High Speed Packet Access

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High Speed Packet Access
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High Speed Packet Access (HSPA) is an amalgamation of two mobile telephony protocols, High Speed Downlink Packet Access (HSDPA) and High Speed Uplink Packet Access (HSUPA), that extends and improves the performance of existing WCDMA protocols. A further standard, Evolved HSPA (also known as HSPA+), was released late in 2008 with subsequent adoption worldwide beginning in 2010.

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Contents
[hide]
• • •

1 Overview 2 High Speed Downlink Packet Access (HSDPA) 3 High Speed Uplink Packet Access (HSUPA)

• • • • • • • •

4 Evolved High Speed Packet Access (HSPA+) 5 Dual-Cell HSDPA (DC-HSDPA) 6 Dual-Cell HSUPA (DC-HSUPA) 7 Multi-carrier HSPA (MC-HSPA) 8 See also 9 References 10 Literature 11 External links

[edit] Overview
HSPA supports increased peak data rates of up to 14 Mbit/s in the downlink and 5.8 Mbit/s in the uplink. It also reduces latency and provides up to five times more system capacity in the downlink and up to twice as much system capacity in the uplink, reducing the production cost per bit compared to original WCDMA protocols. HSPA increases peak data rates and capacity in several ways: • • • • •


Shared-channel transmission, which results in efficient use of available code and power resources in WCDMA A shorter Transmission Time Interval (TTI), which reduces round-trip time and improves the tracking of fast channel variations Link adaptation, which maximizes channel usage and enables the base station to operate at close to maximum cell power Fast scheduling, which prioritizes users with the most favorable channel conditions Fast retransmission and soft-combining, which further increase capacity 16QAM (Quadrature Amplitude Modulation), which yields higher bit-rates

By July 2010, HSPA had been commercially deployed by over 200 operators in more than 80 countries. Many HSPA rollouts can be achieved by a software upgrade to existing 3G networks, giving HSPA a headstart over WiMax, which requires a dedicated network infrastructure. A rich variety of HSPA enabled devices - more than 1000 available by July 2010 - together with ease of use is leading to rising sales of HSPA-enabled mobiles and is helping to drive the adoption of HSPA.
[citation needed]

[edit] High Speed Downlink Packet Access (HSDPA)
Main article: HSDPA The first step required to upgrade WCDMA to HSPA is to improve the downlink by introducing HSDPA. The improved downlink provides up to 14 Mbit/s with significantly reduced latency. The channel reduces the cost per bit and enhances support for high-performance packet data applications.

HSDPA is based on shared channel transmission and its key features are shared channel and multi-code transmission, higher-order modulation, short Transmission Time Interval (TTI), fast link adaptation and scheduling along with fast Hybrid Automatic Repeat reQuest (HARQ). The upgrade to HSDPA is often just a software update for most WCDMA networks, and as of May 2008 90 percent of WCDMA networks have been upgraded to HSDPA.[2] A majority of deployments provide up to 7.2 Mbit/s in the down-link, and 14 Mbit/s is ready as soon as the devices are available in the market. In 2006, it was reported that most of the HSDPAcapable UEs then deployed were "Category 12" devices, supporting only up to 1.8 Mbps.[3][citation
needed]

Voice calls are usually prioritized over data transfer. Singapore's three network providers M1, StarHub and SingTel provide up to 28 Mbit/s throughout the entire island. The Australian provider Telstra provides up to 14.4 Mbit/s nationwide and up to 42Mbit/s in selected areas. The Croatian VIPnet network supports a downlink speed of 7.2 Mbit/s, as does Rogers Wireless in Canada which also supports 21 Mbit/s in the Toronto area.[4] In South Korea, a nationwide 7.2 Mbit/s coverage is now established by SK Telecom and KTF. In Hong Kong, PCCW, CSL and Hutchison 3 provide 21 Mbit/s coverage and Smartone-Vodafone provides up to 28.8 Mbit/s. In New Zealand, Telecom support 21 Mbit/s HSDPA, In Portugal all the mobile phone operators support 21.6 Mbit/s HSDPA (Vodafone now supports 42Mbit/s in selected areas), and the Indian & Sri-Lankan companies Bharti Airtel Pvt Ltd and Dialog GSM Pvt Ltd also provide 7.2 Mbit/s while Mobitel Pvt Ltd provides 28 Mbit/s in the Asian region. j

