Disclosed is one example of a vehicle seat that can inhibit a large displacement of a cushion frame along a seat-width axis. The vehicle seat includes a cushion frame; a bracket coupled to a vehicle body; a lifter link that couples the cushion frame to the bracket and supports the cushion frame; and a first restrictor included in the bracket. The bracket is configured to couple the cushion frame to the vehicle body. The lifter link is pivotable along a front-rear axis of the seat with an upper end of the lifter link being pivotably coupled to the cushion frame and a lower end of the lifter link being pivotably coupled to the bracket. The first restrictor restricts a displacement of the lifter link along the seat-width axis in response to an abutment of the first restrictor against a first abutting portion included in the lifter link.

A latch assembly of a seat is provided in a vehicle. The latch assembly includes a base including a first pin and a second pin. A first latch includes a first housing and a first latch mechanism at least partially enclosed within the first housing. The first latch is pivotally coupled to the base. A second latch includes a second housing and a second latch mechanism at least partially enclosed within the second housing. The second latch is pivotally coupled to the base. The first latch is disposed in its latched position when the first latch engages the first pin, and the second latch is disposed in its latched position when the second latch engages the second pin. The first latch and the second latch are not disposed in their respective latched positions at the same time.

A latch assembly of a seat is provided in a vehicle. The latch assembly includes a base including a first pin and a second pin. A first latch includes a first housing and a first latch mechanism at least partially enclosed within the first housing. The first latch is pivotally coupled to the base. A second latch includes a second housing and a second latch mechanism at least partially enclosed within the second housing. The second latch is pivotally coupled to the base. The first latch is disposed in its latched position when the first latch engages the first pin, and the second latch is disposed in its latched position when the second latch engages the second pin. The first latch and the second latch are not disposed in their respective latched positions at the same time.

The present disclosure provides an airbag for a vehicle. The airbag safely supports a passenger after deploying forward from behind a passenger in a seat. Additionally, the airbag is able to be changed in position to safely protect a passenger by changing the position even when the position of a seat is changed.

The present disclosure provides an airbag for a vehicle. The airbag safely supports a passenger after deploying forward from behind a passenger in a seat. Additionally, the airbag is able to be changed in position to safely protect a passenger by changing the position even when the position of a seat is changed.

A travel sickness estimation system includes an estimation unit and an output unit. The estimation unit is configured to perform estimation processing of estimating, based on person information indicating conditions of a person who is on board a moving vehicle, whether or not the person is in circumstances that would cause travel sickness for him or her. The output unit is configured to output a result of the estimation processing performed by the estimation unit.

An ISS is a seating system that actively adjusts to improve an occupant's comfort, performance, and safety in a specific driving environment. The ISS determines the occupant's posture, position on the seat surface, and/or physiological state, for example, by applying a machine vision process. The ISS can further determine a driving environment. The ISS adjusts its settings and settings of the vehicle according to one or more factors such as an occupant's posture, the occupant's physiological state, the occupant's preferences, and/or the driving environment. The ISS can include a state machine that determines a current state and determines if a change has occurred such that the system should shift to another state that best suits this change. The ISS makes adjustment according to system settings associated with the best suitable state.

An ISS is a seating system that actively adjusts to improve an occupant's comfort, performance, and safety in a specific driving environment. The ISS determines the occupant's posture, position on the seat surface, and/or physiological state, for example, by applying a machine vision process. The ISS can further determine a driving environment. The ISS adjusts its settings and settings of the vehicle according to one or more factors such as an occupant's posture, the occupant's physiological state, the occupant's preferences, and/or the driving environment. The ISS can include a state machine that determines a current state and determines if a change has occurred such that the system should shift to another state that best suits this change. The ISS makes adjustment according to system settings associated with the best suitable state.

An agricultural vehicle is disclosed having a frame with substantially parallel first and second spaced apart side rails extending substantially the length of the frame. First and second cross members extend between said spaced apart side rails in spaced apart relation to each other. The first cross member is equipped with at least one wheel pivotally attached thereto. The second cross member is attached at substantially the rear portion of said frame. The second cross member has two drive wheels rotatably attached thereto and a drive unit mounted on said chassis at said rear portion and independently drivably connected to each drive wheel. First and second drive unit controllers are mounted on different side rails substantially proximal to the front portion of said frame and operable by an operator seated in an operator seat mounted to the frame.

An agricultural vehicle is disclosed having a frame with substantially parallel first and second spaced apart side rails extending substantially the length of the frame. First and second cross members extend between said spaced apart side rails in spaced apart relation to each other. The first cross member is equipped with at least one wheel pivotally attached thereto. The second cross member is attached at substantially the rear portion of said frame. The second cross member has two drive wheels rotatably attached thereto and a drive unit mounted on said chassis at said rear portion and independently drivably connected to each drive wheel. First and second drive unit controllers are mounted on different side rails substantially proximal to the front portion of said frame and operable by an operator seated in an operator seat mounted to the frame.