A ride vehicle system includes a ride track and a ride vehicle. The ride track includes a vehicle rail and an accessory rail. The ride vehicle includes a ride vehicle base, a show element coupled to the ride vehicle base, and a mechanical linkage. The ride vehicle base is configured to interface with the vehicle rail of the ride track and to move along the vehicle rail of the ride track. The show element coupled to the ride vehicle base is configured to actuate with respect to the ride vehicle base. The mechanical linkage includes a first end coupled to the show element and a second end coupled to the accessory rail of the ride track. The mechanical linkage is configured to move along the accessory rail and to actuate the show element based at least in part on a position of the accessory rail with respect to the vehicle rail.

A ride vehicle system includes a ride track and a ride vehicle. The ride track includes a vehicle rail and an accessory rail. The ride vehicle includes a ride vehicle base, a show element coupled to the ride vehicle base, and a mechanical linkage. The ride vehicle base is configured to interface with the vehicle rail of the ride track and to move along the vehicle rail of the ride track. The show element coupled to the ride vehicle base is configured to actuate with respect to the ride vehicle base. The mechanical linkage includes a first end coupled to the show element and a second end coupled to the accessory rail of the ride track. The mechanical linkage is configured to move along the accessory rail and to actuate the show element based at least in part on a position of the accessory rail with respect to the vehicle rail.

A boat motion simulator or system configured specially to impart boat-type motions (e.g., roll, sway, heave, pitch, surge, and yaw) to a passenger boat. The simulator or system is also configured to use buoyancy or buoyant forces to vertically support the boat such that the system's components imparting the boat motions do not provide vertical support of the boat, which, instead, floats naturally in a volume of water provided within the simulator or system while or concurrently with motions being imparted upon the boat by a drive or motion assembly. The simulator or system may also include a display and sound system operable with this drive or motion assembly to display imagery and a soundtrack that are synchronized with the motions imparted upon the boat by the drive or motion assembly to provide a unique and realistic boat simulator or boat ride experience for passengers in the boat.

The present invention relates to a playground interactive gaming system which integrates physical playground play with interactive computerized gaming, thus attracting children of all ages to enjoy healthy outdoor physical activity while playing a single-player or multi-player video game.

The present invention relates to a playground interactive gaming system which integrates physical playground play with interactive computerized gaming, thus attracting children of all ages to enjoy healthy outdoor physical activity while playing a single-player or multi-player video game.

A wearable visualization device includes a housing, one or more lenses coupled to the housing and configured to display virtual features for visualization by a user of the wearable visualization device, and a cover coupled to the housing and configured to adjust between an extended configuration in which the cover extends over at least a portion of the one or more lenses and a retracted configuration in which the cover does not extend over at least the portion of the one or more lenses. The wearable visualization device also includes a controller and one or more sensors. The controller is configured to receive sensor data from the one or more sensors and to provide control signals to an actuator to adjust the cover between the extended configuration and the retracted configuration based on the sensor data.

A wearable visualization device includes a housing, one or more lenses coupled to the housing and configured to display virtual features for visualization by a user of the wearable visualization device, and a cover coupled to the housing and configured to adjust between an extended configuration in which the cover extends over at least a portion of the one or more lenses and a retracted configuration in which the cover does not extend over at least the portion of the one or more lenses. The wearable visualization device also includes a controller and one or more sensors. The controller is configured to receive sensor data from the one or more sensors and to provide control signals to an actuator to adjust the cover between the extended configuration and the retracted configuration based on the sensor data.

The present invention relates to an amusement ride (1), such as a fairground attraction or an amusement park attraction. The attraction comprises a main carrier (10) rotatable about a first, substantially vertical axis of rotation (R1), a first drive for rotation of the main carrier about the first axis of rotation, at least one passenger carrier (20) which is rotatable about a second, substantially vertical, rotation axis (R2). The passenger carrier is attached to the main carrier at a distance from the first axis of rotation and has a second drive for rotation of the passenger carrier about the second axis of rotation. The passenger carrier is provided with one or more passenger carrier arms with a seat carrier (30) with one or more seats. Each seat carrier is rotatable about a third axis of rotation (R3), which is at an angle of substantially 30 to 70 degrees with respect to the second axis of rotation.

Systems and methods for hybrid actuator system control are disclosed herein. The system can include a simulation vehicle. The simulation vehicle can transit at least one passenger through a ride experience, can include a plurality of controls, and can be mounted on an actuator system controllable to move the simulation vehicle in connection with at least one ride event. The system can include a processor. The processor can: provide content to the at least one passenger; receive user inputs via the plurality of controls of the simulation vehicle; identify authored control data; generate algorithmic control data; generate a hybrid control signal according to a combination of the authored control data and the algorithmic control data; and control movement of the simulation vehicle according to the hybrid control signal.

A ride vehicle system includes a ride track and a ride vehicle. The ride track includes a vehicle rail and an accessory rail. The ride vehicle includes a ride vehicle base, a show element coupled to the ride vehicle base, and a mechanical linkage. The ride vehicle base is configured to interface with the vehicle rail of the ride track and to move along the vehicle rail of the ride track. The show element coupled to the ride vehicle base is configured to actuate with respect to the ride vehicle base. The mechanical linkage includes a first end coupled to the show element and a second end coupled to the accessory rail of the ride track. The mechanical linkage is configured to move along the accessory rail and to actuate the show element based at least in part on a position of the accessory rail with respect to the vehicle rail.