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HSPA - High Speed Packet Access
HSPA - High Speed Packet Access
Published: 2016/09/19
Channel: Alyanna Louise Galvan
HSDPA Tutorial Overview Part-1
HSDPA Tutorial Overview Part-1
Published: 2015/05/22
Channel: Anand Technical Support
3.5G-HSDPA-HSUPA
3.5G-HSDPA-HSUPA
Published: 2015/11/14
Channel: Antony Chahine
HSPA (High Speed Packet Access)คืออะไร
HSPA (High Speed Packet Access)คืออะไร
Published: 2011/07/29
Channel: Pattrin Koedaudom
High-Speed Downlink Packet Access
High-Speed Downlink Packet Access
Published: 2014/09/02
Channel: Audiopedia
High Speed Packet Access
High Speed Packet Access
Published: 2014/10/14
Channel: Audiopedia
HSDPA Throughput Optimization In High Speed Downlink Packet Access
HSDPA Throughput Optimization In High Speed Downlink Packet Access
Published: 2012/11/20
Channel: Renown Technologies
WCDMA+
WCDMA+
Published: 2013/02/21
Channel: Qualcomm
'Stay Awake' Dropping Mobile Network Signal - Changes from High Speed Packet access (H) to Edge (E)
Published: 2014/09/26
Channel: troubleshooterrors
TK 2C HSDPA HIGH SPEED DOWNLINK PACKET ACCESS part 1
TK 2C HSDPA HIGH SPEED DOWNLINK PACKET ACCESS part 1
Published: 2013/01/10
Channel: cintia elind
Throughput Optimization in High Speed Downlink Packet Access - 2011
Throughput Optimization in High Speed Downlink Packet Access - 2011
Published: 2012/02/17
Channel: MTech Projects
HSPA: How does it work?
HSPA: How does it work?
Published: 2008/07/04
Channel: EricssonTechnology
TBMP   HSDPA Throughput Optimization In High Speed Downlink Packet Access   YouTube
TBMP HSDPA Throughput Optimization In High Speed Downlink Packet Access YouTube
Published: 2012/08/25
Channel: RISHIKESH VISPUTE
What is 4G - LTE, WiMAX, HSPA+, HSDPA & 3G Explained
What is 4G - LTE, WiMAX, HSPA+, HSDPA & 3G Explained
Published: 2013/01/13
Channel: WiredMash
The Strong HSPA+ Carrier Aggregation Evolution
The Strong HSPA+ Carrier Aggregation Evolution
Published: 2014/03/05
Channel: Qualcomm
Comparing HSPA, HSPA+, and LTE
Comparing HSPA, HSPA+, and LTE
Published: 2011/02/17
Channel: Converge! Network Digest
5 HSPA
5 HSPA
Published: 2016/07/03
Channel: eLearning By Experts
HSPA How does it work_
HSPA How does it work_
Published: 2013/05/27
Channel: smartestsol
Jai On HSPA
Jai On HSPA
Published: 2008/04/14
Channel: gsmap
TK 2C HSDPA HIGH SPEED DOWNLINK PACKET ACCESS part 2
TK 2C HSDPA HIGH SPEED DOWNLINK PACKET ACCESS part 2
Published: 2013/01/10
Channel: cintia elind
Multi-carrier HSPA demonstration
Multi-carrier HSPA demonstration
Published: 2008/03/19
Channel: QualcommDave
HSPA Fundamentals (E-Learning Demo)
HSPA Fundamentals (E-Learning Demo)
Published: 2012/11/19
Channel: MobileComm Professionals, Inc
HSDPA Tutorial End to End Call Flow Part-6
HSDPA Tutorial End to End Call Flow Part-6
Published: 2015/05/22
Channel: Anand Technical Support
Throughput Optimization in High Speed Downlink Packet Access HSDPA
Throughput Optimization in High Speed Downlink Packet Access HSDPA
Published: 2014/09/19
