Systems and methods for dictating motion for bi-directional vehicles is provided. The method includes obtaining passenger and map data. The passenger data identifies an orientation of a passenger and the map data identifies route attributes for one or more route segments. The method includes determining one or more motion constraints for a bi-directional vehicle and map constraints for routing the bi-directional vehicle based on the passenger data and the map data. The motion constraints can identify a vehicle orientation with which the bi-directional vehicle can travel. The map constraints can identify one or more route segments restricted from travel by the bi-directional vehicle. The method includes generating a constrained route based on the motion and map constraint(s). The constrained route can include permitted route segments and movements for the bi-directional vehicle. The method can include initiating the motion of the bi-directional vehicle based on the constrained route.

A vehicle includes a chassis, a suspension system coupled to the chassis, a front axle, a first rear axle, and a second rear axle coupled to the chassis by the suspension system, and a powertrain coupled to the chassis and at least one of the front axle, the first rear axle, and the second rear axle. The powertrain is configured to drive the at least one of the front axle, the first rear axle, and the second rear axle. The chassis, the suspension system, the front axle, the first rear axle, and the second rear axle provide a payload capacity rating of at least 1,750 pounds. The vehicle has an overall width between 60 inches and 80 inches.

A utility vehicle includes a plurality of ground engaging members and a frame supported by the plurality of ground engaging members. The frame assembly extends generally along a longitudinal axis of the utility vehicle. The utility vehicle further includes a front seating section coupled to the frame. The front seating section is configured to support an operator and a first passenger. Additionally, the utility vehicle includes a rear seating section coupled to the frame. The rear seating section is configured to support a second passenger and a third passenger. The rear seating section has an angled panel configured as a dead pedal for the second and third passengers, and a portion of the rear seating section extends forwardly into the front seating section.

A utility vehicle is configured for off-road terrain and may include a plurality of mounting members configured to support a load and/or support the vehicle during transport. The utility vehicle also includes an upper frame assembly which is movable between a first position and second position. The upper frame assembly may be moved to the second position during transportation of the utility vehicle. Further, the utility vehicle includes a plurality of configurations for a rear cargo area, thereby allowing for passengers or cargo to be supported.

A utility vehicle includes a plurality of ground engaging members and a frame supported by the plurality of ground engaging members. The frame assembly extends generally along a longitudinal axis of the utility vehicle. The utility vehicle further includes a front seating section coupled to the frame. The front seating section is configured to support an operator and a first passenger. Additionally, the utility vehicle includes a rear seating section coupled to the frame. The rear seating section is configured to support a second passenger and a third passenger. The rear seating section has an angled panel configured as a dead pedal for the second and third passengers, and a portion of the rear seating section extends forwardly into the front seating section.

A vehicle according to the present disclosure comprises an under unit which is equipped with a driving mechanism configured to rotate wheels of the vehicle, and an upper unit which is mounted on the under unit. The upper unit comprises an extension/contraction mechanism which is configured to extend or contract the upper unit according to a size of the under unit.

A utility vehicle includes a cargo box and a seat device located on the front side of the cargo box. The seat device includes a seat bottom and a seat back that includes a first lateral swinging shaft that extends in a lateral direction, a seat back frame that swings about the first lateral swinging shaft between an upright position and a horizontal position at which the seat back frame overlaps with the seat bottom, and a seat back main body that is attached to the seat back frame. The seat back frame in the horizontal position defines an expansion floor by which the floor of the cargo box is expanded in a forward direction. The seat back main body swings to a hanging orientation with respect to the seat back frame in the horizontal position and is located in front of the seat bottom.

A shared vehicle includes: a pair of right and left first pillars; a pair of right and left fourth pillars; a pair of right and left second pillars; a pair of right and left third pillars; an entrance door provided on one side wall of a vehicle body so as to be placed between the second pillar and the third pillar; and a front wheelchair space being provided such that at least a head of a wheelchair occupant is placed within a first region of the vehicle cabin in a plan view, the first region being surrounded by the first pillars and the second pillars, or a rear wheelchair space being provided such that at least the head of the wheelchair occupant is placed within a second region of the vehicle cabin in a plan view, the second region being surrounded by the third pillars and the fourth pillars.

A utility vehicle has a frame that is separable at a location passing through an operator compartment of the vehicle into front and rear sections with the seat base and seat assembly of the operator compartment remaining with the rear section and the rest of the operator compartment remaining with the front section. A seat extension kit is provided having a frame extension, a seat module, and a floorboard module that may be inserted between the split front and rear sections with the frame extension being fastened to such sections using pre-existing fastener holes in the vehicle frame and the frame extension. When so inserted, the seat module forms a new front row of seating with the floorboard module extending between the seat module and the original seat base and seat assembly, which now form a rear row of seating. This expands the vehicle seating capacity from two people to four people.

A mounting structure for vehicle equipment includes a vehicle body frame, a bracket attached to the vehicle body frame, and a plurality of vehicle equipment including at least one seat. The bracket and the plurality of vehicle equipment are configured so that the plurality of vehicle equipment each is mounted to the bracket so as to be replaceable with the other vehicle equipment.