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.

An attraction system of an amusement park includes a sensor configured to monitor electrostatic buildup associated with the attraction system and a control system communicatively coupled to the sensor. The control system is configured to receive data from the sensor, the data being indicative of an amount of the electrostatic buildup associated with the attraction system, and operate the attraction system based on the data indicative of the amount of the electrostatic buildup associated with the attraction system.

A ride system includes a ride vehicle and an external sensor assembly disposed along a ride path and configured to measure external parameters. The ride vehicle includes an internal sensor assembly configured to measure internal parameters, a chassis, a cabin, and a motion base disposed between the chassis and the cabin, such that the motion base includes a turntable and a plurality of actuators. The ride vehicle also includes a controller that instructs (i) the turntable to rotate and (ii) the plurality of actuators to rotate, extend, or retract, to control six or more degree-of-freedom (DOF) motion of the cabin relative to the chassis, such that the controller is configured to instruct the turntable and the plurality of actuators based on the external parameters, the internal parameters, or both.

A ride system includes a ride vehicle and an external sensor assembly disposed along a ride path and configured to measure external parameters. The ride vehicle includes an internal sensor assembly configured to measure internal parameters, a chassis, a cabin, and a motion base disposed between the chassis and the cabin, such that the motion base includes a turntable and a plurality of actuators. The ride vehicle also includes a controller that instructs (i) the turntable to rotate and (ii) the plurality of actuators to rotate, extend, or retract, to control six or more degree-of-freedom (DOF) motion of the cabin relative to the chassis, such that the controller is configured to instruct the turntable and the plurality of actuators based on the external parameters, the internal parameters, or both.

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.

A ride vehicle system includes a ride vehicle including a seat configured to accommodate a passenger, a restraint system of the ride vehicle, where the restraint system includes a restraint configured to secure the passenger within the seat, and a forced air system of the ride vehicle, where the force air system is configured to generate an air flow, direct the air flow internally through the restraint, and discharge the air flow toward the passenger via a discharge port of the restraint.

A ride vehicle system includes a ride vehicle including a seat configured to accommodate a passenger, a restraint system of the ride vehicle, where the restraint system includes a restraint configured to secure the passenger within the seat, and a forced air system of the ride vehicle, where the force air system is configured to generate an air flow, direct the air flow internally through the restraint, and discharge the air flow toward the passenger via a discharge port of the restraint.

Systems and methods are disclosed that provide directional speakers and haptic devices for each guest of a ride vehicle. A controller may receive a vehicle location, seat location data, input audio data, and input haptic data. The seat location data may include a guest's seat location in the ride vehicle and/or the guest's preferences (e.g., a preferred language, volume preferences, or content rating preference). The controller may generate different audio output signals corresponding to different guests based on the input audio data, the vehicle location, and/or the seat location data, and generate different haptic output signals corresponding to different guests based on the input haptic data, the vehicle location, and/or the seat location data. The controller may then instruct directional speaker directed at the seat locations of the different guests to output the different audio output signals and instruct haptic devices directed at the seat locations to output the different haptic output signals.

A resistance control system of an amusement attraction includes a support assembly having a base, a pivot joint, and a support beam extending between the base and the pivot joint. The resistance control system includes a spring plate coupled to the pivot joint of the support assembly, and includes at least one spring engaged with the spring plate. Additionally, the resistance control system includes an actuator plate positioned between the spring plate and the base of the support assembly, as well as at least one actuator coupled between the actuator plate and the base. The at least one actuator is configured to move and secure the actuator plate relative to the pivot joint to adjust a resistance to movement about the pivot joint.