In one embodiment, one or more suspension systems of a vehicle may be used to mitigate motion sickness by limiting motion in one or more frequency ranges. In another embodiment, an active suspension may be integrated with an autonomous vehicle architecture. In yet another embodiment, the active suspension system of a vehicle may be used to induce motion in a vehicle. The vehicle may be used as a testbed for technical investigations and/or as a platform to enhance the enjoyment of video and/or audio by vehicle occupants. In some embodiments, the active suspensions system may be used to perform gestures as a means of communication with persons inside or outside the vehicle. In some embodiments, the active suspensions system may be used to generate haptic warnings to a vehicle operator or other persons in response to certain road situations.

A device for adjusting a seat of a vehicle is capable of implementing functions including adjusting a position of the seat back and forth, a height of the seat up and down, and tilting or the like by using a plurality of actuators having pistons. The functions of adjusting the position of the seat back and forth, the height of the seat up and down, and tilting or the like are carried out by providing connections between a floor panel and a seat cushion frame through a plurality of actuators and a single link, and selectively moving a piston of each actuator back and forth.

A seat structure, particularly for a vehicle, that includes a seatback structure and a seat frame. The seatback structure includes a seatback frame and a plurality of seatback support members. The seatback support members are connected to the seatback frame. The seatback structure is connected to the seat frame.

Various seating arrangements for a vehicle are described. Generally, the vehicle includes an electromagnetic array featured on a floor of the vehicle. The chair includes base having a plurality of magnets featured thereon. The vehicle generates signals for the electromagnetic array to generate a wave and impart a force on the chair in a determined direction via the plurality of magnets.

The invention relates to a suspension system (1), preferably a driver seat (1), comprising a first suspension part (10), preferably a frame (10) of the driver seat (1); a second suspension part (11), preferably a seat surface (11) of the driver seat (1), wherein the two suspension parts (10, 11) are movable relative to each other in at least one first spatial direction (Z), preferably in the vertical direction (Z); a kinematic system (12), preferably a scissor kinematic system (12) which is designed to connect the two suspension parts (10, 11) in a movable manner relative to each other at least in the first spatial direction (Z); a suspension device (13) which is designed to support the static load of the second suspension part (11); and an actuator (2) which is designed to introduce a force bidirectionally between the two suspension parts (10, 11) and thereby actively damp the relative movement between the two suspension parts (10, 11). The suspension system (1) is characterized in that the actuator (2) has a bearing (28), preferably a ball bearing (28), which is arranged within the power flow between the two suspension parts (10, 11) such that an axial load can be kept away from the driven axle of the actuator (2) at least partly, preferably completely.

The invention relates to a system for representing vibrations for a vehicle, comprising a vehicle seat with an upper part and a lower part, which are mounted movably relative to each other by means of a vibration device, wherein at least a first sensor, which is adapted to detect at least one first characteristic of a first acceleration of the upper part relative to the lower part, is arranged on the upper part, and wherein at least one second sensor, which is adapted to detect at least one second characteristic of a second acceleration of the lower part relative to a subsurface of the vehicle, is arranged on the lower part, wherein a display device is arranged with a first section and a second section, in each case exhibiting a complete division into at least two, preferably three segments, wherein the size ratios of the at least two segments to one another can be updated depending on a current value of the at least one first characteristic or the at least one second characteristic.

The invention relates to an operating device for adjusting seat parameters of a seat, in particular of a vehicle seat, wherein the operating device comprises at least one multifunction operating element having at least one selection element, by means of which at least two operating levels are selectable, wherein the multifunction operating element is movable in at least five switching directions, wherein each switching direction can be assigned to a specific function, which belongs to the selected operating level and changes a seat parameter.

An adjustable firmness seat suspension includes a seat frame, first and second spring members, and an intermediate tensioning member. The seat frame includes a first frame member and a second frame member spaced apart from and opposite one another. The first spring member is attached to the first frame member, the second spring member is attached to the second frame member, and the intermediate tensioning member is attached to and extends between the first spring member and the second spring member. The intermediate tensioning member is formed from a shape memory alloy (SMA) having a first length that provides a first spring tension of the seat suspension through the first and second spring members, and configured to alter its length to a second length that provides a second spring tension of the seat suspension through the first and second spring members in response to application of a tensioning signal thereto.

An adjustable firmness seat suspension includes a seat frame, first and second spring members, and an intermediate tensioning member. The seat frame includes a first frame member and a second frame member spaced apart from and opposite one another. The first spring member is attached to the first frame member, the second spring member is attached to the second frame member, and the intermediate tensioning member is attached to and extends between the first spring member and the second spring member. The intermediate tensioning member is formed from a shape memory alloy (SMA) having a first length that provides a first spring tension of the seat suspension through the first and second spring members, and configured to alter its length to a second length that provides a second spring tension of the seat suspension through the first and second spring members in response to application of a tensioning signal thereto.

System and methods for nullifying one or more of lateral and longitudinal acceleration forces experienced by an occupant of a vehicle in a seated or standing position while the vehicle is traveling along a travel plane, including: a chassis structure; an occupant cell one of coupled to and defined by the chassis structure; and one or more of a seat assembly configured to receive the occupant in a seated position and a standing platform assembly configured to receive the occupant in a standing position disposed within the occupant cell; wherein the one or more of the seat assembly and the standing platform assembly is/are configured to pivot one or more of: laterally at a longitudinal pivot point with respect to the chassis and travel plane; and longitudinally at a transverse pivot point with respect to the chassis and travel plane.