- General Packet Radio Service
General packet radio service (GPRS) is a packet oriented mobile data service on the 2G and 3G cellular communication system's global system for mobile communications (GSM). GPRS was originally standardized by European Telecommunications Standards Institute (ETSI) in response to the earlier CDPD and i-mode packet-switched cellular technologies. It is now maintained by the 3rd Generation Partnership Project (3GPP).
GPRS usage charging is based on volume of data, either as part of a bundle or on a pay-as-you-use basis. An example of a bundle is up to 5 GB per month for a fixed fee. Usage above the bundle cap is either charged for per megabyte or disallowed. The pay as you use charging is typically per megabyte of traffic. This contrasts with circuit switching data, which is typically billed per minute of connection time, regardless of whether or not the user transfers data during that period.
GPRS is a best-effort service, implying variable throughput and latency that depend on the number of other users sharing the service concurrently, as opposed to circuit switching, where a certain quality of service (QoS) is guaranteed during the connection. In 2G systems, GPRS provides data rates of 56-114 kbit/second. 2G cellular technology combined with GPRS is sometimes described as 2.5G, that is, a technology between the second (2G) and third (3G) generations of mobile telephony. It provides moderate-speed data transfer, by using unused time division multiple access (TDMA) channels in, for example, the GSM system. GPRS is integrated into GSM Release 97 and newer releases.
- 1 Technical overview
- 2 Coding schemes and speeds
- 3 Usability
- 4 See also
- 5 References
- 6 External links
The GPRS core network allows 2G, 3G and WCDMA mobile networks to transmit IP packets to external networks such as the Internet. The GPRS system is an integrated part of the GSM network switching subsystem.
GPRS extends the GSM Packet circuit switched data capabilities and makes the following services possible:
- SMS messaging and broadcasting
- "Always on" internet access
- Multimedia messaging service (MMS)
- Push to talk over cellular (PoC)
- Instant messaging and presence—wireless village
- Internet applications for smart devices through wireless application protocol (WAP)
- Point-to-point (P2P) service: inter-networking with the Internet (IP)
- Point-to-Multipoint (P2M) service: point-to-multipoint multicast and point-to-multipoint group calls
If SMS over GPRS is used, an SMS transmission speed of about 30 SMS messages per minute may be achieved. This is much faster than using the ordinary SMS over GSM, whose SMS transmission speed is about 6 to 10 SMS messages per minute.
GPRS supports the following protocols:
- Internet protocol (IP). In practice, built-in mobile browsers use IPv4 since IPv6 was not yet popular.
- Point-to-point protocol (PPP). In this mode PPP is often not supported by the mobile phone operator but if the mobile is used as a modem to the connected computer, PPP is used to tunnel IP to the phone. This allows an IP address to be assigned dynamically to the mobile equipment.
- X.25 connections. This is typically used for applications like wireless payment terminals, although it has been removed from the standard. X.25 can still be supported over PPP, or even over IP, but doing this requires either a network based router to perform encapsulation or intelligence built in to the end-device/terminal; e.g., user equipment (UE).
When TCP/IP is used, each phone can have one or more IP addresses allocated. GPRS will store and forward the IP packets to the phone even during handover. The TCP handles any packet loss (e.g. due to a radio noise induced pause).
Devices supporting GPRS are divided into three classes:
- Class A
- Can be connected to GPRS service and GSM service (voice, SMS), using both at the same time. Such devices are known to be available today.
- Class B
- Can be connected to GPRS service and GSM service (voice, SMS), but using only one or the other at a given time. During GSM service (voice call or SMS), GPRS service is suspended, and then resumed automatically after the GSM service (voice call or SMS) has concluded. Most GPRS mobile devices are Class B.
- Class C
- Are connected to either GPRS service or GSM service (voice, SMS). Must be switched manually between one or the other service.
A true Class A device may be required to transmit on two different frequencies at the same time, and thus will need two radios. To get around this expensive requirement, a GPRS mobile may implement the dual transfer mode (DTM) feature. A DTM-capable mobile may use simultaneous voice and packet data, with the network coordinating to ensure that it is not required to transmit on two different frequencies at the same time. Such mobiles are considered pseudo-Class A, sometimes referred to as "simple class A". Some networks support DTM since 2007.
