Low cost smart antennas for mesh networks: Difference between revisions

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== Team members ==
== Team members ==
Albert Lysko
* Albert Lysko
* To be allocated


Notes:
Notes:
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The capacity of a mesh network can be improved substantially if smart antennas are employed. The smartness of such antennas comes from the intelligent algorithms controlling antenna. The intelligence may include using the ability to steer the beam in order to enhance the node discovery and node self-healing. Beamforming and beam-switching antennas which are '''integrated''' with routing protocols is a new areas of research.
The capacity of a mesh network can be improved substantially if smart antennas are employed. The smartness of such antennas comes from the intelligent algorithms controlling antenna. The intelligence may include using the ability to steer the beam in order to enhance the node discovery and node self-healing. Beamforming and beam-switching antennas which are '''integrated''' with routing protocols is a new areas of research.


== Directions ==
== Replacement for Omnidirectional Antenna ==
1. Basic control and monitoring tools.
The purpose of such antenna is to replace a traditional omnidirectional antenna and provide an intermediate solution to collision avoidance, and hidden and exposed terminal problems.
2. Control of radiation pattern via a separate interface by-passing MAC TCP etc.
3. More intellegent integration with MAC layer.
4. Ability to do direction-of-arrieval (DOA) finding.
5. Further integration with MAC layer.


The topics 3 and 5 are the most complex.
This antenna would have a low to intermediate gain due to practical difficulties to obtain both 360 degrees beam steering and high gain at the same time.
 
== Antenna Capable of Long-distance Links ==
This antenna is to replace the high-gain traditional reflector antennas. The smartness of this antenna is in:
a. Its ability to identify direction-of-arrieval of the signal (for the set-up purposes),
b. Keeping track of a remote node in real time to compensate for wind/temperature,
c. Adapting the beamwidth and transmitter power level (in addition to b.)

Latest revision as of 15:58, 6 August 2008

Team members

  • Albert Lysko
  • To be allocated

Notes: Collaboration with Hungarian researchers (USZ) is on the way.

Abstract

Smart antenna is an antenna that is capable of adapting its properties to satisfy particular goal(s). The goals may for example include radiation pattern shaping (beamforming/beamswitching). The beamforming provides spatial (directional) selectivity and permits to enhance gain in a desired direction and also to lower the influence of a source of interference.

The capacity of a mesh network can be improved substantially if smart antennas are employed. The smartness of such antennas comes from the intelligent algorithms controlling antenna. The intelligence may include using the ability to steer the beam in order to enhance the node discovery and node self-healing. Beamforming and beam-switching antennas which are integrated with routing protocols is a new areas of research.

Replacement for Omnidirectional Antenna

The purpose of such antenna is to replace a traditional omnidirectional antenna and provide an intermediate solution to collision avoidance, and hidden and exposed terminal problems.

This antenna would have a low to intermediate gain due to practical difficulties to obtain both 360 degrees beam steering and high gain at the same time.

Antenna Capable of Long-distance Links

This antenna is to replace the high-gain traditional reflector antennas. The smartness of this antenna is in:

a. Its ability to identify direction-of-arrieval of the signal (for the set-up purposes), b. Keeping track of a remote node in real time to compensate for wind/temperature, c. Adapting the beamwidth and transmitter power level (in addition to b.)