A radio resource management system in communication with multiple airport communication systems located at different airports is described. The radio resource management system receives a request to transfer data from an aircraft communication system within an aircraft to an airport communication system of the multiple ground communication systems. The radio resource management system determines an availability of radio resources at each airport communication system of the multiple airport communication systems based on the request. The radio resource management system selects an airport communication system from the multiple airport communication systems to transfer the data based on the determined availability of radio resources at the airport communication system. The radio resource management system reserves an amount of radio resources of the selected airport communication system of the multiple airport communication systems for the aircraft communication system to transfer the data.

A radio resource management system in communication with multiple airport communication systems located at different airports is described. The radio resource management system receives a request to transfer data from an aircraft communication system within an aircraft to an airport communication system of the multiple ground communication systems. The radio resource management system determines an availability of radio resources at each airport communication system of the multiple airport communication systems based on the request. The radio resource management system selects an airport communication system from the multiple airport communication systems to transfer the data based on the determined availability of radio resources at the airport communication system. The radio resource management system reserves an amount of radio resources of the selected airport communication system of the multiple airport communication systems for the aircraft communication system to transfer the data.

Autonomous vehicles may be dynamically directed to rendezvous with autonomous vehicle trains or convoys. Current location and/or route information of the Autonomous Vehicle Train (AVT) may be received by an autonomous vehicle. The autonomous vehicle may compare its current location and/or route information to determine a rendezvous point with the AVT. The autonomous vehicle may route itself to the rendezvous point with the AVT. Once there, the autonomous vehicle may verify the identification of the AVT, such as by using sensors/cameras to verifying a lead vehicle of the AVT (e.g., by verifying make/model, color, and/or license plate). The autonomous vehicle and lead vehicle may communicate to allow the autonomous vehicle to join the AVT. A minimum level of autonomous vehicle functionality may be verified prior to the autonomous vehicle being allowed to join the AVT. As a result, vehicle traffic flow and travel experience by passengers may be enhanced.

Autonomous vehicles may be dynamically directed to rendezvous with autonomous vehicle trains or convoys. Current location and/or route information of the Autonomous Vehicle Train (AVT) may be received by an autonomous vehicle. The autonomous vehicle may compare its current location and/or route information to determine a rendezvous point with the AVT. The autonomous vehicle may route itself to the rendezvous point with the AVT. Once there, the autonomous vehicle may verify the identification of the AVT, such as by using sensors/cameras to verifying a lead vehicle of the AVT (e.g., by verifying make/model, color, and/or license plate). The autonomous vehicle and lead vehicle may communicate to allow the autonomous vehicle to join the AVT. A minimum level of autonomous vehicle functionality may be verified prior to the autonomous vehicle being allowed to join the AVT. As a result, vehicle traffic flow and travel experience by passengers may be enhanced.

A method for establishing a wireless data connection between a vehicle and an external unit. The method for establishing the wireless data connection between the vehicle and the external unit has the vehicle check whether at least one condition from among one or more predefined conditions for establishing a connection has or have been fulfilled. Depending on the result of the check, the vehicle establishes a wireless data connection to the external unit, for data transmission.

A method for establishing a wireless data connection between a vehicle and an external unit. The method for establishing the wireless data connection between the vehicle and the external unit has the vehicle check whether at least one condition from among one or more predefined conditions for establishing a connection has or have been fulfilled. Depending on the result of the check, the vehicle establishes a wireless data connection to the external unit, for data transmission.

An unmanned aerial vehicle (UAV) system for maintaining roadway personnel safety includes a monitoring device configured to be worn by a user and to provide a notification, a UAV including a sensor configured to sense a signal indicating a railway condition and/or a railway event, and a ground station configured to house the UAV when the UAV is not in use. The ground station is further configured to be mounted on a train or vehicle. The system further includes a processor and a memory that contains instructions, which, when executed by the processor, cause the system to selectively deploy the UAV from the ground station when the ground station is supported on the train or the vehicle, receive the signal from the sensor, detect the railway condition and/or the railway event based on the received signal, and transmit the notification to the monitoring device based on the based on the sensed signal.

An unmanned aerial vehicle (UAV) system for maintaining roadway personnel safety includes a monitoring device configured to be worn by a user and to provide a notification, a UAV including a sensor configured to sense a signal indicating a railway condition and/or a railway event, and a ground station configured to house the UAV when the UAV is not in use. The ground station is further configured to be mounted on a train or vehicle. The system further includes a processor and a memory that contains instructions, which, when executed by the processor, cause the system to selectively deploy the UAV from the ground station when the ground station is supported on the train or the vehicle, receive the signal from the sensor, detect the railway condition and/or the railway event based on the received signal, and transmit the notification to the monitoring device based on the based on the sensed signal.

There are provided systems and methods for wireless beacon devices for use in tracking user locations during group travel. A user may take a trip on a vehicle, such as a bus, train, cruise ship, or other large travel vehicle. The users may disembark the vehicle in order to visit a location but plan to travel further on the vehicle. Thus, when the vehicle is attempting to leave the location where the users have left the vehicle, the vehicle may be required to again account for each passenger. The vehicle may utilize a wireless beacon located near an entrance and/or onboard the vehicle to account for each passenger. The wireless beacon may connect to a communication device of each user when the communication device is in proximity to the wireless beacon and, thus, inform the vehicle's operator that each user in located on the vehicle.

There are provided systems and methods for wireless beacon devices for use in tracking user locations during group travel. A user may take a trip on a vehicle, such as a bus, train, cruise ship, or other large travel vehicle. The users may disembark the vehicle in order to visit a location but plan to travel further on the vehicle. Thus, when the vehicle is attempting to leave the location where the users have left the vehicle, the vehicle may be required to again account for each passenger. The vehicle may utilize a wireless beacon located near an entrance and/or onboard the vehicle to account for each passenger. The wireless beacon may connect to a communication device of each user when the communication device is in proximity to the wireless beacon and, thus, inform the vehicle's operator that each user in located on the vehicle.