC condition reachable mobile PDU Transmission /Reception STANDBY EI200117284

  19. MIGRATION OF GSM TO GPRS CONCLUSION • The GPRS should cost uses less than circuit-switched services since communication channels are being used on a shared basis and also the packets are need-based rather than dedicated only to one user. • The next stepping stone would be moving towards 3G by implementing EDGE (Enhanced Data rates for Global Evolution), • The GPRS is the key transition phase and is a fundamental requirement for Third Generation Mobile Communications. EI200117284

  20. MIGRATION OF GSM TO GPRS THANK U !!!!!!!!!!!!! EI200117284

More Related