USB 3G/GPRS modems use a terminal-like interface over USB 1.1, 2.0 and later, data formats V.42bis, and RFC 1144 and some models have connector for external antenna. Modems can be added as cards (for laptops) or external USB devices which are similar in shape and size to a computer mouse, or nowadays more like a pendrive.
A GPRS connection is established by reference to its access point name (APN). The APN defines the services such as wireless application protocol (WAP) access, short message service (SMS), multimedia messaging service (MMS), and for Internet communication services such as email and World Wide Web access.
Coding schemes and speeds
The upload and download speeds that can be achieved in GPRS depend on a number of factors such as:
- the number of BTS TDMA time slots assigned by the operator
- the channel encoding used.
- the maximum capability of the mobile device expressed as a GPRS multislot class
Multiple access schemes
The multiple access methods used in GSM with GPRS are based on frequency division duplex (FDD) and TDMA. During a session, a user is assigned to one pair of up-link and down-link frequency channels. This is combined with time domain statistical multiplexing; i.e., packet mode communication, which makes it possible for several users to share the same frequency channel. The packets have constant length, corresponding to a GSM time slot. The down-link uses first-come first-served packet scheduling, while the up-link uses a scheme very similar to reservation ALOHA (R-ALOHA). This means that slotted ALOHA (S-ALOHA) is used for reservation inquiries during a contention phase, and then the actual data is transferred using dynamic TDMA with first-come first-served scheduling.
CS-1 8.0 CS-2 12.0 CS-3 14.4 CS-4 20.0
The least robust, but fastest, coding scheme (CS-4) is available near a base transceiver station (BTS), while the most robust coding scheme (CS-1) is used when the mobile station (MS) is further away from a BTS.
Using the CS-4 it is possible to achieve a user speed of 20.0 kbit/s per time slot. However, using this scheme the cell coverage is 25% of normal. CS-1 can achieve a user speed of only 8.0 kbit/s per time slot, but has 98% of normal coverage. Newer network equipment can adapt the transfer speed automatically depending on the mobile location.
In addition to GPRS, there are two other GSM technologies which deliver data services: circuit-switched data (CSD) and high-speed circuit-switched data (HSCSD). In contrast to the shared nature of GPRS, these instead establish a dedicated circuit (usually billed per minute). Some applications such as video calling may prefer HSCSD, especially when there is a continuous flow of data between the endpoints.
The following table summarises some possible configurations of GPRS and circuit switched data services.
Technology Download (kbit/s) Upload (kbit/s) TDMA Timeslots allocated CSD 9.6 9.6 1+1 HSCSD 28.8 14.4 2+1 HSCSD 43.2 14.4 3+1 GPRS 80.0 20.0 (Class 8 & 10 and CS-4) 4+1 GPRS 60.0 40.0 (Class 10 and CS-4) 3+2 EGPRS (EDGE) 236.8 59.2 (Class 8, 10 and MCS-9) 4+1 EGPRS (EDGE) 177.6 118.4 (Class 10 and MCS-9) 3+2
The multislot class determines the speed of data transfer available in the Uplink and Downlink directions. It is a value between 1 to 45 which the network uses to allocate radio channels in the uplink and downlink direction. Multislot class with values greater than 31 are referred to as high multislot classes.
A multislot allocation is represented as, for example, 5+2. The first number is the number of downlink timeslots and the second is the number of uplink timeslots allocated for use by the mobile station. A commonly used value is class 10 for many GPRS/EGPRS mobiles which uses a maximum of 4 timeslots in downlink direction and 2 timeslots in uplink direction. However simultaneously a maximum number of 5 simultaneous timeslots can be used in both uplink and downlink. The network will automatically configure the for either 3+2 or 4+1 operation depending on the nature of data transfer.
Some high end mobiles, usually also supporting UMTS also support GPRS/EDGE multislot class 32. According to 3GPP TS 45.002 (Release 6), Table B.2, mobile stations of this class support 5 timeslots in downlink and 3 timeslots in uplink with a maximum number of 6 simultaneously used timeslots. If data traffic is concentrated in downlink direction the network will configure the connection for 5+1 operation. When more data is transferred in the uplink the network can at any time change the constellation to 4+2 or 3+3. Under the best reception conditions, i.e. when the best EDGE modulation and coding scheme can be used, 5 timeslots can carry a bandwidth of 5*59.2 kbit/s = 296 kbit/s. In uplink direction, 3 timeslots can carry a bandwidth of 3*59.2 kbit/s = 177.6 kbit/s.
