A balancing board is disclosed with a base and an elongated deck including a top surface; longitudinal and central lateral axes; and a bottom surface, which includes at the central lateral axis a center post mounting mechanism. The base's bottom side rests on a support surface. The base's top side has a top surface and is rotatable with respect to the bottom side at a rotational bearing. A center post is fixed at its bottom end to and extends upwards from the base's top surface, and has at its top end a pair of roller posts extending laterally and horizontally from the center post at opposing sides. Each roller post rotationally mounts a roller, extended downwardly from the roller post, below the center post's top end. The center post mounting mechanism engages with and aligns each roller with the central lateral axis on opposing sides of the longitudinal axis.

There is provided a system for providing interactivity to a guest of an experiential venue, based on sensor measurement of the guest. The system comprises a sensor configured to sense a guest variable of the guest, where the sensor may be a biometric sensor, a facial recognition sensor, a voice stress analysis sensor, a gesture recognition sensor, a motion tracking sensor, or an eye tracking sensor, and may sense heart rate or another guest variable. The system also comprises a control system, which may be implemented as a computer, in communication with the sensor. The control system is configured to determine a guest state from the guest variable, and to modify a venue variable, for example by selecting a path a theme park ride follows. The control system modifies the venue variable according to the guest state to provide increased satisfaction to the guest of the experiential venue.

There is provided a system for providing interactivity to a guest of an experiential venue, based on sensor measurement of the guest. The system comprises a sensor configured to sense a guest variable of the guest, where the sensor may be a biometric sensor, a facial recognition sensor, a voice stress analysis sensor, a gesture recognition sensor, a motion tracking sensor, or an eye tracking sensor, and may sense heart rate or another guest variable. The system also comprises a control system, which may be implemented as a computer, in communication with the sensor. The control system is configured to determine a guest state from the guest variable, and to modify a venue variable, for example by selecting a path a theme park ride follows. The control system modifies the venue variable according to the guest state to provide increased satisfaction to the guest of the experiential venue.

An outdoor amusement rocking device having a frame and a support member that together form a curvature saddle-shaped play structure. The amusement device includes a hyperbole paraboloid frame structure defining an interior area and a resilient support sheet material disposed in the interior area of the frame and attached to the frame.

An outdoor amusement rocking device having a frame and a support member that together form a curvature saddle-shaped play structure. The amusement device includes a hyperbole paraboloid frame structure defining an interior area and a resilient support sheet material disposed in the interior area of the frame and attached to the frame.

An outdoor amusement rocking device having a frame and a support member that together form a curvature saddle-shaped play structure. The amusement device includes a hyperbole paraboloid frame structure defining an interior area and a resilient support sheet material disposed in the interior area of the frame and attached to the frame.

An outdoor amusement rocking device having a frame and a support member that together form a curvature saddle-shaped play structure. The amusement device includes a hyperbole paraboloid frame structure defining an interior area and a resilient support sheet material disposed in the interior area of the frame and attached to the frame.

A free-ranging ride vehicle for an amusement park ride. The vehicle includes a vehicle base supporting a passenger compartment. The vehicle includes a drive system with a support platform supporting the vehicle base. The drive system imparts a set of motions including translation, cornering, sway, and heave to the support platform and, in turn, to the vehicle base and passenger compartment. The drive system includes first, second, and third leg assemblies each with a rigid leg pivotally coupled at an inner end to the support platform and supporting a wheel at an outer end. Drive motors are mounted on the legs above the wheels to, independently and concurrently, rotate the wheels and change the directional offset angle of each wheel.

A free-ranging ride vehicle for an amusement park ride. The vehicle includes a vehicle base supporting a passenger compartment. The vehicle includes a drive system with a support platform supporting the vehicle base. The drive system imparts a set of motions including translation, cornering, sway, and heave to the support platform and, in turn, to the vehicle base and passenger compartment. The drive system includes first, second, and third leg assemblies each with a rigid leg pivotally coupled at an inner end to the support platform and supporting a wheel at an outer end. Drive motors are mounted on the legs above the wheels to, independently and concurrently, rotate the wheels and change the directional offset angle of each wheel.