Interference mitigation in wireless communication systems

The invention claimed is: 1. A method in a wireless communication assembly, comprising: in a memory, storing respective configuration parameter sets for each of a plurality of predefined spectral masks; the plurality of spectral masks including: a single channel spectral mask corresponding to a base channel bandwidth, the single channel spectral mask defining target power levels for each of (i) a base in-band bandwidth, (ii) a plurality of base transition bandwidths, and (iii) a base floor bandwidth; and a bonded channel spectral mask corresponding to a multiple of the base channel bandwidth, the bonded channel spectral mask defining target power levels for each of (i) a bonded in-band bandwidth equivalent to a sum of the base in-band bandwidth and the base channel bandwidth, (ii) a plurality of bonded transition bandwidths each equivalent to the multiple of the base transition bandwidths; and (iii) a bonded floor bandwidth equivalent to the multiple of the base floor bandwidth; at a radio controller, selecting a subset of a plurality of predefined channels each having the base channel bandwidth, for use in transmitting data to a recipient station; at the radio controller, retrieving a selected one of the configuration parameter sets based on a number of adjacent channels in the subset; applying the selected configuration parameter set to the data prior to transmitting the data to the recipient station over the subset of predefined channels; at the radio controller, identifying a set of client devices and assessing the capabilities of each receiving device in the set to determine whether the set of client devices includes a combination of non-legacy client devices and legacy client devices; and at the radio controller, when the set of client devices includes a combination of non-legacy client devices and legacy client devices, selecting a subset of at least two channels from the predefined channels; wherein the transmitting comprises encoding the data across the at least two channels for the non-legacy client devices, and encoding (i) the data in a single one of the at least two channels and (ii) whitespace in the others of the at least two channels for the legacy client devices. 2. The method of claim 1 , wherein the single channel spectral mask includes two transition bandwidths, such that a first transition region is defined between the base in-band bandwidth and a first one of the base transition bandwidths, a second transition region is defined between the first base transition bandwidth and a second one of the base transition bandwidths, and a third transition region is defined between the second base transition bandwidth and the base floor bandwidth. 3. The method of claim 1 , further comprising: applying the selected configuration parameter set to transmissions to the legacy client devices and the non-legacy client devices. 4. The method of claim 1 , further comprising storing an additional configuration parameter set corresponding to an intermediate spectral mask defining target power levels for each of (i) an intermediate in-band bandwidth, (ii) a plurality of intermediate transition bandwidths, and (iii) an intermediate floor bandwidth; wherein the retrieving comprises retrieving the additional configuration parameter set when the determination is affirmative. 5. The method of claim 4 , wherein the intermediate in-band bandwidth has a value between the base in-band bandwidth and the bonded in-band bandwidth. 6. The method of claim 1 , further comprising: detecting a change in the set of client devices; and repeating the selecting, the retrieving and the applying. 7. A wireless communications assembly, comprising: a memory storing respective configuration parameter sets for each of a plurality of predefined spectral masks; the plurality of spectral masks including: a single channel spectral mask corresponding to a base channel bandwidth, the single channel spectral mask defining target power levels for each of (i) a base in-band bandwidth, (ii) a plurality of base transition bandwidths, and (iii) a base floor bandwidth; and a bonded channel spectral mask corresponding to a multiple of the base channel bandwidth, the bonded channel spectral mask defining target power levels for each of (i) a bonded in-band bandwidth equivalent to a sum of the base in-band bandwidth and the base channel bandwidth, (ii) a plurality of bonded transition bandwidths each equivalent to the multiple of the base transition bandwidths; and (iii) a bonded floor bandwidth equivalent to the multiple of the base floor bandwidth; and a radio controller configured to: select a subset of a plurality of predefined channels each having the base channel bandwidth, for use in transmitting data to a recipient station; retrieve a selected one of the configuration parameter sets based on a number of adjacent channels in the subset; and apply the selected configuration parameter set to the data prior to transmitting the data to the recipient station over the subset of predefined channels; identify a set of client devices and assess the capabilities of each receiving device in the set to determine whether the set of client devices includes a combination of non-legacy client devices and legacy client devices; when the set of client devices includes a combination of non-legacy client devices and legacy client devices, select a subset of at least two channels from the predefined channels; and encode the data across the at least two channels for transmission to the non-legacy client devices, and encoding (i) the data in a single one of the at least two channels and (ii) whitespace in the others of the at least two channels for transmission to the legacy client devices. 8. The wireless communications assembly of claim 7 , wherein the single channel spectral mask includes two transition bandwidths, such that a first transition region is defined between the base in-band bandwidth and a first one of the base transition bandwidths, a second transition region is defined between the first base transition bandwidth and a second one of the base transition bandwidths, and a third transition region is defined between the second base transition bandwidth and the base floor bandwidth. 9. The wireless communications assembly of claim 7 , the radio controller further configured to: apply the selected configuration parameter e to transmissions to the legacy client devices and the non-legacy client devices. 10. The wireless communications assembly of claim 7 , the memory storing an additional configuration parameter set corresponding to an intermediate spectral mask defining target power levels for each of (i) an intermediate in-band bandwidth, (ii) a plurality of intermediate transition bandwidths, and (iii) an intermediate floor bandwidth; wherein the radio controller is configured to retrieve the additional configuration parameter set when the determination is affirmative. 11. The wireless communications assembly of claim 10 , wherein the intermediate in-band bandwidth has a value between the base in-band bandwidth and the bonded in-band bandwidth. 12. The wireless communications assembly of claim 7 , the radio controller further configured to: detect a change in the set of client devices; and repeat the selecting, the retrieving and the applying.