Methods supporting multicast/multiuser transmission using listen after talk and related network nodes

The invention claimed is: 1. A method of operating an access node of a wireless communication network, the method comprising: providing a first frame including a first header and a first data block with first data for a first wireless terminal and a second wireless terminal, wherein the header includes a first control field indicating a first idle period resource and a second control field indicating a second idle period resource, wherein the first and second idle period resources are different; initiating transmission of the first frame to the first and second wireless terminals; responsive to receiving a notification message using the first idle period resource, providing a second frame including a second header and a second data block with second data for the second wireless terminal; and initiating transmission of the second frame to the second wireless terminal while deferring transmission to the first wireless terminal. 2. The method of claim 1 , wherein initiating transmission of the first frame comprises using a first beam for the first wireless terminal and a second beam for the second wireless terminal, wherein the first control field is transmitted to the first wireless terminal using the first beam and the second control field is transmitted to the second wireless terminal using the second beam, wherein the first idle period resource corresponds to the first beam, and wherein the second idle period resource corresponds to the second beam, and wherein initiating transmission of the second frame comprises using the second beam for the second wireless terminal while deferring transmission using the first beam. 3. The method of claim 1 , wherein the first data is for the first wireless terminal, the second wireless terminal, and a third wireless terminal, wherein the header includes a third control field indicating a third idle period resource, wherein initiating transmission of the first frame comprises initiating transmission of the first frame to the first, second, and third wireless terminals, and wherein the second data is for the second and third wireless terminals. 4. The method of claim 3 , wherein initiating transmission of the first frame comprises using a first beam for the first wireless terminal, using a second beam for the second wireless terminal, and using a third beam for the third wireless terminal, wherein the first control field is transmitted to the first wireless terminal using the first beam, the second control field is transmitted to the second wireless terminal using the second beam, and the third control field is transmitted to the third wireless terminal using the third beam, wherein the first idle period resource corresponds to the first beam, the second idle period resource corresponds to the second beam, and the third idle period resource corresponds to the third beam, and wherein initiating transmission of the second frame comprises initiating transmission of the second frame to the second and third wireless terminals using the second beam for the second wireless terminal and using the third beam for the third wireless terminal while deferring transmission using the first beam. 5. The method of claim 4 , wherein the first, second, and third beams define respective first, second, and third beamforming directions, wherein the first and second beamforming directions are different, wherein the first and third beamforming directions are different, and wherein the second and third beamforming directions are different. 6. The method of claim 5 , wherein the first data includes first data for the first wireless terminal and first data for the second wireless terminal, wherein the first data for the first wireless terminal is different than the first data for the second wireless terminal. 7. The method of claim 6 , wherein initiating transmission of the first frame comprises initiating transmission of the first data for the first wireless terminal using a first data resource of the first data block and initiating transmission of the first data for the second wireless terminal using a second data resource of the first data block, and wherein the first and second data resources are different. 8. The method of claim 7 , wherein the first data resource of the first data block is orthogonal with respect to the second data resource of the first data block in at least one of time and/or frequency, and wherein deferring transmission to the first wireless terminal comprises deferring transmission using the first data resource. 9. The method of claim 6 , wherein initiating transmission of the first frame comprises initiating transmission of the first data for the first wireless terminal and the first data for the second wireless terminal using a same time and frequency resource. 10. The method of claim 9 , wherein providing the first frame comprises providing padding for at least one of the first data for the first wireless terminal and the second data for the second wireless terminal to provide that the first data for the first wireless terminal and the second data for the second wireless terminal occupy a same time and frequency resource during transmission. 11. The method of claim 3 , wherein the first control field indicates a first feedback resource corresponding to the first wireless terminal, wherein the second control field indicates a second feedback resource corresponding to the second wireless terminal, wherein the third control field indicates a third feedback resource corresponding to the third wireless terminal, and wherein the first, second, and third feedback resources are different. 12. The method of claim 11 , wherein the second data block includes new data for the second wireless terminal responsive to receiving an acknowledgment from the second wireless terminal using the second feedback resource, and wherein the second data block includes previously transmitted data of the first frame for the third wireless terminal responsive to receiving a negative acknowledgement from the third wireless terminal using the third feedback resource. 13. The method of claim 11 , wherein the first feedback resource is orthogonal with respect to the second and third feedback resources in at least one of time and/or frequency, wherein the second feedback resource is orthogonal with respect to the first and third feedback resources in at least one of time and/or frequency, and wherein the third feedback resource is orthogonal with respect to the first and second feedback resources in at least one of time and/or frequency. 14. The method of claim 11 , wherein the first, second, and third feedback resources are defined using respective different beams and/or codes. 15. The method of claim 3 , wherein the first data includes first data for the first wireless terminal and first data for the second wireless terminal, wherein the first data for the first wireless terminal is different than the first data for the second wireless terminal, and wherein initiating transmission of the first frame comprises initiating transmission of the first data for the first wireless terminal using the first beam and initiating transmission of the first data for the second wireless terminal using the second beam. 16. The method of claim 1 , wherein initiating transmission of the first frame comprises initiating transmission of the same first data to the first and second wireless terminals. 17. The method of claim 1 , wherein the notification message comprises a notify-to-send message received from an interfered wireless terminal. 18. The method of cla