Wireless sensor base station with coexistence of multiple homogeneous radios

What is claimed is: 1. A network device, comprising: a first and a second wireless network circuits, wherein the second network circuit is assigned a higher priority than the first network circuit, and wherein the second network circuit is configured to communicate with a plurality of wireless sensors; and a coexistence controller coupled to the network circuits and configured to: receive a remaining power supply status from each of the plurality of wireless sensors; prioritize communication among the plurality of wireless sensors, to which the second network circuit is configured to couple, based on the received remaining power supply status of the plurality of wireless sensors. 2. The network device of claim 1 , wherein the first and second wireless network circuits are homogeneous. 3. The network device of claim 1 , further comprising: a third wireless network circuit heterogeneous to the first and second wireless circuits, wherein the third wireless network circuit is configured to couple to another number of wireless sensors separate from the one or more wireless sensors coupled to the second network circuit; wherein the coexistence controller is further configured to arbitrate communication priorities across sensors coupled to the second and third wireless network circuits. 4. The network device of claim 3 , wherein the communication priorities across sensors are arbitrated based on a respective power supply status and/or power consumption sensitivity of each wireless sensor. 5. The network device of claim 3 , wherein the first and second wireless network circuits are IEEE 802.11 compliant, and wherein the third wireless network circuit is a circuit other than IEEE 802.11 compliant. 6. The network device of claim 3 , wherein the third wireless network circuit operates a customized protocols or modified versions of standard protocols to communicate with the number of wireless sensors. 7. The network device of claim 3 , wherein the second wireless network circuit operates a protocol that has a related link upkeep standard. 8. The network device of claim 1 , wherein the first wireless network circuit is configured to be coupled to a device that provides an Internet connection. 9. The network device of claim 8 , wherein the device that provides the Internet connection includes a wireless access point that is coupled to an Internet gateway. 10. The network device of claim 1 , wherein the coexistence controller is further configured to selectively suppress transmitting operations of the first network circuit during receiving operations of the second network circuit. 11. The network device of claim 10 , wherein the transmitting operations are selectively suppressed by one or more of: disabling, postponing, attenuating the power level used in, and/or reducing transmission rate of, the transmitting operations. 12. The network device of claim 10 , wherein the coexistence controller is further configured to determine a reservation schedule, based on status signals received from the one or more wireless sensors, in selectively suppressing the transmitting operations. 13. The network device of claim 1 , wherein the second wireless network circuit is equipped with an omnidirectional antenna. 14. The network device of claim 1 , wherein the network device is configured to receive traffic indication maps (TIM) from at least one of the wireless sensors, and wherein the coexistence controller is further configured to arrange traffic scheduling to give priority to a wireless circuit based on the received TIM information. 15. The network device of claim 1 , wherein, for wireless sensors that do not have TIM capacity, when the network device schedules or reserves a target wake time (TWT) for non-TIM-capable clients, the coexistence controller is further configured to protect the scheduled TWT of the non-TIM-capable clients from being preempted by TIM-capable clients. 16. The network device of claim 15 , wherein the coexistence controller is further configured to indicate to the TIM-capable clients a restricted access window (RAW) information, during which no TIM-capable client can occupy its associated wireless network circuit. 17. The network device of claim 1 , wherein the network device is configured to receive a sleep schedule of a wireless sensor. 18. The network device of claim 17 , wherein the sleep schedule is received in a traffic indication map (TIM) included in one or more beacon frames. 19. The network device of claim 1 , wherein, after the network device acquires information about a given wireless sensor waking up, the coexistence controller is configured to give priority to downlink traffic to the given wireless sensor. 20. The network device of claim 1 , wherein, after the network device acquires information about a given wireless sensor starting to transmit data, the coexistence controller is configured to give priority to uplink traffic from given the wireless sensor.