A passenger restraint system for roller coasters designed to maintain a passenger in an essentially seated or lying posture, with suspended feet. The passenger restraint system includes a fixed column and a seat column designed to support and hold the passenger, which seat column is coupled to the fixed column so as to be displaceable with respect to the fixed column during a roller coaster ride. The seat column is coupled to the fixed column by an articulated linkage, and the passenger restraint system further includes a balancing device ensuring a balancing of the seat column, which balancing device is fixed, at a first end, to the fixed column and, at a second end, to the seat column. The balancing device can advantageously be configured to ensure a vertical travel of the seat column during the roller coaster ride in dependence of a vertical acceleration exerted on the passenger.

A passenger restraint system for roller coasters designed to maintain a passenger in an essentially seated or lying posture, with suspended feet. The passenger restraint system includes a fixed column and a seat column designed to support and hold the passenger, which seat column is coupled to the fixed column so as to be displaceable with respect to the fixed column during a roller coaster ride. The seat column is coupled to the fixed column by an articulated linkage, and the passenger restraint system further includes a balancing device ensuring a balancing of the seat column, which balancing device is fixed, at a first end, to the fixed column and, at a second end, to the seat column. The balancing device can advantageously be configured to ensure a vertical travel of the seat column during the roller coaster ride in dependence of a vertical acceleration exerted on the passenger.

An inspection system for inspecting the track of an amusement ride with at least one rail. A vehicle is provided that is designed to ride along the track. The vehicle supports cameras. The cameras are positioned in unobstructed areas. The cameras image the rail from different angles as the vehicle rides along the track. The images recorded by the cameras are reviewed to identify any defect or issue with the rail or its supporting framework that may impact from the safety of the ride.

An inspection system for inspecting the track of an amusement ride with at least one rail. A vehicle is provided that is designed to ride along the track. The vehicle supports cameras. The cameras are positioned in unobstructed areas. The cameras image the rail from different angles as the vehicle rides along the track. The images recorded by the cameras are reviewed to identify any defect or issue with the rail or its supporting framework that may impact from the safety of the ride.

A method for operating a ride attraction includes moving a ride vehicle along a pathway, with at least one rider in or on the ride vehicle, and with the at least one rider wearing a headset having a display and a window. Virtual images are created on the display based at least in part on a position of the ride vehicle along the pathway, with the at least one rider viewing the virtual images, and with the at least one rider also simultaneously viewing real world images of real world objects through the window. The virtual images may be overlaid onto the real-world images.

A method for operating a ride attraction includes moving a ride vehicle along a pathway, with at least one rider in or on the ride vehicle, and with the at least one rider wearing a headset having a display and a window. Virtual images are created on the display based at least in part on a position of the ride vehicle along the pathway, with the at least one rider viewing the virtual images, and with the at least one rider also simultaneously viewing real world images of real world objects through the window. The virtual images may be overlaid onto the real-world images.

An amusement ride restraint system includes an amusement ride car. A lap pad is configured to selectively engage a lap of the rider while the rider is positioned within the seat. A first linkage is pivotally coupled to the lap pad and pivotally coupled relative to the floor of the ride car, the first linkage operable to rotate the lap pad into i) an engaged position in which the rider is restrained in the seat, and ii) a loading position in which the rider can be loaded into or unloaded from the seat. The lap pad is constrained to pivotal motion relative to the first linkage such that the lap pad is oriented in a substantially vertical attitude relative to the seat when moved into the loading position and is oriented in a substantially horizontal attitude relative to the seat when moved into the engaged position.

An amusement ride restraint system includes an amusement ride car. A lap pad is configured to selectively engage a lap of the rider while the rider is positioned within the seat. A first linkage is pivotally coupled to the lap pad and pivotally coupled relative to the floor of the ride car, the first linkage operable to rotate the lap pad into i) an engaged position in which the rider is restrained in the seat, and ii) a loading position in which the rider can be loaded into or unloaded from the seat. The lap pad is constrained to pivotal motion relative to the first linkage such that the lap pad is oriented in a substantially vertical attitude relative to the seat when moved into the loading position and is oriented in a substantially horizontal attitude relative to the seat when moved into the engaged position.

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.