Wireless local area network system and receiver adapted for use thereof and associated method

That which is claimed is: 1. A system comprising: a server; a receiver that is part of a wireless network and is in communication with said server as a network client, the receiver comprising: a plurality of radio frequency (RF) front-end circuits each configured to receive wireless signals from mobile nodes within a wireless network along an allocated channel for each front-end circuit; a signal waveform detector circuit at each allocated channel configured to detect a signal waveform on the respective allocated channel and generate a trigger waveform indicative of information describing a desired signal to be captured, wherein the signal waveform detector circuit at each allocated channel is further configured to generate the trigger waveform, wherein the trigger waveform is indicative of modulation type, data format, and time-of-arrival (TOA) information of a desired signal to be captured; and a plurality of processors each specific to an allocated channel and connected to a respective front-end circuit for the allocated channel, each processor being configured to receive a respective trigger waveform and, responsive to the trigger waveform, capture a desired signal specific to the respective allocated channel and acquire time-of-arrival (TOA) information for determining a location based on the captured desired signal, wherein the receiver is further configured to provide the TOA information to the server. 2. The system according to claim 1 , and further comprising a media access control (MAC) device connected between said system controller and the server. 3. The system according to claim 1 , and further comprising a wireless network connection between said server and said receiver. 4. The system according to claim 1 , and further comprising a wired network connection between said server and said receiver. 5. The system according to claim 1 , and further comprising diversity antennas connected to the RF front-end circuits and providing spatial diversity. 6. The system according to claim 1 , further comprising: a system controller connected to each processor that configures each respective processor to process the desired signal and obtain message data and signal metrics that are transferred to the system controller to be communicated outbound from the receiver to the server. 7. The system according to claim 6 , wherein said system controller is operative for controlling signal selection and RF signal based selection of allocated channels. 8. The system according to claim 7 , and further comprising a wireless access point connected to said receiver wherein allocated channels are selected for said wireless access point. 9. The system according to claim 8 , and further comprising a multiplexer switch connected between said receiver and said wireless access point for selectively switching signals between said receiver and said wireless access point. 10. A system comprising: a server; a receiver that is part of a wireless network and is in communication with said server as a network client, the receiver comprising: a plurality of radio frequency (RF) front-end circuits each configured to receive wireless signals from mobile nodes within a wireless network along an allocated channel for each front-end circuit; a signal waveform detector circuit at each allocated channel configured to detect a signal waveform on the respective allocated channel and generate a trigger waveform indicative of information describing a desired signal to be captured, wherein the trigger waveform is indicative of modulation type, data format, and time-of-arrival (TOA) information of a desired signal to be captured; a plurality of processors each specific to an allocated channel and connected to a respective front-end circuit for the allocated channel, each processor being configured to receive a respective trigger waveform and, responsive to the trigger waveform, capture a desired signal specific to the respective allocated channel and acquire time-of-arrival (TOA) information for determining a location based on the captured desired signal; and a plurality of TOA processors each specific to a respective allocated channel and RF front-end circuit, each TOA processor being configured to receive TOA information and generate a time stamp for the captured desired signal received in a respective allocated channel, wherein each TOA processor is configured to process TOA information when said receiver is part of a geometric array of networked nodes, determine first-to-arrive signals based on a common network timing signal, and conduct differentiation of the first-to-arrive signals to locate a desired wireless node; wherein the receiver is further configured to provide the TOA information to the server. 11. A receiver comprising: a plurality of radio frequency (RF) front-end circuits each configured to receive wireless signals from mobile nodes within a wireless network along an allocated channel for each front-end circuit; a signal waveform detector circuit at each allocated channel configured to detect a signal waveform on the respective allocated channel and generate a trigger waveform indicative of information describing a desired signal to be captured, wherein the signal waveform detector circuit at each allocated channel is further configured to generate the trigger waveform, wherein the waveform is indicative of modulation type, data format, and time-of-arrival (TOA) information of a desired signal to be captured; and a plurality of processors each specific to an allocated channel and connected to a respective front-end circuit for the allocated channel, each processor being configured to receive a respective trigger waveform and, responsive to the trigger waveform, capture a desired signal specific to a respective allocated channel and acquire time-of-arrival (TOA) information for determining a location based on the captured desired signal. 12. The receiver according to claim 11 , and further comprising a media access control (MAC) device connected between said system controller and a server. 13. The receiver according to claim 11 , and further comprising a wireless network connection between a server and said receiver. 14. The receiver according to claim 11 , and further comprising a wired network connection between a server and said receiver. 15. The receiver according to claim 11 , and further comprising diversity antennas connected to the RF front-end circuits and providing spatial diversity. 16. The receiver according to claim 11 , further comprising: a system controller connected to each processor that configures each respective processor to process the desired signal and obtain message data and signal metrics that are transferred to the system controller to be communicated outbound from the receiver to the server. 17. The receiver of claim 11 , wherein at least one of the plurality of processors configured to capture the desired signal is further configured to capture an ISO 24730 formatted signal, a WiFi formatted signal, or a WiFi at baseband formatted signal. 18. The receiver according to claim 16 , wherein said system controller is operative for controlling signal selection and RF signal based selection of allocated channels. 19. The receiver according to claim 18 , and further comprising a wireless access point connected to said receiver wherein allocated channels are selected for said wireless access point. 20. The receiver according to claim 19 , and further comprising a multiplexer switch connected between said r