Airport surface monitoring system with wireless network interface to aircraft surface navigation system

What is claimed is: 1 . A method comprising: receiving, by a processing device, data front one or more airport ground surface sensors configured to detect transient surface objects on an airport ground surface; generating, by the processing device, information about one or more transient surface objects on an airport ground surface based at least in part on the data front the one or more airport ground surface sensors; and outputting the information about the one or more transient surface objects to a wireless router for transmission over a wireless local area network. 2 . The method of claim 1 , wherein generating the information about the one or more transient surface objects comprises generating position and velocity information for the one or more transient surface objects, the method further comprising: determining, based on the position and velocity information for the one or more transient surface objects on the airport ground surface, whether two or more of the transient surface objects pose a potential collision hazard; and in response to determining that two or more of the transient surface objects pose a potential collision hazard, outputting an indication of the potential collision hazard to the wireless router. 3 . The method of claim 2 , wherein determining, based on the position and velocity information for the one or more transient surface objects on the airport ground surface, whether two or more of the transient surface objects pose a potential collision hazard further comprises: determining an alert envelope around each of one or more of the transient surface objects based at least in part on the position and velocity information for the one or more transient surface objects on the airport ground surface. 4 . The method of claim 2 , wherein determining, based on the position and velocity information for the one or more transient surface objects on the airport ground surface, whether two or more of the transient surface objects pose a potential collision hazard further comprises: comparing the position and velocity information for e two or more of e transient surface objects. 5 . The method of claim 2 , wherein determining, based on the position and velocity information for the one or more transient surface objects on the airport ground surface, whether two or more of the transient surface objects pose a potential collision hazard further comprises: determining an initial potential collision hazard candidate between the two or more of the transient surface objects; and determining whether the initial potential collision hazard candidate is a false alarm hazard candidate or a confirmed potential collision hazard. 6 . The method of claim 2 , further comprising: identifying a particular aircraft receiving the position and velocity information for the one or more transient surface objects over the wireless local area network as one of the transient surface objects that pose the potential collision hazard; and outputting a warning indication of the potential collision hazard to the particular aircraft. 7 . The method of claim 1 , wherein receiving the data from the one or more airport ground surface sensors comprises receiving multilateration data from two or more multilateration sensors in a vicinity of the airport, wherein the method further comprises: receiving, by the processing device, multilateration reference data from a reference transmitter, and wherein generating the information about the one or more transient surface objects on the airport ground surface based at least in part on the data from the one or more airport ground surface sensors comprises: generating, by the processing device, the information about the one or more transient surface objects based on the multilateration data from the two or more multilateration sensors and based on the multilateration reference data from the reference transmitter. 8 . The method of claim 1 , wherein the one or more airport ground surface sensors comprise Automatic Dependent Surveillance—Broadcast (ADS-B) transceivers configured to receive ADS-B messages from aircraft on the airport ground surface in response to the ADS-B interrogation signals. 9 . The method of claim 1 , wherein the one or more airport ground surface sensors are comprised in an Airport Surface Detection Equipment, Model X (ASDE-X) System or an Advanced Surface Movement Guidance and Control System (A-SMGCS), 10 . The method of claim 1 , wherein receiving the data from the one or more airport ground surface sensors comprises receiving data from one or more sensors selected from among: surface movement radar (SMR) transceivers, microwave sensors, optical imaging sensors, ultrasonic sensors, lidar transceivers, infrared sensors, and magnetic sensors. 11 . The method of claim 1 , further comprising: configuring the information about the one or more transient surface objects to be graphically rendered on a ground navigation application implemented by an aircraft system, prior to outputting the information about the one or more transient surface objects to the wireless router for transmission over the wireless local area network, wherein configuring the information about the one or more transient surface objects to be graphically rendered on the ground navigation application implemented by the aircraft system comprises configuring position and velocity information for the one or more transient surface objects to be graphically rendered on an airport moving map display application executed on an electronic flight bag (EFB). 12 . The method of claim 1 , wherein outputting the information about the one or more transient surface objects to the wireless router for transmission over the wireless local area network comprises outputting the information about the one or more transient surface objects to the wireless router for transmission over an extended range Wi-Fi network, the method further comprising: establishing a secure wireless communication channel with an aircraft system of a particular aircraft among the one or more transient surface objects over the wireless local area network; and transmitting the information about the one or more transient surface objects over the secure wireless communication channel over the extended range Wi-Fi network to an aircraft system of a particular aircraft. 13 . A computer program product configured to cause a computing device to: generate airport ground surface navigation outputs based on incoming data for a particular aircraft on an airport ground surface; receive position and velocity information for one or more transient surface objects on the airport ground surface over a wireless local area network; and add outputs based on the position and velocity information for the one or more transient surface objects to the airport ground surface navigation outputs. 14 . The computer program product of claim 13 , wherein being configured to cause the computing device to generate the airport ground surface navigation outputs comprises being configured to cause the computing device to generate an airport moving map display on an electronic flight bag (EFB) application, and wherein being configured to cause the computing device to add the outputs based on the position and velocity information for the one or more transient surface objects to the airport ground surface navigation outputs comprises being configured to cause the computing device to graphically render a visual representation in the airport moving map display based on the position and velocity information for the one or more transient surface objects.