Opportunistic concurrency between wireless local area networks

What is claimed is: 1. A wireless transceiver apparatus configured to support wireless communications with associated transceiver nodes on a selected wireless communication channel on a wireless local area network (WLAN); and the wireless transceiver apparatus comprising: a plurality of components coupled to one another to form transmit and receive paths for processing wireless communications on the selected wireless communication channel; an opportunistic link controller coupled to the plurality of components and including: a carrier sensor module configured to sense availability and unavailability of the selected wireless communication channel based on a relationship between a sensed signal level on the selected communication channel and a clear channel assessment (CCA) threshold level and responsive to availability of the selected communication channel, to initiate packet transmission at a first power level from the wireless transceiver apparatus to a selected on of the associated transceiver nodes; and a dominant link identifier module responsive to a determination of unavailability of the selected communication channel by the carrier sensor module and configured to identify unavailability arising from transmissions on a neighboring WLAN sharing the selected communication channel; and a concurrent link selector module responsive to the identification of unavailability of the selected communication channel arising from the transmissions on a neighboring WLAN identified by the dominant link identifier, and configured to select an isolated one of the associated transceiver nodes based on a proximity of the transceiver node to the wireless transceiver apparatus and to calculate a backoff transmit power level substantially less than the first power level for transmissions from the wireless transceiver apparatus to the selected isolated transceiver node, which minimize interference with the transmissions on the neighboring WLAN. 2. The wireless transceiver apparatus of claim 1 , wherein the opportunistic link controller further comprises: the dominant link identifier module further configured where unavailability arises from the transmissions on the neighboring WLAN, to identify at least a Received Signal Strength Indication (RSSI) of said transmissions from the neighboring WLAN at the wireless transceiver apparatus; and the concurrent link selector module further configured to utilize the RSSI identified by the dominant link identifier to estimate a transmit power level of the transmissions on the neighboring WLAN and to limit the backoff transmit power level link to a level substantially less than said estimated transmit power level. 3. The wireless transceiver apparatus of claim 1 , wherein the opportunistic link controller further comprises: a WLAN node locator module configured to accumulate directional and signal strength information as to the associated transceiver nodes on the WLAN and to extrapolate at least locations of each associated transceiver node relative to the wireless transceiver apparatus therefrom; and the concurrent link selector module further configured to utilize the relative locations of the associated transceiver nodes provided by the WLAN node locator module to select as the isolated one of the transceiver nodes the most proximate associated transceiver node. 4. The wireless transceiver apparatus of claim 1 , wherein the opportunistic link controller further comprises: the concurrent link selector module further configured to determine whether the backoff transmit power level, also provides a sufficient Signal-to-Noise Ratio (SNR) at the selected isolated transceiver node prior to initiating transmissions to the selected isolated transceiver node, whereby concurrent transmissions are initiated only if the SNR is sufficient. 5. The wireless transceiver apparatus of claim 1 , wherein the opportunistic link controller further comprises: the concurrent link selector module further configured to utilize the backoff transmit power level for both a header and a payload portion of each packet transmitted from the wireless transceiver apparatus to the selected isolated transceiver node. 6. The wireless transceiver apparatus of claim 1 , wherein the opportunistic link controller further comprises: a WLAN node locator module configured to accumulate directional and signal strength information as to the associated transceiver nodes on the WLAN as well as transceiver nodes on the neighboring WLAN and to extrapolate locations of each node relative to the wireless transceiver apparatus therefrom; and the concurrent link selector module further configured to utilize the relative locations provided by the WLAN node locator module to select the isolated one of the associated transceiver nodes based both on its proximity to the wireless transceiver apparatus and its distance from a transmitting one of the transceiver nodes on the neighboring WLAN. 7. The wireless transceiver apparatus of claim 1 , further comprising: a plurality of antennas; the plurality of components further coupled to one another to form a plurality of the transmit and receive paths each coupled to a corresponding one of the plurality of antennas for multiple-input multiple-output (MIMO) beamformed communications; a WLAN node locator module configured to accumulate directional and signal strength information as to the associated transceiver nodes on the WLAN as well as transceiver nodes on the neighboring WLAN and to extrapolate locations of each node relative to the wireless transceiver apparatus therefrom; and the current link selector module further configured to utilize the relative locations provided by the WLAN node locator module to select the isolated one of the associated transceiver nodes based further a degree of antipodality between locations relative to wireless transceiver apparatus of a transceiver node responsible for the transmissions on the neighboring WLAN and the isolated one of the transceiver nodes; whereby MIMO beamformed transmissions from the wireless transceiver apparatus to the selected isolated transceiver node are directed toward the selected isolated one of the transceiver nodes and away from the transceiver node responsible for transmissions on the neighboring WLAN. 8. The wireless transceiver apparatus of claim 1 , further comprising: a plurality of antennas; the plurality of components further coupled to one another to form a plurality of the transmit and receive paths each coupled to a corresponding one of the plurality of antennas for multiple-input multiple-output (MIMO) beamformed communications; a WLAN node locator module configured to accumulate directional and signal strength information as to the associated transceiver nodes on the WLAN as well as transceiver nodes on the neighboring WLAN and to extrapolate locations of each node relative to the wireless transceiver apparatus therefrom; the dominant link identifier module further configured to identify from the transmissions on the neighboring WLAN a direction of said transmissions on the neighboring WLAN from a transmitting one to a receiving one of the transceiver nodes; and the concurrent link selector module further configured to utilize the relative locations provided by the WLAN node locator module and the direction of the transmissions on the neighboring WLAN identified by the dominant link identifier to select the isolated one of the associated transceiver nodes based further on a degree of antipodality between the direction of transmissions on the neighboring WLAN and the direction of MIMO beamforming to the isolated one of the associated transceiver nodes. 9. The wireless transceiver apparatus of claim 1 , further comprising: the plurality