Presented herein are systems and methods for operating a flight plan based distributed ledger system implemented on an aviation communications network. According to an aspect, data associated with communication transmissions occurring between communications elements of the aviation communications network may be recorded on the distributed ledger system. The communications elements involved in the distributed ledger system may be determined using a received flight plan. The flight plan information may be used to initialize the ledger information at each communications element involved in the distributed ledger system. The distributed ledger system may be updated to add or remove communications elements if the flight deviates from the original flight plan. After the flight plan is executed, the distributed ledger system may inactivate the ledger and store the ledger information in a centralized repository.

In the field of air navigation, a computer-implemented method includes loading an initial active flight plan for an aircraft comprising a first approach procedure to a runway up to a missed approach point ending between the missed approach point and a final point; loading a secondary flight plan comprising an approach procedure to the runway between the missed approach point and the runway, and a second missed approach procedure at the end of the approach, and ending at a second final point; receiving an instruction from an operator of the aircraft to link the initial active flight plan and the secondary flight plan; in the event of a go-around by the operator at the latest at the missed approach point, activating the missed approach procedure; otherwise, automatically selecting the secondary flight plan as active flight plan and activating the second approach.

In the field of air navigation, a computer-implemented method includes loading an initial active flight plan for an aircraft comprising a first approach procedure to a runway up to a missed approach point ending between the missed approach point and a final point; loading a secondary flight plan comprising an approach procedure to the runway between the missed approach point and the runway, and a second missed approach procedure at the end of the approach, and ending at a second final point; receiving an instruction from an operator of the aircraft to link the initial active flight plan and the secondary flight plan; in the event of a go-around by the operator at the latest at the missed approach point, activating the missed approach procedure; otherwise, automatically selecting the secondary flight plan as active flight plan and activating the second approach.

A system for digital communication of a flight maneuver. The system includes a computing device. The computing device is configured to receive at least a flight datum from an aircraft, generate a traffic rendition as a function of the at least a flight datum, identify a flight maneuver as a function of the traffic rendition and a traffic landscape, and transmit the flight maneuver to the aircraft. A method for digital communication of a flight maneuver is also provided.

A system for digital communication of a flight maneuver. The system includes a computing device. The computing device is configured to receive at least a flight datum from an aircraft, generate a traffic rendition as a function of the at least a flight datum, identify a flight maneuver as a function of the traffic rendition and a traffic landscape, and transmit the flight maneuver to the aircraft. A method for digital communication of a flight maneuver is also provided.

A request for transport services that identifies a rider, an origin, and a destination is received from a client device. Eligibility of the request to be serviced by a vertical take-off and landing (VTOL) aircraft is determined based on the origin and the destination. A transportation system determines a first and a second hub for a leg of the transport request serviced by the VTOL aircraft and calculates a set of candidate routes from the first hub to the second hub. A provisioned route is selected from among the set of candidate routes based on network and environmental parameters and objectives including pre-determined acceptable noise levels, weather, and the presence and planned routes of other VTOL aircrafts along each of the candidate routes.

A request for transport services that identifies a rider, an origin, and a destination is received from a client device. Eligibility of the request to be serviced by a vertical take-off and landing (VTOL) aircraft is determined based on the origin and the destination. A transportation system determines a first and a second hub for a leg of the transport request serviced by the VTOL aircraft and calculates a set of candidate routes from the first hub to the second hub. A provisioned route is selected from among the set of candidate routes based on network and environmental parameters and objectives including pre-determined acceptable noise levels, weather, and the presence and planned routes of other VTOL aircrafts along each of the candidate routes.

An audio signal received at audio sensors of an aircraft is analyzed to determine directional information for a source of the audio signal. A location of the source of the audio signal is determined based on the directional information for the source of the audio signal.

An audio signal received at audio sensors of an aircraft is analyzed to determine directional information for a source of the audio signal. A location of the source of the audio signal is determined based on the directional information for the source of the audio signal.

Provided is the method for managing a battery according to a flight plan using operation status information including takeoff and landing of an aircraft. The method includes a step of calculating a battery consumption amount consumed during movement to a destination according to the flight plan and obtaining a flight plan based on the battery consumption amount and the current remaining battery amount of the aircraft; a step of generating a modified flight plan by modifying the flight plan based on aircraft movement information including vertical movement and horizontal movement rates of the aircraft; and a step of determining the modified flight plan as a final flight plan.