Assignment of transceiver antenna elements for channel sensing

The invention claimed is: 1. A method of controlling a wireless transceiver; the wireless transceiver comprising a plurality N of transceiver antenna elements and configured to operate in a communication network; the method comprising: dynamically assigning, from the plurality N of transceiver antenna elements, a first set of transceiver antenna elements allocated for channel sensing and a second set of transceiver antenna elements allocated for communication; performing channel sensing using the first set of transceiver antenna elements; and operating the wireless transceiver based on a result of the performed channel sensing; wherein dynamically assigning comprises: in a non-communication mode of the wireless transceiver, letting the first set comprise all of the transceiver antenna elements and letting the second set be empty; in a communication transmission mode of the wireless transceiver, letting the first set comprise a first subset of the transceiver antenna elements and letting the second set comprise a second subset of the transceiver antenna elements, wherein the first and second subsets are non-overlapping; and in a communication reception mode of the wireless transceiver, letting the first set comprise a third subset of the transceiver antenna elements and letting the second set comprise a fourth subset of the transceiver antenna elements, wherein the third and fourth subsets are overlapping; wherein the operating the wireless transceiver based on the result of the performed channel sensing comprises, when the performed channel sensing detects an interfering signal in communication transmission mode of the wireless transceiver: determining to continue an ongoing transmission when the interfering signal is detected to originate from the communication network of the wireless transceiver and an attempt to decode the interfering signal succeeds; determining to stop the ongoing transmission when the interfering signal is detected to originate from the communication network of the wireless transceiver and an attempt to decode the interfering signal fails; and determining to stop the ongoing transmission when the interfering signal is detected to originate from a different communication network; wherein the channel sensing is directional channel sensing performed in two or more directions; and wherein the operating the wireless transceiver based on the result of the performed channel sensing comprises, in communication transmission and/or reception modes of the wireless transceiver, selecting one or more direction of the two or more directions for an upcoming transmission or reception opportunity; wherein the channel sensing of the selected one or more direction detected less interference or lower received signal strength than the channel sensing of at least one of a non-selected direction. 2. The method of claim 1 , wherein selection of which transceiver antenna elements belongs to the first and second sets is variable. 3. The method of claim 1 : wherein a cardinality of the second set is variable between zero and N, and can take at least two values which differ from zero and N; wherein the cardinality of the first set is variable between one and N, and can take at least one value which differs from N. 4. The method of claim 1 , wherein the dynamically assigning comprises determining cardinalities of the first and second sets based on: a communication mode of the wireless transceiver; network statistics collected by the wireless transceiver; network statistics collected by one or more other wireless transceivers; one or more previous results of channel sensing performed by the wireless transceiver; and/or one or more previous results of channel sensing performed by one or more other wireless transceivers. 5. The method of claim 1 , wherein a size of the first subset is determined based on one or more previous results of channel sensing performed by the wireless transceiver and/or by one or more other wireless transceivers. 6. The method of claim 1 , wherein the channel sensing is performed while communication is performed using the second set of transceiver antenna elements in communication transmission and/or reception modes of the wireless transceiver. 7. The method of claim 1 : wherein the channel sensing is directional channel sensing performed in a direction; wherein the operating the wireless transceiver based on the result of the performed channel sensing comprises, in communication transmission and/or reception modes of the wireless transceiver, selecting whether or not to use the direction for an upcoming transmission or reception opportunity based on signal detection for the direction during the channel sensing. 8. An apparatus for a wireless transceiver; the wireless transceiver comprising a plurality N of transceiver antenna elements and configured to operate in a communication network; the apparatus comprising control processing circuitry configured to cause: dynamic assignment, from the plurality N of transceiver antenna elements, of a first set of transceiver antenna elements allocated for channel sensing and a second set of transceiver antenna elements allocated for communication; performance of channel sensing using the first set of transceiver antenna elements; and operation of the wireless transceiver based on a result of the performed channel sensing; wherein dynamically assigning comprises: in a non-communication mode of the wireless transceiver, letting the first set comprise all of the transceiver antenna elements and letting the second set be empty; in a communication transmission mode of the wireless transceiver, letting the first set comprise a first subset of the transceiver antenna elements and letting the second set comprise a second subset of the transceiver antenna elements, wherein the first and second subsets are non-overlapping; and in a communication reception mode of the wireless transceiver, letting the first set comprise a third subset of the transceiver antenna elements and letting the second set comprise a fourth subset of the transceiver antenna elements, wherein the third and fourth subsets are overlapping; wherein the control processing circuitry is configured to cause the operation of the wireless transceiver based on the result of the performed channel sensing by causing, when the performed channel sensing detects an interfering signal in communication transmission mode of the wireless transceiver: continuation of an ongoing transmission when the interfering signal is detected to originate from the communication network of the wireless transceiver and an attempt to decode the interfering signal succeeds; stoppage of the ongoing transmission when the interfering signal is detected to originate from the communication network of the wireless transceiver and an attempt to decode the interfering signal fails; and stoppage of the ongoing transmission when the interfering signal is detected to originate from a different communication network; wherein the channel sensing is directional channel sensing performed in two or more directions; and wherein the operating the wireless transceiver based on the result of the performed channel sensing comprises, in communication transmission and/or reception modes of the wireless transceiver, selecting one or more direction of the two or more directions for an upcoming transmission or reception opportunity; wherein the channel sensing of the selected one or more direction detected less interference or lower received signal strength than the channel sensing of at least one of a non-selected direction. 9. The apparatus of claim 8 , wherein a selection of which transceiver antenna elements belongs to the first