A ride attraction system includes a tower track and a ride vehicle configured to accommodate one or more riders. The ride vehicle is coupled to and configured to move relative to the tower track and the ride vehicle includes one or more user input devices. The ride attraction system further includes an image system configured to display a ride environment, wherein the user input devices are configured to enable the one or more riders to interact with elements of the ride environment via the one or more user input devices. The ride attraction system further includes a controller communicatively coupled to the ride vehicle and the image system and configured to control movement of the ride vehicle relative to the tower track based on signals from the one or more user input devices.

A ride attraction system includes a tower track and a ride vehicle configured to accommodate one or more riders. The ride vehicle is coupled to and configured to move relative to the tower track and the ride vehicle includes one or more user input devices. The ride attraction system further includes an image system configured to display a ride environment, wherein the user input devices are configured to enable the one or more riders to interact with elements of the ride environment via the one or more user input devices. The ride attraction system further includes a controller communicatively coupled to the ride vehicle and the image system and configured to control movement of the ride vehicle relative to the tower track based on signals from the one or more user input devices.

An amusement ride requires the participant to ascend to a platform for the beginning of the amusement ride via a single or a double helix ladder. The participants are tethered for safety. Operators attend the tether lines. The moving climbing wall surmounts an upper roller and a lower roller. One of the rollers is connected to a power source for movement of the moving climbing wall around the rollers. A controller controls the power source.

A shock absorber system may include at least one sensor that is configured to measure an operating parameter of the shock absorber during operation of the shock. The operating parameter may comprise one or more of pressure, temperature, a position of a piston rod of the shock absorber, a velocity of the piston rod, and/or an acceleration of the piston rod. The system may be configured to evaluate measured operating parameter data and to predict a lifespan of the shock absorber and/or detect failure.

An entertainment structure includes an offset core, a floor tying assembly and a plurality of floor plate assemblies. The plurality of floor plate assemblies each include a first edge and a second edge. The first edge of each of the plurality of floor plate assemblies is configured to be coupled to the offset core and the second edge of each of the plurality of floor plate assemblies is configured to be coupled to the floor tying assembly.

An amusement ride requires the participant to ascend to a platform for the beginning of the amusement ride via a single or a double helix ladder. The participants are tethered for safety. Operators attend the tether lines. The tethers also can run through belays for safety.

An vertical entertainment structure includes: an offset core; a moment stabilizing structure; a plurality of floor plate assemblies; and two or more entertainment rides that each span at least two of the plurality of floor plate assemblies.

An amusement ride requires the participant to ascend to a platform for the beginning of the amusement ride via a single or a double helix ladder. The participants are tethered for safety. Operators attend the tether lines. The tethers also can run through belays for safety.

A simulated environment includes a motion control system. The motion control system comprises a suspension structure, a housing slidably engaged to the suspension structure such that the suspension controller translates in a planar manner relative to the suspension structure. A rotary component is rotatably attached to the housing. A plurality of winches are attached to the rotary component, the plurality of winches having cables to allow longitudinal movement of the cables parallel to a force of gravity.

An automated damping system including a damping device arranged and disposed to provide variable resistance to a load. The variable resistance provides resistance values corresponding to a displacement position of the damping device. The system includes a damping profile generator that calculates a damping profile and a sensor is arranged and disposed to measure one or more damping affecting properties. The sensor provides the one or more damping affecting properties to the damping profile generator. The damping profile provides the variable resistance based upon the one or more damping affecting properties of the load.