A passenger seat comprises a carrier structure, a backrest and a seat element displaceably fastened to the carrier structure, relative to the backrest, in a depth direction of a seating surface of the seat element between a usable position and an out-of-use position. In the usable position, the seat element is arranged, relative to the backrest, so that a front edge of the seat element that faces away from the backrest is arranged at a first distance from a backrest surface of the backrest. In the out-of-use position, the seat element is received, at least partially, in a gap provided between a part of the carrier structure carrying the seat element and an edge of the backrest facing towards the seat element, the front edge of the seat element being arranged at a second, smaller distance from the backrest surface of the backrest than the first distance.

A passenger seat comprises a carrier structure, a backrest and a seat element displaceably fastened to the carrier structure, relative to the backrest, in a depth direction of a seating surface of the seat element between a usable position and an out-of-use position. In the usable position, the seat element is arranged, relative to the backrest, so that a front edge of the seat element that faces away from the backrest is arranged at a first distance from a backrest surface of the backrest. In the out-of-use position, the seat element is received, at least partially, in a gap provided between a part of the carrier structure carrying the seat element and an edge of the backrest facing towards the seat element, the front edge of the seat element being arranged at a second, smaller distance from the backrest surface of the backrest than the first distance.

A holding assembly for holding portable electronic devices increases passenger convenience and comfort. The holding assembly comprises a plurality of independently movable planar members that engage one or more portable electronic devices to hold the portable electronic devices. The planar members may each be moved between a first position and a second position. A portion of the holding assembly may be received within an open portion of a planar member to provide a low-profile geometry. The holding assembly may be opened to hold a portable electronic device and closed when not in use in this manner.

Described is a passenger seat (100) having a support (200) for holding a portable electronic device (106) coupled to a seat back (102) of the passenger seat (100). The support (200) includes an upper support (202) having an extendable portion (206) that extends from a housing (204) of the upper support (202), and a lower support (208) coupled to an end of the extendable portion (206). The extendable portion (206) has a retracted position, wherein the extendable portion (206) is located within the housing (204), and an extended position, wherein the extendable portion (206) is disposed outside of the housing (204) such that a passenger can place a portable electronic device (106) within the support (200).

A lighting assembly for an aircraft includes a visible light source generating visible light and an ultraviolet light source generating ultraviolet light. The visible light source is disposed adjacent to the ultraviolet light source. The visible light source illuminates a first illumination area with the visible light when the lighting assembly operates in a first operation mode. The ultraviolet light source illuminates a second illumination area with the ultraviolet light when the lighting assembly operates in a second mode of operation. The first illumination area substantially overlaps the second illumination area.

A lighting assembly for an aircraft includes a visible light source generating visible light and an ultraviolet light source generating ultraviolet light. The visible light source is disposed adjacent to the ultraviolet light source. The visible light source illuminates a first illumination area with the visible light when the lighting assembly operates in a first operation mode. The ultraviolet light source illuminates a second illumination area with the ultraviolet light when the lighting assembly operates in a second mode of operation. The first illumination area substantially overlaps the second illumination area.

An illuminated aircraft passenger cabin gasper comprises an air outlet for outputting a flow of air into an aircraft passenger cabin and an air guide, movably arranged within the air outlet for adjusting the flow of air that includes a light guide. The gasper also includes at least one light source, arranged adjacent to the light guide for coupling light into the light guide. The light guide has a light output surface for coupling light out of the light guide into the aircraft passenger cabin.

The present disclosure provides system for sealing a refrigerated galley of an aircraft. The system includes a door, and a seal assembly positioned at a bottom surface of the door. The seal assembly includes (i) a housing coupled to the bottom surface of the door, (ii) a seal positioned at least partially in the housing, wherein the seal is moveable relative to the housing and the door, (iii) a biasing mechanism coupled to the housing and the seal and configured to hold the seal in a relaxed state by applying a biasing force to the seal in a direction away from a floor surface of the refrigerated galley, and (iv) an activation mechanism coupled to the housing. The activation mechanism is configured to transition the seal from the relaxed state to a compressed state in response to a rotation of the door from an open position to a closed position.

Methods and systems for a transportation vehicle are provided. One method includes initializing a first browser at an electronic device to communicate with a remote virtual loader having access to data for an in-flight entertainment (IFE) system of an aircraft; authenticating the first browser by the remote virtual loader; providing IFE data for the IFE system to the first browser by the remote virtual loader with an instruction to grant access to the IFE data by a second browser of the electronic device, the second browser authenticated by the IFE system to send information to the IFE system; and transferring the IFE data from the electronic device to the IFE system by the second browser that obtains access to the IFE data from the first browser in response to the instruction from the remote virtual loader.

A portable retainer for securing personal electronic devices on the backs of seats is provided. The portable retainer provides a core having communicating wire holes adjacent each end of thereof, through which an elastic wire protrudes for either hanging from a seatback in an upright hanging position or being supported in a pocket of the seatback in an inverted propped up position. The portable retainer provides front and rear endplates that are peripherally broader than the core for facilitating winding the elastic wire about the core in a stored position. The endplates may provide a slot for magnets, to which anchor plates can removably attach to a desired electronic device in either the hanging or the propped-up positions for viewing the anchored electronic device from selective angles and height, due in part to the rigidly malleable elastic wire.