Network range extender with multi-RF radio support for plurality of network interfaces

What is claimed is: 1. An apparatus for use in a network that comprises an access point and an end node, the apparatus comprising: a first radio to wirelessly communicate with the access point; a second radio to wirelessly communicate with the end node; a first processor device programmed to control and process messages received from the first radio, the first processing device configured to determine whether the first radio is required to send data to the access point; a second processor device programmed to control and process messages received from the second radio, the second processing device configured to determine whether the second radio is required to send data to the end node; and wherein when either one of the first or second processor devices determines that respective radios are not required to send data, the determined one of the first or the second processor devices is configured to change which of the end node and the access point, the first and second radios and the first and second devices are configured to communicate with. 2. The apparatus of claim 1 , wherein the first processor device changes which of the end node and the access point to communicate with by determining that there are no data to send to the access point, and in a next frequency change, the first processor device causes the first radio to change its functionality to communicate with the end node. 3. The apparatus of claim 2 , wherein the occurrence of the functionality change is communicated to other radios in the network with a communication including an expected dwell time that the access point will use at the next frequency. 4. The apparatus of claim 1 , wherein at least one of the first radio and the second radio is controllable to listen on one or more communication channels for devices having at least one predefined power characteristic. 5. The apparatus of claim 1 , wherein the first and second processor devices exchange communications between the processor devices using direct memory access (DMA) transfers between the processor devices. 6. The apparatus of claim 1 , wherein the first and second processor devices each manages its own wireless communication on the side of the apparatus to which the respective processor device is connected. 7. The apparatus of claim 1 , wherein the first and second processor devices each provide frequency agility/hopping and selection, protocol management and control, message store and forward services and manage protocol state and environmental functions for the respective radio. 8. The apparatus of claim 1 , wherein the first processor device is provided by one or more cores of a multicore processor and the second processor device is provided by one or more different cores of the multicore processor. 9. The apparatus of claim 1 , wherein the apparatus is a range extender. 10. The apparatus of claim 1 , wherein the first radio is part of a set of a plurality of first radios that service a corresponding plurality of access points. 11. The apparatus of claim 1 , wherein the second radio is part of a set of a plurality of second radios that service a corresponding plurality of end nodes. 12. An apparatus comprising: a first radio to wirelessly communicate with an access point; a second radio to wirelessly communicate with an end node; a first antenna element coupled to a radio frequency (r.f.) input and output of the first radio; a first processor device programmed to control and process messages received from the first radio, the first processor device configured to determine whether the first radio is required to send data to the access point; a second antenna element coupled to a radio frequency (r.f.) input and output of the second radio; and a second processor device programmed to control and process messages received from the second radio, the second processor device configured to determine whether the second radio is required to send data to the end node wherein the apparatus is a range extender and when either of the first and second processor devices determines that respective radios are not required to send data, the determined one of the first or the second processor devices is configured to change which of the end node and the access point, the first and second radios and the first and second processor devices are configured to communicate with. 13. The apparatus of claim 12 , wherein the first and second processor devices exchange communications between the processor devices using direct memory access (DMA) or other transfer methods between the processors. 14. The apparatus of claim 12 , wherein the first and second processor devices each manages its own wireless communication on the side of the apparatus to which the respective processor is connected. 15. A networked detection system comprising: a network of sensor devices; a gateway to provide a network connection to connect the one or more sensor devices to the network; an access point in communication with the gateway; and a range extender for connecting the one or more sensor devices to the gateway, with the range extender comprising: a first radio to wirelessly communicate with the access point; a second radio to wirelessly communicate with the end node; a first processing device programmed to control and process messages received from the first radio, the first processing device configured to determine whether the first radio is required to send data to the access point; a second processing device programmed to control and process messages received from the second radio, the second processing device configured to determine whether the second radio is required to send data to the end node; and wherein when either one of the first and second processing devices determines that respective radios are not required to send data, the determined one of the first or the second processing devices is configured to change which of the end node and the access point, the first and second radios and the first and second processing devices are configured to communicate with. 16. The networked detection system of claim 15 wherein at least some of the sensors are constrained sensor devices and remaining ones of the sensors are a second different type of device having greater processing capabilities than the constrained sensor devices and the range extender connects the constrained sensor devices to the gateway. 17. The networked detection system of claim 15 wherein the first radio and first processing device are part of a plurality of first radios and first processing devices, which with the second radio and second processing device providing the range extender. 18. The networked detection system of claim 15 wherein the second radio and second processing device are part of a plurality of second radios and second processing devices, which with the first radio and first processing device providing the range extender.