3G MIMO explained

3G MIMO describes MIMO techniques which have been considered as 3G standard techniques. MIMO, as the state of the art of intelligent antenna (IA), improves the performance of radio systems by embedding electronics intelligence into the spatial processing unit. Spatial processing includes spatial precoding at the transmitter and spatial postcoding at the receiver, which are dual each other from information signal processing theoretic point of view. Intelligent antenna is technology which represents smart antenna, multiple antenna (MIMO), self-tracking directional antenna, cooperative virtual antenna and so on.

Technology

Spatial precoding of intelligent antenna includes spatial beamforming and spatial coding. In wireless communications, spatial precoding has been developing for high reliability, high rate and lower interference as shown in the following table.

Summary of 3G MIMO

The table summarizes the history of 3G MIMO techniques candidated for 3G standards. Although the table additionally contains the future part but the contents are not clearly filled out since the future is not precisely predictable.

Generation 3G 3G evolution Beyond 3G Future
Deployment 2003/4 2005~6/2007~8/2009~10 2012~2015 2015~2020
Standard WCDMA HSPA/HSPA+/LTE IMT-Advanced Beyond IMT-Adv
Total rate 384kbit/s 14/42/65~250Mbit/s 1Gbit/s >10Gbit/s
Bandwidth 5 MHz 5 MHz/20 MHz 20~100 MHz >100 MHz
Requirement ParadigmHigh reliability (High quality)High rate (High capacity)Lower interferenceHigh intelligence
MethodSpatial diversitySpatial multiplexingSpatial cancellationAmbient intelligence
Spatial coding (SC)Spatial diversity codingSpatial multiplexing codingSpatial cancellation codingAmbient intelligence coding
Spatial beamforming (SB)Single-stream beamformingMulti-stream beamformingInterference nulling beamformingAmbient intelligence beamforming
ExamplesSC: Alamouti coding, SB: TxAASC: BLAST coding, SB: SVD SC: DPC, SB: MU-BFSuch as cooperative MIMO

IA in ad hoc networking

See main article: Wireless ad hoc network. IA technology enables client terminals, which have either multiple antennas or a self-tracking directional antenna, to communicate to each other with as high as possible signal-to-interference-and-noise ratio (SINR). Assume that there is a source terminal, a destination terminal, and some candidate interference terminals. Compared to conventional approaches, an advanced IA based terminal will perform spatial precoding (spatial beamforming and/or spatial coding) not only to enhance the signal power at the destination terminal but also to diminish the interfering power at interference terminals. As a human does, the advanced IA terminal is given to know that occurring high interference to other terminals will eventually degrade the performance of the associated wireless network.

Principal Issues of Research

The following items list the issues of the multiple antenna research aims to improve the performance of radio communications.

Principal Definitions

Definitions

Here are the definition of principal keywords to clarify the objective and the operations of intelligent antenna.

TerminologyDefinition
Intelligent antennaAntenna technology that uses some sort of electronic intelligence to enhance wireless system performance. Electronic intelligence is implemented by spatial pre/post-coding techniques such as spatial information coding and spatial signal beamforming. Smart antenna has been more widely used to represent the similar meaning.
Smart antennaIn the narrow sense, antenna technology that employs array antennas with beamforming techniques to enhance wireless system performance. In the wide sense, equivalent terminology to intelligent antenna.
Wide sense and well-known: MIMO is the state of the art of IA and SA.
  • Narrow sense: Antenna systems that employ multiple antennas at both the transmitter and the receiver.

Reference Web Sites

The following items list the web sites related to the multiple antenna research.

TypesAntenna configurationBasic solution Advanced solution
Diversity d > wavelengthRx: MRC, MMSE, etc., Tx: STTD, CLTDBLAST (spatial multiplexing)
Phased Arrayd < wavelengthSwitched beamsSteered beams

See also

References

External links

Notes and References

  1. Web site: MARS@Lucent Multiple Antenna Research and Solutions . https://web.archive.org/web/20071001030428/http://mars.bell-labs.com/ . 1 October 2007.
  2. Web site: Polakos . Paul . Intelligent Antennas and Blast for cdma2000 Networks . 1 October 2002.
  3. Web site: Multiple antennas research . imec.be . 29 June 2021 . https://web.archive.org/web/20071004235801/http://www.imec.be/wireless/mimo/ . 4 October 2007.
  4. Web site: Li . Kuo-Hui . What is a smart antenna? . 29 June 2021 . https://web.archive.org/web/20070627033614/http://users.ece.gatech.edu/~mai/tutorial_sa_def.htm . 27 June 2007.
  5. https://web.archive.org/web/20070928011627/http://www.iec.org/online/tutorials/smart_ant/index.html, https://web.archive.org/web/20070928011846/http://www.iec.org/online/tutorials/acrobat/smart_ant.pdf
  6. Web site: What is MIMO (Multiple input, multiple output)?.
  7. Web site: Smart Antennas Research Group . Stanford University . 2007-10-03 . 2013-10-20 . https://web.archive.org/web/20131020074439/http://www.stanford.edu/group/sarg/ . dead .
  8. http://www.cdg.org/technology/cdma_technology/smart_antennas/index.asp, http://www.cdmatech.com/products/how_mimo_works.jsp
  9. Web site: MIMO Technology: Overview . Nortel . 12 January 2022 . https://web.archive.org/web/20070526153007/http://www2.nortel.com/go/solution_content.jsp?segId=0&catId=0&parId=0&prod_id=61701 . 26 May 2007 . dead.
  10. https://web.archive.org/web/20070928045359/http://www.visantstrategies.com/market_research/mimo_intelligent_antenna.html, http://www.researchandmarkets.com/reports/c21454
  11. Web site: Satellite tracking units for antenna diversity and self-steering antennas . Magnetic Sciences . 12 January 2022 . https://web.archive.org/web/20071014181902/http://www.magneticsciences.com/SatelliteTrackingUnits.html . 14 October 2007 . dead.