[edit] High Speed Uplink Packet Access (HSUPA)
Main article: HSUPA The second major step in the WCDMA upgrade process is to upgrade the uplink, which is introduced in 3GPP Release 6. Upgrading to HSUPA is usually only a software update. Enhanced Uplink adds a new transport channel to WCDMA, called the Enhanced Dedicated Channel (E-DCH). An enhanced uplink creates opportunities for a number of new applications including VoIP, uploading pictures and sending large e-mail messages. The enhanced uplink increases the data rate (up to 5.8 Mbit/s), the capacity, and also reduces latency. The enhanced uplink features several improvements similar to those of HSDPA, including multi-code transmission, short Transmission Time Interval (TTI), fast scheduling and fast Hybrid Automatic Repeat reQuest (HARQ). In Singapore, Starhub announced a 1.9 Mbit/s HSUPA Service as part of its new MaxMobile plan on 1 August 2007.[5] In Finland, Elisa announced on 30 August 2007 1.4 Mbit/s HSUPA to most large cities with plans to add the service to its whole 3G network within months.[6] (The same announcement contained a promise of covering 25% more of Finland by the end of the year, which actually took two more years to accomplish). 3 Italia and Ericsson announced on 16 July 2008 the successful tests of HSUPA 5.8 Mbit/s in the live network of 3 Italia.[7]

[edit] Evolved High Speed Packet Access (HSPA+)
Main article: HSPA+ Evolved HSPA (also known as: HSPA Evolution, HSPA+, I-HSPA or Internet HSPA) is a wireless broadband standard defined in 3GPP release 7 and 8 of the WCDMA specification. Evolved HSPA provides data rates up to 56 Mbit/s in the downlink and 22 Mbit/s in the uplink (per 5 MHz carrier) with multiple input, multiple output (MIMO) technologies and higher order

modulation. On 21 July 2010, T-Mobile USA announced HSPA+ service to 50 markets with plans to increase this to 100 markets (185 million people) by the end of the year.[8]

[edit] Dual-Cell HSDPA (DC-HSDPA)
Main article: Dual-Cell HSDPA Dual-Cell HSDPA, part of 3GPP Release 8, is the natural evolution of HSPA by means of carrier aggregation.[9] An HSPA+ network can theoretically support up to 28Mbit/s and 42Mbit/s with a single 5 MHz carrier for Rel7 (MIMO) and Rel8 (Higher Order Modulation + MIMO), in good channel conditions with low correlation between transmit antennas. Alternatively DC-HSPA can be used from Release 8 where the MAC scheduler can allocate two HSPA carriers in parallel and double the bandwidth from 5 MHz to 10 MHz. Besides the throughput gain from double the bandwidth, some diversity and joint scheduling gains can also be achieved.[10] This can particularly improve the QoS (Quality of Service) for end users in poor environmental conditions that cannot benefit from MIMO and Higher Modulation only. From Release 9 onwards it will be possible to use DC-HSDPA in combination with MIMO used on both carriers. The support of MIMO in combination with DC-HSDPA will allow operators deploying Release 7 MIMO to benefit from the DC-HSDPA functionality as defined in Release 8.

[edit] Dual-Cell HSUPA (DC-HSUPA)
Main article: DC-HSUPA Similar enhancements as introduced with DC-HSDPA in the downlink for UMTS Release 8 are being standardized for UMTS Release 9 in the uplink, called Dual-Cell HSUPA.[11] DC-HSUPA will have similar limitations, for instance that the carriers have to belong to the same Node-B and have to be adjacent. Furthermore, it is assumed that at least 2 carriers are configured simultaneously in the downlink and have the same duplex distance to the uplink. The dual carrier transmission will only be applied to HSUPA UL physical channels and DPCCH. The standardisation of Release 9 is expected to be completed in December 2009.

[edit] Multi-carrier HSPA (MC-HSPA)
While the aggregation of more than two carriers has been studied, the 3GPP specification does not yet allow this option. Nevertheless it seems likely that such option will be added at a later state of the technology.

