- Evolution-Data Optimized
Evolution-Data Optimized or Evolution-Data only, abbreviated as EV-DO or EVDO and often EV, is a
telecommunications standard for the wirelesstransmission of data through radiosignals, typically for broadband Internet access. It uses multiplexingtechniques including Code division multiple access(CDMA) as well as Time division multiple access(TDMA) to maximize both individual user's throughput and the overall system throughput. It is standardized by 3rd Generation Partnership Project 2(3GPP2) as part of the CDMA2000family of standards and has been adopted by many mobile phoneservice providers around the world – particularly those previously employing CDMA networks. It is also used on the Globalstar satellite phonenetwork. [ [http://www.engadgetmobile.com/2006/11/09/globalstar-gsp-1700-satphone-also-loaded-with-ev-do/ Globalstar GSP 1700 satphone also loaded with EV-DO] ]
EV-DO was designed as an evolution of the
CDMA2000( IS-2000) standard that would support high data rates and could be deployed alongside a wireless carrier's voice services. An EV-DO channel has a bandwidth of 1.25 MHz, the same bandwidth size that IS-95A ( IS-95) and IS-2000 (1xRTT) use. cite web|url=http://www.cdg.org/technology/3g_1xEV-DO.asp |title=3G - CDMA2000 1xEV-DO Technologies |accessdate=2008-01-18 |publisher=CDMA development Group ] The channel structure, on the other hand, is very different. Additionally, the back-end network is entirely packet-based, and thus is not constrained by the restrictions typically present on a circuit switchednetwork.
The EV-DO feature of CDMA2000 networks provides access to mobile devices with
forward linkair interface speeds of up to 2.4 Mbit/s with Rev. 0 and up to 3.1 Mbit/s with Rev. A. The reverse linkrate for Rev. 0 can operate up to 153 kbit/s, while Rev. A can operate at up to 1.8 Mbit/s. It was designed to be operated end-to-end as an IP based network, and so it can support any application which can operate on such a network and bit rate constraints.
There have been several revisions of the standard, starting with Revision 0 (Rev. 0). This was later expanded upon with Revision A to support
QoS(to improve latency) and higher rates on the forward link and reverse link. Later in 2006 Revision B was published, that among other features includes the ability to bundle multiple carriers to achieve even higher rates and lower latencies (see TIA-856 Rev B below). The upgrade from EV-DO rev A to EV-DO rev B involves a software update to the cell site modem, and additional equipment for the new EV-DO carriers. Existing cdma2000 operators may also have to retune some of their existing 1xRTT channels to other frequencies, since Rev B requires all DO carriers be within 5 MHz.
TIA-856 Rev 0
The initial design of EV-DO was developed by
Qualcommin 1999 to meet IMT-2000requirements for a greater-than-2-Mbit/s down link for stationary communications, as opposed to mobile communication such as a moving cellular phone. Initially, the standard was called High Data Rate (HDR), but was renamed to 1xEV-DO after it was ratified by the International Telecommunication Union(ITU); it was given the numerical designation TIA-856. Originally, 1xEV-DO stood for "1x Evolution-Data Only", referring to its being a direct evolution of the 1x (1xRTT) air interface standard, with its channels carrying only data traffic. The title of the 1xEV-DO standard document is "cdma2000 High Rate Packet Data Air Interface Specification", as cdma2000 (lowercase) is another name for the 1x standard, numerically designated as TIA-2000.
Later, likely due to the possible negative connotations of the word "only", the "DO" part of the standard's name 1xEV-DO was changed to stand for "Data Optimized". So EV-DO now stands for "Evolution-Data Optimized", the 1x prefix has been dropped by the many major carriers, and is marketed simply as EV-DO.cite web |url=http://www.qualcomm.com/technology/1xev-do.html |title=CDMA2000 1xEV-DO |publisher=QUALCOMM Technology and Solutions |archivedate=2007-09-24 |archiveurl=http://web.archive.org/web/20061104082805/http://www.qualcomm.com/technology/1xev-do.html] This provides a more marketing-friendly emphasis that the technology was optimized for data transfers.
