Mobile Communication

1. Mobile Communication MMS / GPRS

2. What is GPRS ? • General Packet Radio Service (GPRS) is a new bearer service for GSM that greatly improves and simplifies wireless access to packet data networks • GPRS applies packet radio principal to transfer user data packets in an efficient way b/w MS & external packet data network

3. Benefits of GPRS • New Data Services • High Speed (Data Rate 14.4 – 115 kbps) • Efficient use of radio bandwidth (Statistical Multiplexing) • Circuit switching & Packet Switching can be used in parallel • Constant connectivity

4. Comparison of GSM & GPRS

5. High Data Rate • GPRS uses radio channel i.e. 200 kHz wide • Radio channel carries digital data stream of 271 kbps • This rate is divided into 8 time slots each carrying 34 kbps per time slot • Data rate 14 kbps per time slot achieved after corrections • GPRS can combine upto 8 time slots giving data rate of 114 kbps

6. GPRS Terminals • Class A • MS supports simultaneous operation of GPRS and GSM services • Class B • MS able to register with the n/w for both GPRS & GSM services simultaneously. It can only use one of the two services at a given time. • Class C • MS can attach for either GPRS or GSM services

7. GPRS Network Elements GPRS Architecture is same as GSM except few hardware modifications : • GPRS includes GSNs • SGSN : Serving GPRS Support Node • GGSN : Gateway GPRS Support Node • GPRS Register

8. GSM SYSTEM ARCHITECTURE PSTN ISDN PDN BSC MS BTS MSC/VLR GMSC BTS BSC MS EIR BTS AUC MS HLR

9. GPRS SYSTEM ARCHITECTURE Other GPRS PLMN Gd SMS-GMSC SMS-INMSC SGSN Gp GGSN Gb Gn GGSN Gf BTS BSC Gr Gs PDN Gi Gc BTS EIR HLR+GPRS Register MS D MSC/VLR

10. SGSN – Serving GPRS Support Node • Delivers data packets to mobile stations & vice-versa • Detect and Register new GPRS MS in its serving area • Packet Routing, Transfer & Mobility Management • Authentication, Maintaining user profiles • Its location register stores location info. & user profiles

11. GGSN – Gateway GPRS Support Node • Interfaces GPRS backbone network & external packet data networks • Converts the GPRS packets from SGSN to the PDP format • Converts PDP addresses <Packet Data Protocol> change to GSM addresses of the destination user • Stores the current SGSN address and profile of the user in its location register • Performs authentication • Many-to- many relations among SGSNs & GGSNs

12. SESSION MANAGEMENT IN GPRS

13. Attachment & Detachment Procedure • GPRS attach • User is registered in SGSN, after authentication check from HLR • SGSN assigns P-TMSI to MS • GPRS detach • Disconnection of MS from GPRS network is called GPRS detach • It can be initiated by MS or by network(SGSN or HLR)

14. Session Management • Mobile Station applies for PDP address <link-local address> • For each session PDP context is created & it contains • PDP type • PDP addressed assigned to MS • Address of GGSN that servers access point to PDN • With active PDP context MS able to send or receive data packets • Allocation of PDP address can be static or dynamic

15. PDP Context Activation

16. Channels in GPRS • Logical Channel • Traffic Channels • Signaling Channels (Control Channels) • Physical Channels

17. Logical Channels

18. Packet Data Channel(PDCH) • Physical Channel for GPRS Traffic • PDCH are taken from all channels available in the cell • Depending on current traffic load and priority of service, the physical channel are allocated to either GPRS or GSM services. • Physical channels not currently used by GSM can be allocated as PDCH to increase the QOS for GPRS

19. Multiframe Structure of PDCH Four consecutive TDMA frame forms one block - B0 – B11 Two TDMA frames for transmission of PTCCH - T Two Idle frames - X