An amusement ride for locating on a ground leading to a ledge of a drop off has a pair of rocking boom, an axle, spokes and a passenger carrier. The pair of rocking booms are pivotally mounted near the ledge of the drop off. The axle is carried between the ends of rocking booms and when the rocking booms are tilted outboard of the ledge, the axle is suspended out over the empty space past the drop off. The spokes extending radially away from the axle to connections with the carrier. The axle is driven by a drive system to swing the carrier, from large arcs to full 360° revolutions.

An amusement ride for locating on a ground leading to a ledge of a drop off has a pair of rocking boom, an axle, spokes and a passenger carrier. The pair of rocking booms are pivotally mounted near the ledge of the drop off. The axle is carried between the ends of rocking booms and when the rocking booms are tilted outboard of the ledge, the axle is suspended out over the empty space past the drop off. The spokes extending radially away from the axle to connections with the carrier. The axle is driven by a drive system to swing the carrier, from large arcs to full 360° revolutions.

A motion assembly that produces pitch and roll motions includes lower and upper plates. A pivotable coupling having upper and lower shafts extending from its center is coupled between the upper and lower plates. At least two linear actuators are coupled between the plates. Extension and retraction of the actuators pivots the upper plate about the pivotable coupling relative to the lower plate. A vehicle includes two steerable propulsion wheels coupled to a chassis. A lower plate of a pitch and roll assembly, similar to that just described, couples to the chassis via a slew bearing. Seating is coupled to the upper plate. The seating rotates with respect to the chassis via controlled rotation of the slew bearing with reference to the chassis. The seating can be rotated to point in any direction with respect to the chassis regardless of the direction the steerable propulsion wheels move the chassis.

A motion assembly that produces pitch and roll motions includes lower and upper plates. A pivotable coupling having upper and lower shafts extending from its center is coupled between the upper and lower plates. At least two linear actuators are coupled between the plates. Extension and retraction of the actuators pivots the upper plate about the pivotable coupling relative to the lower plate. A vehicle includes two steerable propulsion wheels coupled to a chassis. A lower plate of a pitch and roll assembly, similar to that just described, couples to the chassis via a slew bearing. Seating is coupled to the upper plate. The seating rotates with respect to the chassis via controlled rotation of the slew bearing with reference to the chassis. The seating can be rotated to point in any direction with respect to the chassis regardless of the direction the steerable propulsion wheels move the chassis.

A motion platform apparatus has a fixed base and a track that extends in a forward-rearward direction. A motion platform is movably mounted on the track and extends between a platform front end and a platform rear end in the forward-rearward direction. A seating assembly is mounted on the motion platform. The seating assembly has at least one user seat that includes a seat base. The motion platform is movable along the track to position the seating assembly in a load position and in an in-use position. The load position of the seating assembly is rearward of the in-use position. The seating assembly is mounted to the motion platform underneath the seat base. The front end of each seat base may be positioned forward of the platform front end. The seating assembly can be tilted as it moves between the load position and the in-use position.

A motion simulator system includes a display screen and multiple rider motion apparatuses. Each rider motion apparatus supports at least one rider accommodation and is positionable in a ride position facing the display screen. The motion simulator system includes multiple motion bays with an open front end facing the display screen. Each motion bay encloses at least one of the rider motion apparatuses. Multiple motion bays can be stacked facing the same display screen. A subset of the rider motion apparatuses may be activated, even when one or more rider motion apparatuses are in an inactive state. A visual display can be provided on the display screen that is synchronized with motion of the active rider motion apparatuses.

A motion platform apparatus has a fixed base and a track that extends in a forward-rearward direction. A motion platform is movably mounted on the track and extends between a platform front end and a platform rear end in the forward-rearward direction. A seating assembly is mounted on the motion platform. The seating assembly has at least one user seat that includes a seat base. The motion platform is movable along the track to position the seating assembly in a load position and in an in-use position. The load position of the seating assembly is rearward of the in-use position. The seating assembly is mounted to the motion platform underneath the seat base. The front end of each seat base may be positioned forward of the platform front end. The seating assembly can be tilted as it moves between the load position and the in-use position.

A motion simulator system includes a display screen and multiple rider motion apparatuses. Each rider motion apparatus supports at least one rider accommodation and is positionable in a ride position facing the display screen. The motion simulator system includes multiple motion bays with an open front end facing the display screen. Each motion bay encloses at least one of the rider motion apparatuses. Multiple motion bays can be stacked facing the same display screen. A subset of the rider motion apparatuses may be activated, even when one or more rider motion apparatuses are in an inactive state. A visual display can be provided on the display screen that is synchronized with motion of the active rider motion apparatuses.

An amusement ride for locating on a ground leading to a ledge of a drop off has a pair of rocking boom, an axle, spokes and a passenger carrier. The pair of rocking booms are pivotally mounted near the ledge of the drop off. The axle is carried between the ends of rocking booms and when the rocking booms are tilted outboard of the ledge, the axle is suspended out over the empty space past the drop off. The spokes extending radially away from the axle to connections with the carrier. The axle is driven by a drive system to swing the carrier, from large arcs to full 360 revolutions.

An amusement ride for locating on a ground leading to a ledge of a drop off has a pair of rocking boom, an axle, spokes and a passenger carrier. The pair of rocking booms are pivotally mounted near the ledge of the drop off. The axle is carried between the ends of rocking booms and when the rocking booms are tilted outboard of the ledge, the axle is suspended out over the empty space past the drop off. The spokes extending radially away from the axle to connections with the carrier. The axle is driven by a drive system to swing the carrier, from large arcs to full 360 revolutions.