TIA-856 Rev 0 forward link channel structure
The primary characteristic that differentiates an EV-DO channel from a 1xRTT channel is that it is on the forward link (from the tower to the mobile). This means that a single mobile has full use of the forward traffic channel within a particular geographic area (a sector) during a given slot of time. Using this technique, EV-DO is able to modulate each user’s time slot independently. This allows the service of users that are in favorable RF conditions with very complex
modulationtechniques while also serving users in poor RF conditions with simpler and more redundant signals. Citation| first=Qi | last=Bi| coauthors=S. Vitebsky, | contribution=Performance analysis of 3G-1X EV-DO high data rate system| title=IEEE Wireless Communications and Networking Conference| publisher=IEEE| pages=389–395| date=17-21 March, 2002| year=2002 ]
The forward channel is divided into slots, each being 1.667 ms long. In addition to user traffic, overhead channels are interlaced into the stream. These include the Pilot which helps the mobile find and identify the channel, the Media Access Channel (MAC) which tells the mobiles when their data is scheduled, and the Control Channel, which contains other information that the network needs the mobiles to know.
modulationto be used to communicate with a given mobile is determined by the mobile itself. It listens to the traffic on the channel, and depending on the receive signal strength along with the perceived multi-path and fading conditions, makes its best guess as to what data-rate it can sustain while maintaining a reasonable frame error rate of 1-2%. It then communicates this information back to the serving sector in the form of an integer between 1 and 12 on the "Digital Rate Control" (DRC) channel. Alternatively, the mobile can select a "null" rate (DRC 0), indicating that the mobile either cannot decode data at any rate, or that it is attempting to hand off to another serving sector.
The DRC values are as follows: cite web |url=http://www.cdg.org/resources/white_papers/files/Lucent%201xEV-DO%20Rev%20O%20Mar%2004.pdf |title=A Forward Link Performance Study of the 1xEV-DO Rev. 0 System Using Field Measurements and Simulations |accessdate=2008-01-18 |last=Bi |first=Qi |date=2004-03 |format=PDF |publisher=Lucent Technologies ]
Another important aspect of the EV-DO forward link channel is the scheduler. The scheduler most commonly used is called "
proportional fair". It's designed to maximize sector throughput while also guaranteeing each user a certain minimum level of service. The idea is to schedule mobiles reporting higher DRC indices more often, with the hope that those reporting worse conditions will improve in time.
The system also incorporates Incremental Redundancy Hybrid ARQ. Each sub-packet of a multi-slot transmission is a turbo-coded replica of the original data bits. This allows mobiles to acknowledge a packet before all of its sub-sections have been transmitted. For example, if a mobile transmits a DRC index of 3 and is scheduled to receive data, it will expect to get data during four time slots. If after decoding the first slot the mobile is able to determine the entire data packet, it can send an early acknowledgement back at that time; the remaining three sub-packets will be cancelled. If however the packet is not acknowledged, the network will proceed with the transmission of the remaining parts until all have been transmitted or the packet is acknowledged.
TIA-856 Rev 0 reverse link structure
The reverse link (from the mobile back to the
Base Transceiver Station) on EV-DO Rev. 0 operates very similar to that of 3G1X CDMA. The channel includes a reverse link pilot (helps with decoding the signal) along with the user data channels. Some additional channels that do not exist in 3G1X include the DRC channel (described above) and the ACK channel (used for HARQ). Missing from the reverse link is any sort of Power control, because the forward link is always transmitted at full power for use by all the mobiles.
All of the reverse link channels are combined using code division and transmitted back to the base station using
QPSKwhere they are decoded. The maximum speed available for user data is 153.2 kbit/s, but in real-life conditions this is rarely achieved. Typical speeds achieved are between 20-50 kbit/s.
TIA-856 Rev A
Revision A of EV-DO makes several additions to the protocol while keeping it completely backwards compatible with Revision 0.
These changes included the introduction of several new forward link data rates that increase the maximum burst rate from 2.45 Mbit/s to 3.1 Mbit/s. Also included were protocols that would decrease connection establishment time (called enhanced access channel MAC), the ability for more than one mobile to share the same timeslot (multi-user packets) and the introduction of QoS flags. All of these were put in place to allow for low latency, low bit rate communications such as VoIP. Citation| first=Thawatt | last=Gopal| contribution=EVDO Rev. A Control Channel Bandwidth Analysis for Paging| title=IEEE Wireless Communications and Networking Conference| publisher=IEEE| pages=3262–7| date=11-15 March 2007| year=2007| doi= 10.1109/WCNC.2007.601 ]
The additional forward rates for EV-DO Rev. A are: cite web|url=http://www.3gpp2.org/Public_html/specs/C.S0024-A_v2.0_050727.pdf |title=cdma2000 High Rate Packet Data Air Interface |accessdate=2008-01-18 |month=July | year=2005 |format=PDF |publisher=
In addition to the changes on the forward link, the reverse link was enhanced to support higher complexity
modulation(and thus higher bit rates). An optional secondary pilot was added, which is activated by the mobile when it tries to achieve enhanced data rates. To combat reverse link congestion and noise rise, the protocol calls for each mobile to be given an interference allowance which is replenished by the network when the reverse link conditions allow it. The reverse link has a maximum rate of 1.8 Mbit/s, but under normal conditions users experience a rate of approximately 500-700kbit/s.