Channel: Chennai Sunday
HSDPA Tutorial Artitecture Part-2
HSDPA Tutorial Artitecture Part-2
Published: 2015/05/22
Channel: Anand Technical Support
HSpa
HSpa
Published: 2015/05/10
Channel: SULTAN ALSAHFI
HSUPA Meaning
HSUPA Meaning
Published: 2015/04/22
Channel: SDictionary
Webinar: What is Next for HSPA+?
Webinar: What is Next for HSPA+?
Published: 2013/02/25
Channel: Qualcomm
What Is The Meaning Of Hsdpa?
What Is The Meaning Of Hsdpa?
Published: 2017/08/13
Channel: Omega Omega
HSDPA Tutorial Channel Part-3
HSDPA Tutorial Channel Part-3
Published: 2015/05/22
Channel: Anand Technical Support
What Is Meant By HSPA?
What Is Meant By HSPA?
Published: 2017/08/13
Channel: Omega Omega
HSPA  demo
HSPA demo
Published: 2009/07/05
Channel: redmonkey1004
Which Is Faster 3G Or Hsdpa?
Which Is Faster 3G Or Hsdpa?
Published: 2017/08/13
Channel: Omega Omega
UNBOXING Modem ZTE MF710 Speed 21.6Mbps HSDPA+ (UNLOCK ALL GSM)
UNBOXING Modem ZTE MF710 Speed 21.6Mbps HSDPA+ (UNLOCK ALL GSM)
Published: 2017/08/21
Channel: Gadogado IT
Full Form Of HSDPA
Full Form Of HSDPA
Published: 2016/08/10
Channel: Genius Today
How to speed your Internet on Android phone 100 real (Speed)
How to speed your Internet on Android phone 100 real (Speed)
Published: 2017/04/08
Channel: Android Hero 24
What Is HSPA Technology?
What Is HSPA Technology?
Published: 2017/08/13
Channel: Omega Omega
Throughput Optimization in High Speed Downlink Packet Access HSDPA
Throughput Optimization in High Speed Downlink Packet Access HSDPA
Published: 2015/02/18
Channel: redpel.com
Вебинар 345G №3: ​ ​Технология HSDPA
Вебинар 345G №3: ​ ​Технология HSDPA
Published: 2015/07/24
Channel: Онлайн-школа и соревнования Huawei Honor Cup
3G+
3G+
Published: 2009/11/12
Channel: DigicelBermuda
EMOBILE HSPA+ 21Mbps Speed Demo
EMOBILE HSPA+ 21Mbps Speed Demo
Published: 2009/06/18
Channel: Masaru Kamikura
What Is HSPA+ In 3G?
What Is HSPA+ In 3G?
Published: 2017/08/13
Channel: Omega Omega
LTE vs HSPA+
LTE vs HSPA+
Published: 2013/08/14
Channel: jomalova
What Is DC HSPA+?
What Is DC HSPA+?
Published: 2017/08/12
Channel: Omega Omega
Konfiguracja połączenia Dial-UP GPRS EDGE UMTS HSDPA HSPA bez-kabli.pl
Konfiguracja połączenia Dial-UP GPRS EDGE UMTS HSDPA HSPA bez-kabli.pl
Published: 2009/03/05
Channel: Michał
What Is The HSPA Network?
What Is The HSPA Network?
Published: 2017/08/13
Channel: Omega Omega
Vodafone Mobile HotSpot mit LTE (4G) und HSPA+ / HSDPA (3G) - Samsung GT-B 3800
Vodafone Mobile HotSpot mit LTE (4G) und HSPA+ / HSDPA (3G) - Samsung GT-B 3800
Published: 2011/09/03
Channel: Tarife-Aktionen-De-LTE
What Is The Meaning Of HSPA+?
What Is The Meaning Of HSPA+?
Published: 2017/08/13
Channel: Omega Omega
What Is HSPA Technology?
What Is HSPA Technology?
Published: 2017/08/12
Channel: Meissa Meissa
HSPA Tweaker to Stable Speed of 3G and 4G Mobile Internet in Android
HSPA Tweaker to Stable Speed of 3G and 4G Mobile Internet in Android
Published: 2017/04/06
Channel: Anmol Tech
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WIKIPEDIA ARTICLE

