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Dynamic frequency selection

From Wikipedia, the free encyclopedia

Interference by 5 GHz Wi-Fi seen on Doppler weather radar

Dynamic Frequency Selection (DFS) is a channel allocation scheme specified for wireless LANs, commonly known as Wi-Fi. It is designed to prevent electromagnetic interference by avoiding co-channel operation with systems that predated Wi-Fi, such as military radar, satellite communication, and weather radar, and also to provide on aggregate a near-uniform loading of the spectrum (uniform spreading).[1] It was standardized in 2003 as part of IEEE 802.11h.

Radar detection mechanism

See also: List of WLAN channels

When starting operation, an access point automatically selects channels with low interference levels in a phase known as Channel Availability Check (CAC). During this phase, the access point is in a passive state scanning for radar signals. This commonly takes one to two minutes, but could take up to ten minutes. Thereafter, the access point performs In-Service Monitoring (ISM) to detect active radar signals; if radar is detected, and the access point is configured to automatically select a channel, it broadcasts a switch-channel event to its clients and follows by switching the channel.

The actual mechanism, durations, radar pulse pattern, power levels, and frequency bands on which DFS is enforced vary by jurisdiction. DFS is mandated for the 5470–5725 MHz U-NII band in United States by the FCC.[2] DFS is mandatory for the 5250–5350 and 5470–5725 MHz bands in India.[3]

Weather radar interference

Prior to the introduction of Wi-Fi, one of the biggest applications of the 5 GHz band was Terminal Doppler Weather Radar.[4][5] The decision to use 5 GHz spectrum for Wi-Fi was finalized in the World Radiocommunication Conference in 2003; however, the meteorological community was not involved in the process.[1][6] Implementation and configuration problems caused significant disruption in weather radar operations in countries around the world. In Hungary, the weather radar system was declared non-operational for more than a month. Due to the severity of interference, South African weather services ended up abandoning C band operation, switching their radar network to S band.[5][7]

Uniform spreading

Uniform spreading is a mechanism used to provide an aggregated uniform load across all allocated channels within the declared spectrum mask. There are several ways in which this can be achieved, either on-device or in a WLAN controller.

References

  1. ^ a b Touw, Ron (Nov 16, 2016). "Radar Detection and DFS on MikroTik" (PDF). Radar Detect and DFS on MikroTik. MikroTik. Retrieved 4 December 2019 – via YouTube. Decision ERC/DEC/(99)23 adds 5250-5350MHz and 5470-5725MHz with more Tx power but with the added caveat that DFS was required to protect legacy users (Military Radar and Satellite uplinks)
  2. ^ "5GHz Agreement". Ntia.doc.gov. 2003-01-31. Archived from the original on 2011-07-19. Retrieved 2012-08-29.
  3. ^ "G.S.R. 1048(E) dated 18th October 2018" (PDF). dot.gov.in. 2018-10-18. Retrieved 2022-01-05.
  4. ^ Spain, Chris (July 10, 2014). "Winning Back the Weather Radio Channels Adds Capacity to 5GHz Wi-Fi Spectrum". Cisco. Retrieved 4 December 2019. The FCC ruling is re-opening the Terminal Doppler Weather Radar (TDWR) band (channels 120, 124, 128) with new test requirements for DFS protection.
  5. ^ a b Saltikoff, Elena (2016). "The Threat to Weather Radars by Wireless Technology". Bulletin of the American Meteorological Society. 97 (7): 1159–1167. Bibcode:2016BAMS...97.1159S. doi:10.1175/BAMS-D-15-00048.1. ISSN 0003-0007. Since 2006, interference to C-band radars from RLAN is increasingly experienced by most OPERA members. ... The South African weather services initially tried to implement specific software filtering to improve the situation but then decided in 2011 to move its meteorological radar network to S band.
  6. ^ Tristant, Philippe (23–24 October 2017). "C-band meteorological radars - Threats related to RLAN 5 GHz" (PDF). EUMETNET. Retrieved 5 December 2019 – via itu.int.
  7. ^ Tristant, Philippe (16–18 September 2009). "RLAN 5 GHz interference to weather radars in Europe" (PDF). International Telecommunication Union. Retrieved 4 December 2019. More than 12 European countries experienced such interference cases (other cases have now been reported in number of countries in the world). Definitively harmful interference (in Hungary, the radar was declared as non-operational for more than 1 month)

External links

This page was last edited on 18 February 2024, at 05:29
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