In one example embodiment, a computer-implemented method for managing available capacity at a location for receiving an asset includes obtaining data indicative of one or more first assets that will arrive at a first location within a first transfer hub at an arrival time, the one or more first assets being associated with a first service provider. The method includes determining an available capacity at the first location within the first transfer hub for receiving the one or more first assets at the arrival time. The method includes moving one or more second assets positioned at the first location to a second location within the first transfer hub to increase the available capacity at the first location for receiving the one or more first assets at the arrival time.

Disclosed herein is a schematic of a transportation system for hybrid vehicles, in accordance with some embodiments. Accordingly, the transportation system may include pillars and a raised pathway. Further, the pillars configured to be vertically mounted on the ground. Further, a first pillar of the pillars may include a first lower portion and a first upper portion. Further, a second pillar of the pillars may include a second lower portion and a second upper portion. Further, the raised pathway supported by the pillars. Further, a raised pathway of the raised pathway may include a first end and a second end. Further, the first end may be supported by the first upper portion of the first pillar. Further, the second end may be supported by the second upper portion of the second pillar. Further, the raised pathway may include a raised transportation surface configured to facilitate transportation of a hybrid vehicle.

Disclosed herein is a schematic of a transportation system for hybrid vehicles, in accordance with some embodiments. Accordingly, the transportation system may include pillars and a raised pathway. Further, the pillars configured to be vertically mounted on the ground. Further, a first pillar of the pillars may include a first lower portion and a first upper portion. Further, a second pillar of the pillars may include a second lower portion and a second upper portion. Further, the raised pathway supported by the pillars. Further, a raised pathway of the raised pathway may include a first end and a second end. Further, the first end may be supported by the first upper portion of the first pillar. Further, the second end may be supported by the second upper portion of the second pillar. Further, the raised pathway may include a raised transportation surface configured to facilitate transportation of a hybrid vehicle.

A system for assisting a maneuver of a moving object is provided. The system includes a plurality of unmanned aerial vehicles, and a computing device comprising a controller configured to: identify a maneuver location of the moving object based on location information associated with the moving object, determine one or more unmanned aerial vehicles among the plurality of unmanned aerial vehicles based on a proximity of the maneuver location and the plurality of unmanned aerial vehicles, dispatch the one or more unmanned aerial vehicles to the maneuver location, and transmit an instruction signal to the one or more unmanned aerial vehicles, wherein the instruction signal causes the one or more unmanned aerial vehicles to generate an indication configured to assist one or more vehicles approaching the maneuver location.

A system to acquire and track vehicles travelling in airspace, sea and land via a constellation of satellites. The system includes: (a) means for detecting a first signal from a vehicle; (b) a process for detecting anomaly from the first signal and determining whether it occurs inside or outside a first radar mode coverage area; (c) means for detecting a second signal from the vehicle under a first radar mode if the anomaly occurs inside its coverage area; (d) means for detecting a third signal from the vehicle under a second radar mode if the anomaly occurs outside the first radar mode coverage area; and (e) means for (i) refining the second or third signal from the vehicle under a third radar mode, such that the first, second, third and fourth detecting means are sequentially activated to detect the first, second and third signals by each satellite.

A system to acquire and track vehicles travelling in airspace, sea and land via a constellation of satellites. The system includes: (a) means for detecting a first signal from a vehicle; (b) a process for detecting anomaly from the first signal and determining whether it occurs inside or outside a first radar mode coverage area; (c) means for detecting a second signal from the vehicle under a first radar mode if the anomaly occurs inside its coverage area; (d) means for detecting a third signal from the vehicle under a second radar mode if the anomaly occurs outside the first radar mode coverage area; and (e) means for (i) refining the second or third signal from the vehicle under a third radar mode, such that the first, second, third and fourth detecting means are sequentially activated to detect the first, second and third signals by each satellite.

Systems and methods for improving aerial ride quality based on user feedback accessed from an aerial vehicle and devices associated with passengers are provided. A network system receives, from one or more devices associated with a passenger on an aerial vehicle, feedback data regarding a flight, whereby the feedback data is associated with an issue experienced by the passenger. The network system then identifies a root cause of the issue experienced by the passenger on the aerial vehicle. The identifying may include correlating the feedback data with other data associated with the flight. A mitigation action to mitigate the issue is determined. The network system may determine whether to trigger the mitigation action based on a corresponding threshold and can trigger the mitigation action to occur accordingly.

A congestion management apparatus includes a memory configured to store, on a per-action-option basis, upper limits on numbers of users allowed to be guided to action options, and a processor coupled to the memory and configured to: generate the action options by time slot for a user; calculate for each of the generated action options, choice probabilities of the action options with respect to the user, and store the calculated choice probabilities in the memory; and calculate for each of the action options, estimated numbers of previous users assumed to have selected the action options, based on choice probabilities of each of the action options with respect to the previous users, the choice probabilities being obtained from the memory, wherein the processor is configured to extract, based on the upper limits and the estimated numbers for the action options, action options to be presented to the user.

A congestion management apparatus includes a memory configured to store, on a per-action-option basis, upper limits on numbers of users allowed to be guided to action options, and a processor coupled to the memory and configured to: generate the action options by time slot for a user; calculate for each of the generated action options, choice probabilities of the action options with respect to the user, and store the calculated choice probabilities in the memory; and calculate for each of the action options, estimated numbers of previous users assumed to have selected the action options, based on choice probabilities of each of the action options with respect to the previous users, the choice probabilities being obtained from the memory, wherein the processor is configured to extract, based on the upper limits and the estimated numbers for the action options, action options to be presented to the user.

In one example embodiment, a computer-implemented method for managing available capacity at a location for receiving an asset includes obtaining data indicative of one or more first assets that will arrive at a first location within a first transfer hub at an arrival time, the one or more first assets being associated with a first service provider. The method includes determining an available capacity at the first location within the first transfer hub for receiving the one or more first assets at the arrival time. The method includes moving one or more second assets positioned at the first location to a second location within the first transfer hub to increase the available capacity at the first location for receiving the one or more first assets at the arrival time.