Multiple access point uplink orthogonal frequency-division multiple access based random access

What is claimed is: 1. An apparatus for wireless communication in a network, the apparatus comprising: (a) a wireless communication circuit, as a station, wirelessly communicating with other stations on a wireless local area network (WLAN) in an IEEE 802.11 protocol configured for supporting orthogonal frequency-division multiple access (OFDMA), and uplink OFDMA random access (UORA) over a carrier-sense multiple-access/collision avoidance (CSMA/CA) mechanism; (b) a processor of said station; (c) a non-transitory memory storing instructions executable by the processor for communicating spatial streams with other stations and fulfilling different roles of a communications protocol, in which said station may operate as an access point (AP) which is either a primary AP or a secondary AP, or may operate as a non-access point station (STA); and (d) wherein said instructions, when executed by the processor, perform one or more steps comprising: (i) transmitting a first trigger frame (TF) by said station operating as a primary access point (AP) to schedule a short uplink (UL) transmission from another station, to allow the primary AP and one or more secondary APs to estimate spatial filtering to be utilized in the favorable and unfavorable directions of each of the APs; (ii) jointly transmitting a joint physical layer protocol data unit (PPDU) containing one or more second trigger frames, by the primary AP and one or more secondary APs with channel estimation signals precoded by weights of the spatial filtering; (iii) utilizing the channel estimation signals allows UORA non-AP stations wanting to access secondary APs whether they are in a favored direction or an unfavored direction to each primary and secondary AP and criteria provided to the UORA non-AP stations to determine if they are eligible for UORA access; and (iv) whereby a sum of the number of spatial streams of scheduled UL transmissions by the primary AP and a number of UORA stations using the same time and frequency resource are allowed to exceed a number of receive antennas available in the primary AP. 2. The apparatus of claim 1 , wherein each AP, primary AP or secondary APs, partitions its antenna precoding to two subspaces, one for the favored directions and one for the unfavored directions. 3. The apparatus of claim 1 , wherein said first TF contains a joint PPDU subfield with information on the channel estimation signals for a subsequent joint PPDU. 4. The apparatus of claim 1 , wherein said first TF comprises a buffer status report poll (BSRP) frame. 5. The apparatus of claim 1 , wherein said first TF is sent by said primary AP and can trigger multiple spatial streams. 6. The apparatus of claim 1 , wherein in response to one of the second TFs for determining eligibility for a UORA access by a non-AP station, the OFDMA count window (OCW) counter is updated and if a terminal count is reached and UORA is performed on one of the eligible RUs. 7. An apparatus for wireless communication in a network, the apparatus comprising: (a) a wireless communication circuit, as a station, wirelessly communicating with other stations on a wireless local area network (WLAN) in an IEEE 802.11 protocol configured for supporting orthogonal frequency-division multiple access (OFDMA), and uplink OFDMA random access (UORA); (b) wherein each AP, primary AP or secondary APs, partitions its antenna precoding to two subspaces, one for the favored directions and one for the unfavored directions; (c) a processor of said station; (d) a non-transitory memory storing instructions executable by the processor for communicating spatial streams with other stations and fulfilling different roles of a communications protocol, in which said station may operate as an access point (AP) which is either a primary AP or a secondary AP, or may operate as a non-access point station (STA); and (e) wherein said instructions, when executed by the processor, perform one or more steps comprising: (i) transmitting a first trigger frame (TF) by said station operating as a primary access point (AP) to schedule a short uplink (UL) transmission from another station, to allow the primary AP and one or more secondary APs to estimate spatial filtering to be utilized in the favorable and unfavorable directions of each of the APs; (ii) wherein said first TF contains a joint PPDU subfield with information on the channel estimation signals for a subsequent joint PPDU; wherein said first TF can trigger multiple spatial streams; (iii) jointly transmitting a joint physical layer protocol data unit (PPDU) containing one or more second trigger frames, by the primary AP and one or more secondary APs with channel estimation signals precoded by weights of the spatial filtering; (iv) utilizing the channel estimation signals allows UORA non-AP stations wanting to access secondary APs whether they are in a favored direction or an unfavored direction to each primary and secondary AP and criteria provided to the UORA non-AP stations to determine if they are eligible for UORA access; and (v) whereby a sum of the number of spatial streams of scheduled UL transmissions by the primary AP and a number of UORA stations using the same time and frequency resource are allowed to exceed a number of receive antennas available in the primary AP. 8. The apparatus of claim 7 , wherein said first TF comprises a buffer status report poll (BSRP) frame. 9. The apparatus of claim 7 , wherein in response to one of the second TFs for determining eligibility for a UORA access by a non-AP station, the OFDMA count window (OCW) counter is updated and if a terminal count is reached and UORA is performed on one of the eligible RUs. 10. A method of performing wireless communications in a network, comprising: (a) performing wireless communications between stations of a wireless local area network (WLAN) in an IEEE 802.11 protocol configured for supporting orthogonal frequency-division multiple access (OFDMA), and uplink OFDMA random access (UORA) over a carrier-sense multiple-access/collision avoidance (CSMA/CA) mechanism; (b) transmitting a first trigger frame (TF) by a primary access point (AP) to schedule a short uplink (UL) transmission from another station, to allow the primary AP and one or more secondary APs to estimate spatial filtering to be utilized in the favorable and unfavorable directions of each of the APs; (c) jointly transmitting a joint physical layer protocol data unit (PPDU) containing one or more second TFs, by the primary AP and one or more secondary APs, with channel estimation signals precoded by weights of the spatial filtering; (d) utilizing the channel estimation signals to allow UORA non-AP stations, wanting to access secondary APs, whether they are in a favored direction or an unfavored direction to each primary and secondary AP and criteria provided to the UORA non-AP stations to determine if they are eligible for UORA access; and (e) whereby a sum of the number of spatial streams of scheduled UL transmissions by the primary AP and a number of UORA stations using the same time and frequency resource are allowed to exceed a number of receive antennas available in the primary AP. 11. The method of claim 10 , wherein each AP, primary AP or secondary APs, partitions its antenna precoding to two subspaces, one for the favored directions and one for the unfavored directions. 12. The method of claim 10 , wherein said first TF contains a joint PPDU subfield with information on the channel estimation signals for a subsequent joint PPDU. 13. The method of claim 10 , wherein said first TF comprises a buffer status report poll (BSRP) frame. 14. Th