TIA-856 Rev B
EV-DO Rev B is a multi-carrier evolution of the Rev A specification. It maintains the capabilities of EV-DO Rev A, and provides the following enhancements:
* Higher rates per carrier (up to 4.9 Mbit/s on the downlink per carrier). Typical deployments are expected to include 2 or 3 carriers for a peak rate of 14.7 Mbit/s
* Higher rates by bundling multiple channels together enhance the user experience and enables new services such as
high definition video streaming.
statistical multiplexingacross channels to further reduce latency, enhancing the experience for latency-sensitive services such as gaming, video telephony, remote console sessions and web browsing.
* Increased talk-time and standby time
* Hybrid frequency re-use which reduces the interference from the adjacent sectors and improves the rates that can be offered, especially to users at the edge of the cell.
* Efficient support for services that have asymmetric download and upload requirements (i.e. different data rates required in each direction) such as file transfers, web browsing, and broadband multimedia content delivery.
The evolution of CDMA2000 is termed Ultra Mobile Broadband (UMB).
Potential competing standards
Motorolaproposed a new system called 1Xtreme as an evolution of CDMA2000, but it was rejected by the 3GPP2 standardization body. Later, a competing standard called EV-DV developed by Qualcomm, Lucent, Nokia, Motorola, etc. in 3GPP2 was proposed as an alternate evolution of CDMA. EV-DV stands for Evolution-Data and Voice, since the channel structure was backwards compatible with IS-95 and IS-2000 (1xRTT), allowing an in-band network deployment. (EV-DO requires an overlay networkwhen deployed in mixed mode.)
At the time, there was much debate on the relative merits of DV and DO. Traditional operators with an existing voice network preferred deploying DV, since it does not require an overlay. Other design engineers, and newer operators without a 1x voice network, preferred EV-DO because it did not have to be backward compatible, and so could explore different pilot structures, reverse link silence periods, improved control channels, etc. And the network cost was lower, since EV-DO uses an
IP networkand does not require a SS7 network and complex network switches such as a mobile switching center (MSC). Also, equipment was not available for EV-DV in time to meet market demands whereas the EV-DO equipment and mobile application-specific integrated circuits (ASIC) were available and tested by the time the EV-DV standard was completed. As a result, the EV-DV standard was less attractive to operators, and has not been implemented. Verizon Wireless, then Sprint Nextelin 2004 and smaller operators in 2005 announced their plans to deploy EV-DO. In March 2005, Qualcomm suspended development of EV-DV chipsets, and focused on improving the EV-DO product line.
High-Speed Downlink Packet Accessor HSDPA
Evolved HSPAor HSPA+
List of device bandwidths
List of Evolution-Data Optimized service providers
Network equipment suppliers
The following companies are leading providers of EV-DO infrastructure equipment:
Alcatel-Lucentis the leading supplier for a majority of CDMA operators, including Verizon Wirelessand Sprint Nextel
Ericssonhas done several trials in China and has commercial deployment in South America.
Airvanain partnership with Nortel, provides EV-DO infrastructure to Verizon Wireless, Sprint Nextelin North America.
Motorolaprovides cellular infrastructure to Sprint, Verizon, and many other worldwide operators.
AirWalkhas deployed EV-DO Rev. A networks in US Tier 3 operators and in Middle East.
ZTEhas deployed CDMA EV-DO network successfully in Sudan and Morocco
References and footnotes
* [http://www.3gpp2.org 3GPP2.org] CDMA-2000 standards documents
* [http://www.cdg.org/ CDMA Development Group (CDG)]
* [http://www.evdoforums.com EVDOforums.com] EVDO Discussion Group
* [http://mfile.akamai.com/8499/wmv/qualcomm.download.akamai.com/8499/1xEV/1x_EVDO_Rev_B_Demo.asx A video demonstration of EVDO rev B capabilities]
* [http://www.comsoc.org/ci1/Public/2006/feb/current.html IEEE Communication Magazine issue on EVDO]
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