From Wikipedia, the free encyclopedia
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HSPA+ indicator shown in notification shade on an Android smartphone running version 6.0.1 (Marshmallow).

High Speed Packet Access (HSPA)[1] is an amalgamation of two mobile protocols, High Speed Downlink Packet Access (HSDPA) and High Speed Uplink Packet Access (HSUPA), that extends and improves the performance of existing 3G mobile telecommunication networks using the WCDMA protocols. A further improved 3GPP standard, Evolved High Speed Packet Access (also known as HSPA+), was released late in 2008 with subsequent worldwide adoption beginning in 2010. The newer standard allows bit-rates to reach as high as 337 Mbit/s in the downlink and 34 Mbit/s in the uplink. However, these speeds are rarely achieved in practice.[2]

Overview[edit]

The first HSPA specifications supported increased peak data rates of up to 14 Mbit/s in the downlink and 5.76 Mbit/s in the uplink. It also reduced latency and provided up to five times more system capacity in the downlink and up to twice as much system capacity in the uplink compared with original WCDMA protocol.

High Speed Downlink Packet Access (HSDPA)[edit]

High Speed Downlink Packet Access (HSDPA) is an enhanced 3G (third-generation) mobile communications protocol in the High-Speed Packet Access (HSPA) family, also dubbed 3.5G, 3G+, or Turbo 3G, which allows networks based on Universal Mobile Telecommunications System (UMTS) to have higher data speeds and capacity. HSDPA has been introduced with 3GPP Release 5, which also accompanies an improvement on the uplink providing a new bearer of 384 kbit/s. The previous maximum bearer was 128 kbit/s. As well as improving data rates, HSDPA also decreases latency and so the round trip time for applications. HSPA+ introduced in 3GPP Release 7 further increases data rates by adding 64QAM modulation, MIMO and Dual-Cell HSDPA operation, i.e. two 5 MHz carriers are used simultaneously. Even higher speeds of up to 337.5 Mbit/s are possible with Release 11 of the 3GPP standards.[3]

The first phase of HSDPA has been specified in the 3GPP release 5. Phase one introduces new basic functions and is aimed to achieve peak data rates of 14.0 Mbit/s with significantly reduced latency. The improvement in speed and latency 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). Further new features are the High Speed Downlink Shared Channels (HS-DSCH), the adaptive modulation QPSK and 16QAM and the High Speed Medium Access protocol (MAC-hs) in base station.

The upgrade to HSDPA is often just a software update for WCDMA networks. In general voice calls are usually prioritized over data transfer.

User Equipment (UE) categories[edit]

The following table is derived from table 5.1a of the release 11 of 3GPP TS 25.306[4] and shows maximum data rates of different device classes and by what combination of features they are achieved. The per-cell per-stream data rate is limited by the Maximum number of bits of an HS-DSCH transport block received within an HS-DSCH TTI and the Minimum inter-TTI interval. The TTI is 2 ms. So for example Cat 10 can decode 27952 bits/2 ms = 13.976 MBit/s (and not 14.4 MBit/s as often claimed incorrectly). Categories 1-4 and 11 have inter-TTI intervals of 2 or 3, which reduces the maximum data rate by that factor. Dual-Cell and MIMO 2x2 each multiply the maximum data rate by 2, because multiple independent transport blocks are transmitted over different carriers or spatial streams, respectively. The data rates given in the table are rounded to one decimal point.

Further UE categories were defined from 3GGP Release 7 onwards as Evolved HSPA (HSPA+) and are listed in Evolved HSDPA UE Categories.

Notes:
  1. ^ 16-QAM implies QPSK support, 64-QAM implies 16-QAM and QPSK support.
  2. ^ The maximal code rate is not limited. A value close to 1 in this column indicates that the maximum data rate can be achieved only in ideal conditions. The device is therefore connected directly to the transmitter to demonstrate these data rates.
  3. ^ The maximum data rates given in the table are physical layer data rates. Application layer data rate is approximately 85% of that, due to the inclusion of IP headers (overhead information) etc.

Adoption[edit]

GPRS-speed in a HSDPA plan

As of 28 August 2009, 250 HSDPA networks have commercially launched mobile broadband services in 109 countries. 169 HSDPA networks support 3.6 Mbit/s peak downlink data throughput. A growing number are delivering 21 Mbit/s peak data downlink and 28 Mbit/s.

CDMA2000-EVDO networks had the early lead on performance, and Japanese providers were highly successful benchmarks for it. But lately this seems to be changing in favour of HSDPA as an increasing number of providers worldwide are adopting it.

During 2007, an increasing number of telcos worldwide began selling HSDPA USB modems to provide mobile broadband connections. In addition, the popularity of HSDPA landline replacement boxes grew—providing HSDPA for data via Ethernet and WiFi, and ports for connecting traditional landline telephones. Some are marketed with connection speeds of "up to 7.2 Mbit/s",[5] which is only attained under ideal conditions. As a result, these services can be slower than expected, when in fringe coverage indoors.

