A method for realizing a real-time spatial structure in an apparatus for realizing a real-time spatial structure is provided. The method for realizing a real-time spatial structure includes: tracking a movement path of a player; and realizing a spatial structure in the space on the movement path of the player using at least one of water sprayed through water spray modules of a mesh structure installed on a ceiling and electromagnet ropes of the mesh structure.

A method for realizing a real-time spatial structure in an apparatus for realizing a real-time spatial structure is provided. The method for realizing a real-time spatial structure includes: tracking a movement path of a player; and realizing a spatial structure in the space on the movement path of the player using at least one of water sprayed through water spray modules of a mesh structure installed on a ceiling and electromagnet ropes of the mesh structure.

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 for guiding a vehicle is provided. The system includes multiple paths on a surface, wherein each path is defined by light projection characteristics of a respective light projection defining a respective path. The system also includes the vehicle. The vehicle includes a sensor configured to detect the light projection characteristic of the respective path of the multiple paths, and a controller guide the vehicle along the respective path with a light projection characteristic that matches an expected light projection characteristic that is assigned to the vehicle.

The present disclosure relates to a method for providing interactivity between an electronic system and a first user visiting a facility such as, for example, an amusement park. The first user is identified and provided with a first input mobile element. The first input mobile element interacts with input fixed elements. The interaction results in a feedback that is provided, through output means to the first user or his first input mobile element. The feedback is preferably determined according to the history of the first user.

The present disclosure relates to a method for providing interactivity between an electronic system and a first user visiting a facility such as, for example, an amusement park. The first user is identified and provided with a first input mobile element. The first input mobile element interacts with input fixed elements. The interaction results in a feedback that is provided, through output means to the first user or his first input mobile element. The feedback is preferably determined according to the history of the first user.

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.

An immersive amusement system features a path to be traversed by participants, a first array of devices mounted on a first side of said path, and a second array of devices mounted on an opposing second side of said path. Each device comprises either a beam emitter operable to transmit a respective visible beam, or a beam receiver operable to detect receipt thereby of a visible beam. The arrayed devices are setup in co-operable pairs, of which each co-operable pair comprises a beam emitter in one of said arrays and a corresponding beam receiver in the other of said arrays. A controller operably connected to the arrayed devices is configured to selectively activate and deactivate said beam emitters to cause transmission of visible beams from said beam emitters to said corresponding beam receivers, and to monitor for breaking of any of said visible beams by any of said participants.

A swimming pool slide comprising a pool slide shell and a slide flume formed in the shell to direct downhill sliding motion of a human rider. An interior water conduit transports water from a water source, through the slide shell to a top end of the flume. A slide shell base may be configured to allow for re-positioning of the slide to a proper/desired position relative to a pool edge after having connected the interior water conduit to a water source fixture in a pool deck. The slide may include a water stream shaper comprising a manifold that receives water from the conduit and re-shapes it into a sheet and redirects it onto the slide flume.