A resistance control system for a passenger support of an amusement attraction includes a first foundation, a second foundation, and a support extending between the first foundation and the second foundation. The second foundation is pivotably coupled to the support at a pivot joint. The resistance control system also includes a motor and a linkage system coupled to the motor and to the second foundation such that the motor is configured to output a torque to adjust, via the linkage system, a resistance to movement of the second foundation about the pivot joint and relative to the first foundation.

A ride system includes eyewear configured to be worn by a user. The eyewear includes a display having a stereoscopic feature configured to permit viewing of externally projected stereoscopically displayed images. The ride system includes a computer graphics generation system communicatively coupled to the eyewear, and configured to generate streaming media of a real world environment based on image data captured via the camera of the eyewear, generate one or more virtual augmentations superimposed on the streaming media of the real world environment, and to transmit the streaming media of the real world environment along with the one or more superimposed virtual augmentations to be displayed on the display of the eyewear, and project stereoscopic images into the real world environment.

A ride system includes eyewear configured to be worn by a user. The eyewear includes a display having a stereoscopic feature configured to permit viewing of externally projected stereoscopically displayed images. The ride system includes a computer graphics generation system communicatively coupled to the eyewear, and configured to generate streaming media of a real world environment based on image data captured via the camera of the eyewear, generate one or more virtual augmentations superimposed on the streaming media of the real world environment, and to transmit the streaming media of the real world environment along with the one or more superimposed virtual augmentations to be displayed on the display of the eyewear, and project stereoscopic images into the real world environment.

A reaction controlled system of includes a track, a trolley that travels along the track, an animated figure coupled to the trolley, at least one reaction control element coupled to a portion of the animated figure (e.g., on the features, limbs, and/or body of the animated figure), and a controller. The controller detects presence of a ride vehicle or a guest. The controller also controls the trolley to position the animated figure based on the presence of the ride vehicle or the guest. The controller also controls animation of the animated figure by operating the reaction control element.

A reaction controlled system of includes a track, a trolley that travels along the track, an animated figure coupled to the trolley, at least one reaction control element coupled to a portion of the animated figure (e.g., on the features, limbs, and/or body of the animated figure), and a controller. The controller detects presence of a ride vehicle or a guest. The controller also controls the trolley to position the animated figure based on the presence of the ride vehicle or the guest. The controller also controls animation of the animated figure by operating the reaction control element.

A system may include a virtual reality system configured to present one or more virtual objects via an electronic display. The system may also include one or more inflatable objects that correspond to the one or more virtual objects, such that the one or more inflatable objects matches one or more shapes of the one or more virtual objects. The system may also include a processor configured to cause at least one of the one or more inflatable objects to inflate based on feedback from the virtual reality system.

A system may include a virtual reality system configured to present one or more virtual objects via an electronic display. The system may also include one or more inflatable objects that correspond to the one or more virtual objects, such that the one or more inflatable objects matches one or more shapes of the one or more virtual objects. The system may also include a processor configured to cause at least one of the one or more inflatable objects to inflate based on feedback from the virtual reality system.

An amusement park ride vehicle includes a chassis, a cabin, a slider, and a rotator. The chassis is configured to direct the ride vehicle along a ride path in a direction of travel. The cabin is configured to hold one or more passengers. The slider is configured to translate between a neutral position and a cantilevered position relative to the chassis in a direction substantially transverse to the direction of travel and to carry the rotator and the cabin along the direction substantially transverse to the direction of travel. The rotator is coupled between the slider and the cabin, and is configured to rotate the cabin relative to the slider.

A movable railing assembly includes a first railing segment having a first bogie and a first barrier coupled to the first bogie. The first bogie is configured to engage a track positioned below the first barrier and to facilitate movement of the first railing segment along the track, and the first barrier is configured to block access across the first railing segment. The movable railing assembly also includes a second railing segment having a second bogie and a second barrier coupled to the second bogie. The second bogie is configured to engage the track and to facilitate movement of the second railing segment along the track, and the second barrier is configured to block access across the second railing segment. Furthermore, the movable railing assembly includes a connector coupling the first railing segment to the second railing segment.

The invention relates to a truss-type rail for an amusement ride, having two rail tubes which are directly trafficable by a roller coaster train; a non-trafficable truss chord tube; and vertical truss profiles, which reinforcingly connect the rail tubes and the truss chord tube and include vertically diagonal profiles alternatingly ascending and descending diagonally between the truss chord tubes and the rail tubes. According to the invention, in at least one connection region of the vertically diagonal profiles there are no additional vertical truss profiles connected to the truss chord tube.