High Speed Uplink Packet Access (HSUPA)[edit]

High-Speed Uplink Packet Access (HSUPA) is a 3G mobile telephony protocol in the HSPA family. This technology was the second major step in the UMTS evolution process. It was specified and standardized in 3GPP Release 6 to improve the uplink data rate to 5.76 Mbit/s, extending the capacity, and reducing latency. Together with additional improvements which are detailed below this creates opportunities for a number of new applications including VoIP, uploading pictures and sending large e-mail messages.

In the meanwhile HSUPA has been superseded by newer technologies further advancing transfer rates. LTE provides up to 300 Mbit/s for downlink and 75 Mbit/s for uplink. Its evolution LTE Advanced supports maximum downlink rates of over 1 Gbit/s.

Technology[edit]

Enhanced Uplink adds a new transport channel to WCDMA, called the Enhanced Dedicated Channel (E-DCH). Further it features several improvements similar to those of HSDPA, including multi-code transmission, shorter Transmission Time Interval (TTI) enabling faster link adaptation, fast scheduling and fast Hybrid Automatic Repeat Request (HARQ) with incremental redundancy making retransmissions more effective. Similarly to HSDPA, HSUPA uses a packet scheduler, but it operates on a request-grant principle where the UEs request a permission to send data and the scheduler decides when and how many UEs will be allowed to do so. A request for transmission contains data about the state of the transmission buffer and the queue at the UE and its available power margin. However, unlike HSDPA, uplink transmissions are not orthogonal to each other.

In addition to this scheduled mode of transmission the standards also allows a self-initiated transmission mode from the UEs, denoted non-scheduled. The non-scheduled mode can, for example, be used for VoIP services for which even the reduced TTI and the Node B based scheduler will not be able to provide the very short delay time and constant bandwidth required.

Each MAC-d flow (i.e. QoS flow) is configured to use either scheduled or non-scheduled modes; the UE adjusts the data rate for scheduled and non-scheduled flows independently. The maximum data rate of each non-scheduled flow is configured at call setup, and typically not changed frequently. The power used by the scheduled flows is controlled dynamically by the Node B through absolute grant (consisting of an actual value) and relative grant (consisting of a single up/down bit) messages.

At the Physical Layer, HSUPA introduces new channels E-AGCH (Absolute Grant Channel), E-RGCH (Relative Grant Channel), F-DPCH (Fractional-DPCH), E-HICH (E-DCH Hybrid ARQ Indicator Channel), E-DPCCH (E-DCH Dedicated Physical Control Channel) and E-DPDCH (E-DCH Dedicated Physical Data Channel).

E-DPDCH is used to carry the E-DCH Transport Channel; and E-DPCCH is used to carry the control information associated with the E-DCH.

User Equipment (UE) Categories[edit]

The following table shows uplink speeds for the different categories of HSUPA.

Further UE categories were defined from 3GGP Release 7 onwards as Evolved HSPA (HSPA+) and are listed in Evolved HSUPA UE Categories.

Evolved High Speed Packet Access (HSPA+)[edit]

Evolved HSPA (also known as HSPA Evolution, HSPA+) is a wireless broadband standard defined in 3GPP release 7 of the WCDMA specification. It provides extensions to the existing HSPA definitions and is therefore backward-compatible all the way to the original Release 99 WCDMA network releases. Evolved HSPA provides data rates up to 42.2 Mbit/s in the downlink and 22 Mbit/s in the uplink (per 5 MHz carrier) with multiple input, multiple output (2x2 MIMO) technologies and higher order modulation (64 QAM). With Dual Cell technology, these can be doubled.

Since 2011, HSPA+ has been very widely deployed amongst WCDMA operators with nearly 200 commitments.[6]

See also[edit]

References[edit]

Bibliography[edit]

  • Sauter, Martin (2006). Communication Systems for the Mobile Information Society. Chichester: John Wiley. ISBN 0-470-02676-6. 
  • Harri Holma and Antti Toskala (2006). HSDPA/HSUPA for UMTS: High Speed Radio Access for Mobile Communications. ISBN 0-470-01884-4. 
  • Stuhlfauth, Reiner (2012). High Speed Packet Access: Technology and measurement aspects of HSDPA and HSUPA mobile radio systems. Munich. ISBN 978-3-939837-14-5. 

External links[edit]

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