Methods and systems for real time RFID locating onboard an aircraft

What is claimed is: 1. An aircraft communications and item tracking system comprising: an RFID reader located at a first fixed location within an aircraft; a communications device located at a second fixed location within the aircraft; and a distributed antenna system comprising: a plurality of antenna units defining a wireless network and distributed throughout the aircraft, said plurality of antenna units respectively configured to: transmit a first radio frequency signal at a transmit power to activate a plurality of passive RFID tags within the aircraft in response to the first radio frequency signal; and receive a second radio frequency signal from at least one of the plurality of passive RFID tags at a receive power; and a wireless distribution system configured to communicatively couple to a wired network of the aircraft, said RFID reader, said communications device, and said plurality of antenna units, and further operable as a gateway for communication between said plurality of antenna units and said RFID reader, said communications device, and the wired network; wherein said RFID reader is configured to utilize physical locations of said plurality of antenna units to enable physical position location mapping of the plurality of passive RFID tags with plus or minus one half meter accuracy. 2. The system according to claim 1 wherein said distributed antenna system comprises respective optical fiber links coupling said plurality of antenna units to said wireless distribution system. 3. The system according to claim 1 wherein said system is configured to utilize the physical locations of said plurality of antenna units to map locations of wireless devices tagged with one or more of the plurality of passive RFID tags to logical network addresses. 4. The system according to claim 1 wherein said plurality of antenna units are disbursed within the aircraft to minimize areas of transmission nulls and increase the receive power throughout the aircraft. 5. The system according to claim 1 wherein said wireless distribution system is further configured for remote integration of onboard wireless data services associated with said communications device over said distributed antenna system, the onboard wireless data services including at least one of a WiFi communications capability and a cellular communications capability. 6. The system according to claim 1 wherein said wireless distribution system comprises an antenna hub, said wireless distribution system operable to interface transmission output from said RFID reader and receiver input to said RFID reader. 7. The system according to claim 1 further comprising: a second plurality of passive RFID tags operable for association with items within a remote section of the aircraft; a remote distributed antenna system controller; and a second plurality of antenna units communicatively coupled to said remote distributed antenna system controller, said remote distributed antenna system controller communicatively coupled to said wireless distribution system, said remote distributed antenna system controller and said second plurality of antenna units operable for transmission and reception of signals associated with said RFID reader and with said second plurality of passive RFID tags. 8. The system according to claim 1 wherein said plurality of antenna units comprises at least one leaky coaxial cable comprising an outer conductor further comprising one or more openings within said outer conductor. 9. A method for tracking items on an aircraft, each item to be tracked associated with at least one passive RFID tag of a plurality of passive RFID tags, said method comprising: transmitting an activation signal for activation of the plurality of passive RFID tags from a stationary RFID reader within the aircraft to a wireless distribution system configured to communicatively couple to a wired network of the aircraft, the stationary RFID reader, a communications device, and a plurality of antenna units, and further operable as a gateway for communication between the plurality of antenna units and the stationary RFID reader, the communications device, and the wired network; routing the activation signal from the wireless distribution system for transmission through the plurality of antenna units distributed throughout the aircraft at a transmit power; routing at least one other communication signal among the communication device and the plurality of antenna units; receiving, via the plurality of antenna units, signals generated by the plurality of passive RFID tags activated by the transmitted activation signal, wherein the signals are received at a receive power; routing the received signals through the wireless distribution system to the stationary RFID reader for interpretation by the stationary RFID reader; and generating a physical position location map of the plurality of passive RFID tags with plus or minus one half meter accuracy based on physical locations of the plurality of antenna units. 10. The method according to claim 9 wherein routing the activation signal from the wireless distribution system to the plurality of antenna units comprises routing the activation signal over respective optical fiber links coupling the plurality of antenna units to the wireless distribution system. 11. The method according to claim 9 further comprising utilizing the physical locations of the plurality of antenna units to map locations of RFID tagged devices to logical network addresses. 12. The method according to claim 9 further comprising disbursing the plurality of antenna units within the aircraft to minimize areas of transmission nulls and increase the receive power of the signals received from the passive RFID tags throughout the aircraft. 13. The method according to claim 9 wherein routing the at least one other communication signal comprises routing at least one of a WiFi communications signal and a cellular communications signal. 14. An aircraft comprising: an RFID reader; a plurality of passive RFID tags distributed throughout said aircraft; a communications device configured to provide a communication service; a wired network; a plurality of antenna units defining a wireless network and distributed throughout the aircraft, said plurality of antenna units respectively configured to: transmit a first radio frequency signal at a transmit power to activate the plurality of passive RFID tags in response to the first radio frequency signal; and receive a second radio frequency signal from at least one of the plurality of passive RFID tags at a receive power; and a wireless distribution system configured to communicatively couple said wired network, said RFID reader, said communications device, and said plurality of antenna units, and further operable as a gateway for communication between said plurality of antenna units and said RFID reader, said communications device, and said wired network; wherein said RFID reader is configured to utilize physical locations of said plurality of antenna units to enable physical position location mapping of the plurality of passive RFID tags with plus or minus one half meter accuracy. 15. The aircraft according to claim 14 wherein said wireless distribution system is operable to modulate a plurality of optical signals received from at least one of said RFID reader, said communications device, and said wired network. 16. The aircraft according to claim 14 wherein said communications device is further configured to provide at least one of WiFi and cellular communications services over said wireles