Multislot Classes for GPRS/EGPRS
Multislot Class Downlink TS Uplink TS Active TS 1 1 1 2 2 2 1 3 3 2 2 3 4 3 1 4 5 2 2 4 6 3 2 4 7 3 3 4 8 4 1 5 9 3 2 5 10 4 2 5 11 4 3 5 12 4 4 5 30 5 1 6 31 5 2 6 32 5 3 6 33 5 4 6 34 5 5 6
Attributes of a multislot class
Each multislot class identifies the following:
- the maximum number of Timeslots that can be allocated on uplink
- the maximum number of Timeslots that can be allocated on downlink
- the total number of timeslots which can be allocated by the network to the mobile
- the time needed for the mobile phone to perform adjacent cell signal level measurement and get ready to transmit
- the time needed for the MS to get ready to transmit
- the time needed for the MS to perform adjacent cell signal level measurement and get ready to receive
- the time needed for the MS to get ready to receive.
The different multislot class specification is detailed in the Annex B of the 3GPP Technical Specification 45.002 (Multiplexing and multiple access on the radio path)
The maximum speed of a GPRS connection offered in 2003 was similar to a modem connection in an analog wire telephone network, about 32-40 kbit/s, depending on the phone used. Latency is very high; round-trip time (RTT) is typically about 600-700 ms and often reaches 1 s. GPRS is typically prioritized lower than speech, and thus the quality of connection varies greatly.
Devices with latency/RTT improvements (via, for example, the extended UL TBF mode feature) are generally available. Also, network upgrades of features are available with certain operators. With these enhancements the active round-trip time can be reduced, resulting in significant increase in application-level throughput speeds.
- Code division multiple access (CDMA)
- Enhanced data rates for GSM evolution (EDGE)
- Universal mobile telephone system (UMTS)
- GPRS core network
- Sub-network dependent convergence protocol (SNDCP)
- IP Multimedia Subsystem
- High-speed downlink packet access (HSDPA)
- Cellular data communication protocol
- List of device bandwidths
- ^ http://www.etsi.org/WebSite/homepage.aspx ETSI
- ^ http://www.3gpp.org/ 3GPP
- ^ http://about.qkport.com/g/general_packet_radio_service General packet radio service from Qkport
- ^ http://www.funsms.net/mobile_phone_generations.htm Mobile Phone Generations from
- ^ http://mobilesociety.typepad.com/mobile_life/2007/04/gprs_and_edge_m.html
- 3GPP AT command set for user equipment (UE)
- GPRS security information (archive.org)
- Free GPRS resources
- Free online tutorial.
- GSM World, the trade association for GSM and GPRS network operators.
- Palowireless GPRS resource center
- GPRS attach and PDP context activation sequence diagram
Internet access Network type Wired Wireless Optical Coaxial cable Twisted pair Phone line Power line Unlicensed terrestrial bands Licensed terrestrial bands Satellite LAN Ethernet G.hn · MoCA · HomePNA Ethernet HomePNA · G.hn G.hn · HomePlug Wi-Fi · Bluetooth · DECT · Wireless USB WAN PON · Ethernet DOCSIS Ethernet Dial-up · ISDN · DSL Power line Muni Wi-Fi GPRS · iBurst · WiBro/WiMAX · UMTS-TDD, HSPA · EVDO · LTE · MMDS Satellite Cellular network standards 0G (radio telephones) 1GAMPS familyOther 2G3GPP2 familycdmaOne (TIA/EIA/IS-95 and ANSI-J-STD 008)AMPS familyD-AMPS (IS-54 and IS-136)Other 2G transitional
(2.5G, 2.75G)3GPP2 familyCDMA2000 1X (TIA/EIA/IS-2000) · 1X AdvancedOther
3G (IMT-2000)3GPP2 familyCDMA2000 1xEV-DO Release 0 (TIA/IS-856) 3G transitional
(3.5G, 3.75G, 3.9G)3GPP2 familyIEEE family
(IMT-Advanced)IEEE familyWiMAX-Advanced (IEEE 802.16m)
5GResearch concept, not under formal development LinksRelated articlesExternal links
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