초록 ▼

Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restrict

Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions. Various other aspects are also presented.

대표청구항 ▼

1. An apparatus comprising: a receiver configured to receive a signal on a shared channel comprising at least a primary channel and a secondary channel;an energy calculator configured to calculate an energy measurement of a plurality of tones of the primary channel and an energy measurement of a plu

1. An apparatus comprising: a receiver configured to receive a signal on a shared channel comprising at least a primary channel and a secondary channel;an energy calculator configured to calculate an energy measurement of a plurality of tones of the primary channel and an energy measurement of a plurality of tones of the secondary channel and to compute an energy difference between the energy measurement of the primary channel and the energy measurement of the secondary channel, wherein calculating the energy measurement of the plurality of tones of the primary channel comprises aggregating the energy of the plurality of tones of the primary channel and wherein calculating the energy measurement of the plurality of tones of the secondary channel comprises aggregating the energy of the plurality of tones of the secondary channel; anda processor configured to detect interference in response to the energy measurement of the primary channel and the energy measurement of the secondary channel, wherein detecting interference comprises determining interference in a second mode, in which transmission is expected on the primary channel and the secondary channel, when the computed energy difference is above an energy difference threshold. 2. The apparatus of claim 1, further comprising an FFT with an input and an output, the input configured to receive the received signal, and the output coupled to the energy calculator. 3. The apparatus of claim 1, further comprising a message encoder for generating an interference report message in response to detected interference. 4. An apparatus, operable with a shared channel comprising at least a primary channel and a secondary channel, comprising: means for measuring energy of a plurality of tones of the primary channel, wherein measuring the energy of the plurality of tones of the primary channel comprises aggregating the energy of the plurality of tones of the primary channel;means for measuring energy of a plurality of tones of the secondary channel, wherein measuring the energy of the plurality of tones of the secondary channel comprises aggregating the energy of the plurality of tones of the secondary channel;means for computing an energy difference between the measured energy of the primary channel and the measured energy of the secondary channel; andmeans for determining interference in accordance with the measured energy of the primary channel and the measured energy of the secondary channel, wherein the means for determining interference comprises means for determining interference in a second mode, in which transmission is expected on the primary channel and the secondary channel, when the computed energy difference is above an energy difference threshold. 5. In a Carrier Sense Multiple Access/Collision Avoidance system, supporting transmission on a shared channel comprising at least a primary channel and a secondary channel, a method comprising: measuring energy of a plurality of tones of the primary channel, wherein measuring the energy of the plurality of tones of the primary channel comprises aggregating the energy of the plurality of tones of the primary channel;measuring energy of a plurality of tones of the secondary channel, wherein measuring the energy of the plurality of tones of the secondary channel comprises aggregating the energy of the plurality of tones of the secondary channel;computing an energy difference between the measured energy of the primary channel and the measured energy of the secondary channel; anddetermining interference in accordance with the measured energy of the primary channel and the measured energy of the secondary channel, wherein determining interference comprises determining interference in a second mode, in which transmission is expected on the primary channel and the secondary channel, when the computed energy difference is above an energy difference threshold. 6. The method of claim 5, further comprising: performing a Fast Fourier Transform (FFT) of the shared channel to produce a plurality of energy measurements for a corresponding plurality of tones; and wherein:the energy of the primary channel is measured in accordance with a first subset of the plurality of energy measurements; andthe energy of the secondary channel is measured in accordance with a second subset of the plurality of energy measurements. 7. The method of claim 5, wherein determining interference comprises determining interference in a first mode, in which transmission is expected on the primary channel only, when the measured energy of the secondary channel is above a secondary channel energy threshold. 8. The method of claim 5, wherein determining interference comprises determining interference in a third mode, in which no transmission is expected on the primary channel or secondary channel, when either the measured energy of the primary channel or the measured energy of the secondary channel is above an idle channel energy threshold. 9. The method of claim 5, further comprising incrementing an interference counter value when interference is determined. 10. The method of claim 5, further comprising generating an interference report message in accordance with determined interference. 11. The method of claim 5, further comprising modifying a channel parameter when determined interference meets predefined criteria. 12. The method of claim 11, wherein modifying a channel parameter comprises reducing the bandwidth of the channel to the bandwidth of the primary channel. 13. The method of claim 11, wherein modifying a channel parameter comprises reducing the bandwidth of the channel to the bandwidth of the secondary channel. 14. The method of claim 11, wherein modifying a channel parameter comprises changing a frequency carrier of the channel.