An air-taxi pod system floats on a lake, river, sea, etc. and has a spoke connected between a base and an air pod. The pod is configured as a landing region for air taxi within larger metropolitan cities. Each of the spoke, base, and pod use a hull section to provide the buoyancy necessary for each of these components to float. In some versions, two or more, such as six spokes sit around a base connected to the base with connections that can withstand heavy storms. An air pod or separately an air-ship pod connect to some of the spokes at second ends of the spokes with a similar connection. The system can also have terminals or terminal buildings to facilitate travel or commuting.

A gangway for a multi-car vehicle, the gangway comprising a bellows and an endframe, the bellows being attached to the endframe, wherein a crimping element is attached to the endframe, the crimping element having a crimping mouth, wherein a part of the bellows is inserted into the crimping mouth and held inside the crimping mouth, wherein the crimping mouth is defined by two sidewalls arranged next to each other and joined together at one of their ends by a bottom wall, wherein respective opposite ends of the two sidewalls are not joined together to provide an opening of the crimping mouth, and wherein the crimping mouth is designed to cause the part of the bellows that is held inside the crimping mouth to be pinched together by means of a pinching effect, the crimping element formed of a material having spring properties such that one of the two side walls can be moved away from the other one of the two side walls only by means of tensioning the two side walls against a restoring force provided by the spring properties of the crimping element.

An aerial vehicle has a passenger cabin for receiving at least one passenger, a load-bearing structure beneath the cabin, and a propulsion system including a number of propulsion units, which propel the aerial vehicle for powered flight and vertical take-off and landing (VTOL). The propulsion units are preferably carried by support arms attached to the load-bearing structure and extending upwards therefrom so as to support the propulsion units at a level above the cabin. The aerial vehicle is preferably reconfigurable to a compact configuration after landing, with at least some of the propulsion units overlapping the cabin and/or each other, while still allowing passenger transfer in and out of the vehicle, thereby facilitating efficient use of space for implementing a vertiport.

An aerial vehicle has a passenger cabin for receiving at least one passenger, a load-bearing structure beneath the cabin, and a propulsion system including a number of propulsion units, which propel the aerial vehicle for powered flight and vertical take-off and landing (VTOL). The propulsion units are preferably carried by support arms attached to the load-bearing structure and extending upwards therefrom so as to support the propulsion units at a level above the cabin. The aerial vehicle is preferably reconfigurable to a compact configuration after landing, with at least some of the propulsion units overlapping the cabin and/or each other, while still allowing passenger transfer in and out of the vehicle, thereby facilitating efficient use of space for implementing a vertiport.

A material web for a bellows of a gangway between two articulately connected vehicles or a material web for a canopy roof of an air passenger bridge or air passenger stair has at least one reinforcement layer and an elastomer coating on each side of the reinforcement layer. The reinforcement layer is a nonwoven material and an adhesion-promoting layer is disposed between the nonwoven material and the elastomer coatings.

An access device to an aircraft, bus or building. The access device having a loading surface connected to a vehicle, wherein a protective device for passengers is arranged on the loading surface.

An airplane passenger transport system that includes an airplane and a first passenger module. The first passenger module is removably positionable in the airplane. The first passenger module is adapted to transport at least one person in an at least partially enclosed configuration. The first passenger module includes at least one of a seat and a bed for the at least one person can sit while being transported in the airplane.

An airplane passenger transport system that includes an airplane and a first passenger module. The first passenger module is removably positionable in the airplane. The first passenger module is adapted to transport at least one person in an at least partially enclosed configuration. The first passenger module includes at least one of a seat and a bed for the at least one person can sit while being transported in the airplane.

Anti-collision airport system including a motorized mobile device to be moved close to an aircraft. The system includes a database to record structural characteristics of categories of aircraft and structural characteristics of the motorized mobile device. The controller is configured to identify a category corresponding to the aircraft and a positioning of the motorized mobile device with respect to the aircraft, search and retrieve, from the database, structural characteristics associated with the category corresponding to the aircraft and structural characteristics of the motorized device, calculate a trajectory for the movement of the motorized mobile device on the basis of the structural characteristics of the aircraft and of the motorized mobile device and of the positioning of the motorized mobile device with respect to the aircraft, and control the motorized mobile device according to the calculated trajectory.

A public transportation system combines a unique combination of components that includes interoperable electric-powered vehicles, facilities, hardware and software having specifications, standards, processes, capabilities, nomenclature, and concepts of operations that together include a concerted, comprehensive, multi-modal, future system for moving people and goods that is herein named Quiet Urban Air Delivery (QUAD) and in which uniquely-capable, ultra-quiet, one to six-seat, electrically-powered, autonomous aircraft (SkyQarts) fly sub-193 kilometer trips on precise trajectories with negligible control latency and perform extremely short take-offs and landings (ESTOL) with curved traffic patterns at a highly-distributed network of very small, airports (“SkyNests”) that themselves have standardized compatible facilities that interoperate with SkyQarts as well as with versatile, autonomous electric-powered payload carts (EPCs) and robotic delivery carts (RDCs) to provide safe, fast, on-demand, community-acceptable, environmentally friendly, high-capacity, affordable door-to-door delivery of both passengers and cargo across urban, suburban and rural settings across the globe.