A system and method for controlling movement of a seat in a vehicle includes a lower seat assembly and an upper seat assembly adjustable relative to the lower seat assembly. An actuator assembly pivotally attached between the lower seat assembly and upper seat assembly selectively adjusts the upper seat assembly relative to the lower seat assembly between at least one upright position and at least one folded position. A control unit selectively actuates a motor and the actuator assembly to control movement of the upper seat assembly relative to the lower seat assembly. The control unit adjusts the position of the actuator assembly to releasably secure the motor in response to the position value detected by a sensor assembly to place the upper seat assembly in position relative to the lower seat assembly.

A system for changing rear seat positions in a vehicle between deployed and folded configurations. The system comprises means to effect the steps of initiating a movement of the rear seating and, after initiation, moving the front seat so that collision between the seating is avoided. The front seat is returned to its previous position, or as near as possible thereto, afterwards. The system includes means to detect the position of the seating and to calculate whether a collision will occur, and automatically to effect the requisite movements of the front seating to avoid the collision.

A headrest (1) for a vehicle has a headrest body (1.1). The headrest body (1.1) has a substantially C-shaped cross section. A holder (5), for holding at least one object (3), is arranged inside a hollow space (H) enclosed by the C-shaped cross section. The holder (5) is integral with the headrest body (1.1) and is formed by a molded portion, or several molded portions, of the headrest body (1.1), and/or by at least one mechanically flexible portion of the headrest body (1.1). The headrest body (1.1) is thereby configured such that the object (3) can be retained by a clamping between the limbs of the C-shaped cross section.

A headrest assembly includes a front surface and a frame member disposed within an interior of the headrest bun. First and second hinge members are coupled to opposite sides of the frame member and first and second side supports are operably coupled to the first and second hinge members, such that the first and second side supports are independently operable between stowed and extended positions relative to the headrest bun. The first and second side supports extended outwardly from the front surface of the headrest bun in the extended position, and the friction hinges are tuned to move the first and second side supports towards the stowed position when the first and second side supports are contacted by a vehicle occupant during a vehicle impact event.

Apparatus and associated methods relate to an adjustable passenger seat headrest which includes articulating side wings, provides a more acute angle of support, and fits the width of a standard economy seat when stowed. In some embodiments, fabric may be stretched across the extreme ends of the wings to a center headrest, forming a hammock in which a passenger may rest their head. In an illustrative example, passengers may be provided with improved head support and comfort by employment of a mechanism that enables the side wings of the headrest to be articulated further apart, and/or extend out further from the back of the seat. These features may offer a more acute angle of passenger head support.

Method for controlling a vehicle including a smartphone-engaging coupling element. Data about operational status of the vehicle is transferred from one or more vehicle-resident systems to a smartphone when the smartphone is engaged with the coupling element. Commands are received by the vehicle from the smartphone when the smartphone is engaged with the coupling element, which commands being based in part on data previously transferred from the vehicle-resident system(s) to the smartphone when the smartphone is engaged with the coupling element. A vehicular system, e.g., seat positioning system, mirror positioning system, passenger compartment temperature control system, route guidance or navigation system, changes its operation in accordance with the commands received by the vehicle from the smartphone when the smartphone is engaged with the coupling element.

A seat headrest having a side cushion and a mounting mechanism for use in conjunction with existing, standard airplane seat headrests. The seat headrest has an adjustable side cushion to provide head and neck support by serving as headrests on the side of a user's head. The user may be any individual in a passenger airplane.

A headrest assembly for a vehicle seat. The headrest assembly includes a support bracket having a first engagement section and a moveable bracket movable between first and second positions. The headrest assembly further includes a pawl defining a cam surface. The pawl has a second engagement section and is pivotable between an engaged position, with the second engagement section engaging the first engagement section, and a disengaged position, with the second engagement section spaced from the first engagement section. The headrest assembly further includes a first tab selectively engaging and guiding the pawl into the engaged position, and a second tab selectively engaging and guiding the pawl into the disengaged position as the moveable bracket moves between the first and second positions. The headrest assembly further includes a biasing member engaging the cam surface to continuously bias the pawl into both of the engaged and disengaged positions.

A vehicle headrest includes a passive directional acoustic device. The passive directional acoustic device includes an acoustic driver, a pipe acoustically coupled to the acoustic driver. The pipe includes an elongated opening along at least a portion of the length of the pipe through which acoustic energy is radiated to the environment. The radiation is characterized by a volume velocity. The pipe and the opening are configured so that the magnitude of the volume velocity is substantially constant along the length of the pipe.

A personal support apparatus includes a frame having an inner surface for supporting a forehead of a user while seated in a forward-leaning position. The frame has a hollow central region to receive the user's face when the user is seated in the forward-leaning position. A pair of cheek support bodies are disposed on the inner surface of the frame. The apparatus also includes a stand having a recess in a first end to receive a portion of the frame such that a position of the frame is adjustable within the recess to set a height of the frame with respect to the user. A chest support is disposed on the stand. A base is attached to the second end of the stand.