Method and apparatus for primary channel detection

1 - 31 . (canceled) 32 . A method of controlling a radio node to control spectrum usage to mitigate interference in primary channels of a WLAN comprising: monitoring signal measurements at frequencies corresponding to one or more WLAN channels in one or more frequency bands; determining, based on the signal measurements, whether there are any channels among possible primary and secondary channel pairings of the one or more WLAN channels that are being used by the WLAN as secondary channels; and controlling spectrum usage by the radio node based on said determining. 33 . The method of claim 32 , wherein said controlling spectrum usage includes controlling carrier frequency selection by the radio node to favor selection of carrier frequencies corresponding to ones of the one or more WLAN channels determined as being secondary channels. 34 . The method of claim 32 , wherein said determining includes blindly detecting whether any WLAN channels among the possible channel pairings are being used by the WLAN as secondary channels, without decoding WLAN signal transmissions. 35 . The method of claim 32 , wherein the WLAN comprises a WiFi network and the one or more WLAN channels comprise one or more WiFi channels. 36 . The method of claim 32 , wherein the radio node comprises a base station in a Radio Access Network, RAN, of a cellular communication system. 37 . The method of claim 32 , wherein said determining includes detecting a primary channel in the WLAN by detecting characteristics indicative of primary channel usage at a first channel frequency of the WLAN, and detecting a secondary channel in the WLAN by detecting characteristics indicative of secondary channel usage at a second channel frequency of the WLAN defined by the possible primary and secondary channel pairings, as known from primary and secondary channel pairing rules stored in the non-WLAN node. 38 . The method of claim 37 , wherein the characteristics indicative of primary channel usage comprise characteristics indicative of at least one of control signaling and beacon signaling sent on primary channels but not sent on secondary channels. 39 . The method of claim 32 , wherein determining further comprises jointly evaluating signal measurements obtained for first and second channel frequencies at each of one or more of the possible primary and secondary channel pairings, including detecting that the signal measurements obtained for one of the first and second channel frequencies exhibits signal activity indicative of primary channel usage and correspondingly detecting that the signal measurements obtained for the other one of the first and second channel frequencies exhibits signal activity indicative of secondary channel usage. 40 . The method of claim 39 , wherein correspondingly detecting includes accounting for any apparent signal activity that is attributable to leakage within a transceiver circuit of the radio node. 41 . The method of claim 32 , wherein the signal measurements comprise received signal-strength indicators, RSSIs. 42 . The method of claim 32 , wherein said determining includes accounting for signal measurements that arise from signal leakage within a transceiver circuit in the radio node. 43 . The method of claim 42 , wherein accounting for the signal measurements that arise from signal leakage includes: separating the signal measurements into beacon signal measurements and data signal measurements; and comparing the beacon and data signal measurements obtained for a first WLAN channel. 44 . The method of claim 43 , wherein said comparing further includes comparing the beacon and data signal measurements obtained for the first WLAN channel with the corresponding beacon and data signal measurements obtained for a second WLAN channel that is a candidate for secondary channel usage relative to the first WLAN channel, as is known from the possible primary and secondary channel pairings. 45 . The method of claim 32 , wherein said determining includes identifying a primary channel in a respective channel pairing, based on determining which of the WLAN channels in the respective channel pairing has a greater number of non-leakage activity bursts within a time window. 46 . A radio node configured to control spectrum usage to mitigate interference in primary channels of a WLAN comprising: a transceiver circuit configured to transmit and receive wireless signals; and a processing circuit operatively connected to the transceiver circuit and configured to: monitor signal measurements generated from wireless transmissions detected at frequencies corresponding to one or more WLAN channels in one or more frequency bands; determine, based on the signal measurements, whether there are any channels among possible primary and secondary channel pairings of the one or more WLAN channels that are being used by the WLAN as secondary channels; and control spectrum usage by the radio node based on the determination. 47 . The radio node of claim 46 , wherein the processing circuit is configured to control carrier frequency selection by the radio node to favor selection of carrier frequencies corresponding to ones of the one or more WLAN channels determined as being secondary channels. 48 . The radio node of claim 46 , wherein the processing circuit is configured to blindly detect whether any WLAN channels among the possible channel pairings are being used by the WLAN as secondary channels, without decoding WLAN transmissions. 49 . The radio node of claim 46 , wherein the WLAN comprises a WiFi network and the plurality of WLAN channels comprises a plurality of WiFi channels. 50 . The radio node of claim 46 , wherein the radio node comprises a base station in a Radio Access Network, RAN, of a cellular communication system. 51 . The radio node of claim 46 , wherein the processing circuit is configured to detect a primary channel in the WLAN by detecting characteristics indicative of primary channel usage at a first channel frequency of the WLAN, and detect a secondary channel in the WLAN by detecting characteristics indicative of secondary channel usage at a second channel frequency defined by the possible primary and secondary channel pairings, as known from primary and secondary channel pairing rules stored in the non-WLAN node. 52 . The radio node of claim 51 , wherein the characteristics indicative of primary channel usage comprise characteristics indicative of at least one of control signaling and beacon signaling sent on primary channels but not sent on secondary channels. 53 . The radio node of claim 46 , wherein the processing circuit is configured to jointly evaluate signal measurements obtained for first and second channel frequencies at each of one or more of the possible primary and secondary channel pairings, including detecting that one of the first and second channel frequencies exhibits signal activity indicative of primary channel usage and correspondingly detecting that the other one of the first and second channel frequencies exhibits signal activity indicative of secondary channel usage. 54 . The radio node of claim 53 , wherein the processing circuit is configured to correspondingly detect that the other one of the first and second channel frequencies exhibits signal activity indicative of secondary channel usage by accounting for any apparent signal activity seen on the other one of the first and second channel frequencies that is at