Various embodiments of the present technology may comprise a method and apparatus for a space-saving suspension system. In various embodiments, the apparatus may comprise a fine suspension device, a coarse suspension device, and a mechanical assembly. In various embodiments, the fine suspension device is arranged at an angle greater than zero degrees from the z-axis. In various embodiments, the mechanical assembly is coupled to the fine suspension device and a payload, such that when a force is exerted on the mechanical assembly by the payload, an applied force is transmitted to the fine suspension device.

A transport movable body for transporting an occupant includes: a seat in which the occupant is to be seated; a reception portion configured to receive road condition information generated by a precedent vehicle; and an adjustment portion configured to adjust a setting of the seat based on the road condition information received by the reception portion.

An active suspension system comprises at least one biasing device configured to support a body from a structure, and at least one motor. A magnetorheological (MR) fluid clutch apparatus(es) is coupled to the at least one motor to receive torque from the motor, the MR fluid clutch apparatus controllable to transmit a variable amount of torque. A mechanism is between the at least one MR fluid clutch apparatus and the body to convert the torque received from the at least one MR fluid clutch apparatus into a force on the body. Sensor(s) provide information indicative of a state of the body or structure. A controller receives the information indicative of the state of the body or structure and for outputting a signal to control the at least one MR fluid clutch apparatus in exerting a desired force on the body to control movement of the body according to a desired movement behavior.

A gyro seat includes: a seat body comprising a seat cushion and a seat back coupled to the seat cushion; and a seat gyroscope mounted to the seat body, the seat gyroscope compensating a movement of the seat body by control of first, second and third axes, where the first axis corresponds to a yaw of the seat body as a z axis of an xyz coordinate system, the second axis corresponds to a pitch of the seat body as an x axis of the xyz coordinate system, and the third axis corresponds to a roll of the seat body as a y axis of the xyz coordinate system.

A vehicle seat includes a seat cushion configured to support the buttocks of an occupant, a seat back configured to support the back of the occupant, an elastic force adjustment unit configured to adjust elastic force of a lumbar spine support of the seat back configured to support the lumbar spine of the occupant, in a longitudinal direction, and a controller configured to operate the elastic force adjustment unit. The controller is configured to make the elastic force larger in the case where oscillation of the vehicle is large, than that in the case where oscillation of the vehicle is small.

In one embodiment, a method comprising dampening movement of a cab supported by a chassis according to at least one dampening component; receiving plural inputs from at least one sensor and a seat suspension system; and based on the received plural inputs, causing an adjustment to the dampening movement of the cab according to the at least one dampening component.

A vehicle seat includes a seat bottom and a seat back. The seat back is coupled to the seat bottom to move relative to the vehicle seat. The vehicle further includes a support mechanism coupled to the vehicle and configured to vary support provided to an occupant sitting on the vehicle seat.

A disturbance cancellation and generation seat system includes a seat mounted to a structure of a vehicle. The seat is accelerated due to a disturbance acceleration received in the structure and transferred to the seat. A seat control unit generates a force cancellation command signal. An actuation device is connected to the structure and is in communication with the seat control unit. The actuation device in response to receipt of the force cancellation command signal induces a cancellation acceleration motion into the seat which is equal but opposite to and therefore cancels an acceleration motion of the seat induced by the disturbance acceleration.

A seat suspension system that includes a seat base that enables movement of the seat horizontally; and a lateral attenuation system that when activated, dampens movement of the seat horizontally. The seat base can move along first and second horizontal axes that are orthogonal. The seat base can include a carrier casting moveable along the first horizontal axis relative to a reservoir casting, and a seat casting moveable along the second horizontal axis relative to the carrier casting. The castings can move on rails. The lateral attenuation system can include an actuation mechanism, a stopper, and a connector that couples the actuation mechanism and stopper to the seat base. When the actuation mechanism is activated, the stopper can connect the reservoir and seat castings. The lateral attenuation system can be configured to stop movement of the seat along the first and second horizontal axes at any desired position.

A berth apparatus and method for promoting relaxation and/or inducing sleep in a recumbent passenger occupying a berth belonging to the berth apparatus. The apparatus is mounted in a vehicle and has a secondary suspension with a vibration detection system and a motion management system. The berth may execute motion in all six degrees of freedom with at least the vertical degree of freedom being monitored for unwanted motion. The motion management system has a motion removing component for removing unwanted motion in at least the vertical degree of freedom, and it also has a motion adding component to add to the berth a desirable motion of low frequency and small amplitude in at least one degree of freedom based on a physiological parameter, e.g., the inhalation cycle of the recumbent passenger. The apparatus and method may further use a vibration transfer element to transfer motion in one degree of freedom, such as horizontal displacement, to another degree of freedom, such as roll.