[edit] See also
• •

Global mobile Suppliers Association LTE

[edit] References
1. ^ Nomor Research: White Paper "Technology of High Speed Packet Access"

, nomor.de
2. ^ "GSM/3G Market Update"

. Global mobile Suppliers Association. June 2, 2008. http://www.gsacom.com/news/gsa_247.php4 . Retrieved February 1, 2010.
3. ^ "HSDPA Performance and Evolution"

. Ericcson Review, no. 03, 2006. March, 2006. http://www.ericsson.com/ericsson/corpinfo/publications/review/2006_03/06.shtml . Retrieved January 18, 2011.
4. ^ Rogers.com 5. ^ Starhub.com 6. ^ Elisa.fi 7. ^ Ericsson.com 8. ^

http://news.yahoo.com/s/ytech_gadg/20100722/tc_ytech_gadg/ytech_gadg_tc3200;_ylt= Alq5BF7lYWY0P7lYDZduKDV8Orp_;_ylu=X3oDMTJ2bmFrYTc5BGFzc2V0A3l0Z WNoX2dhZGcvMjAxMDA3MjIveXRlY2hfZ2FkZ190YzMyMDAEcG9zAzEEc2VjA3l uX3BhZ2luYXRlX3N1bW1hcnlfbGlzdARzbGsDdC1tb2JpbGU4MjE3
9. ^ Nomor Research White Paper: Dual-cell HSPA and its Evolution

, nomor.de
10. ^ R1-081546, “Initial multi-carrier HSPA performance evaluation”, Ericsson, 3GPP

TSG-RAN WG1 #52bis, April, 2008
11. ^ Nomor 3GPP Newsletter 2009-03: Standardisation updates on HSPA Evolution

, nomor.de

[edit] Literature


Martin Sauter: Communication Systems for the Mobile Information Society, John Wiley, September 2006, ISBN 0-470-02676-6 GSMworld.com

[edit] External links


, Official HSPA website


Linkedin.com , Public HSPA Discussion Forum



Nomor Research: White Paper "Technology of High Speed Packet Access" , nomor.de



3.5G driving rapid mobile broadband growth , news.com



Nomor Research: White Paper "Dual-Cell HSDPA and its Evolution , nomor.de



Basic concepts of HSPA (Ericsson White Paper) , ericsson.com



HSPA, the Undisputed Choice for Mobile Broadband (Ericsson White Paper) , ericsson.com



Nomor 3GPP Newsletter 2009-03: Standardisation updates on HSPA Evolution , nomor.de [show]v · d · eMobile telephony standards

0 MTS · MTA · MTB · MTC · IMTS · MTD · AMTS · OLT · Autoradiopuhelin G ( r a d i o t e l e

p h o n e s ) AMPS AMPS · TACS · ETACS family 1 G Other NMT · Hicap · Mobitex · DataTAC GSM/3GPP GSM · CSD family 3GPP2 family 2 G AMPS family Other CdmaOne (IS-95) D-AMPS (IS-54 and IS-136) CDPD · iDEN · PDC · PHS

2 GSM/3GPP HSCSD · GPRS · EDGE/EGPRS G family t 3GPP2 r family a n Other s i t i o n a l ( 2 . 5 G , CDMA2000 1xRTT (IS-2000) WiDEN

2 . 7 5 G ) 3 3GPP UMTS (UTRAN) · WCDMA-FDD · WCDMA-TDD · UTRA-TDD LCR (TD-SCDMA) G family ( 3GPP2 CDMA2000 1xEV-DO (IS-856) I family M T 2 0 0 0 ) 3 3GPP HSPA · HSPA+ · LTE (E-UTRA) G family t 3GPP2 EV-DO Rev. A · EV-DO Rev. B r family a n Other Mobile WiMAX (IEEE 802.16e-2005) · Flash-OFDM · IEEE 802.20 s i t i o n a l ( 3 . 5 G , 3 . 7 5

G , 3 . 9 G ) 4 3GPP LTE Advanced G family ( WiMAX IEEE 802.16m I family M T A d v a n c e d ) 5 unconfirme unconfirmed G d R e l a t e d History · Cellular network theory · List of standards · Comparison of standards · Channel access methods · Spectral efficiency comparison table · Cellular frequencies · GSM frequency bands · a UMTS frequency bands · Mobile broadband r t i c l e s [hide]

v·d·e Internet access Wired Network type Optical Coaxial Twisted cable pair Unlicense d terrestrial bands G.hn · Wi-Fi · HomePlu Bluetooth · HomePN Ethernet g DECT · A · G.hn Powerline Wireless Alliance USB Phone line Power line Wireless Licensed terrestrial bands Satellite

LAN

Etherne G.hn t

GPRS · iBurst · WiBro/WiMAX Muni Wi· UMTS-TDD, Satellite Fi HSPA · EVDO · LTE Retrieved from "http://en.wikipedia.org/wiki/High_Speed_Packet_Access" Categories: High-Speed Packet Access Hidden categories: All articles with unsourced statements | Articles with unsourced statements from August 2010 | Articles with unsourced statements from January 2011 PON · Dial-up · DOCSI WAN Etherne Ethernet ISDN · BPL S t DSL
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