A virtual experience providing system that provides a virtual experience in a virtual reality image based on a virtual world representing a real world or an artificial world to a user who rides a rideable mobile body includes a storage medium configured to store computer-readable instructions and a processor connected to the storage medium, the processor executing the computer-readable instructions to generate a basic movement command which is a movement command to the rideable mobile body based on a steering operation of the user and generate an event action command different from the basic movement command when a predetermined event has occurred in the virtual world, wherein the event action command is a command for causing the rideable mobile body to perform an event action that is predetermined according to the predetermined event.

A ride vehicle includes a riding assembly configured to carry a rider, a base configured to couple to the riding assembly, and a control system configured to control the coordination of movements of the ride vehicle with movements of separate ride vehicles. The base includes a surface movement system configured to move the ride vehicle along a surface, a vertical movement system configured to move the riding assembly vertically relative to the base, and a roll system configured to move the riding assembly angularly relative to the base.

A ride vehicle includes a riding assembly configured to carry a rider, a base configured to couple to the riding assembly, and a control system configured to control the coordination of movements of the ride vehicle with movements of separate ride vehicles. The base includes a surface movement system configured to move the ride vehicle along a surface, a vertical movement system configured to move the riding assembly vertically relative to the base, and a roll system configured to move the riding assembly angularly relative to the base.

The present invention relates to automated guided vehicles, hereinafter referred to as AGVs, and specifically to AGVs used for entertainment purposes. More specifically, the present invention relates to using in a passenger carrying AGV a capacitor or a plurality of capacitors as a power source.

The present invention relates to automated guided vehicles, hereinafter referred to as AGVs, and specifically to AGVs used for entertainment purposes. More specifically, the present invention relates to using in a passenger carrying AGV a capacitor or a plurality of capacitors as a power source.

Dark ride system 1 typically comprises a ride space; a set of wirelessly-controlled and tracklessly-guided passenger vehicle platforms 10 dispatchable within the ride space; a set of wirelessly-controlled and tracklessly-guided themed scenery vehicle platforms dispatchable within the ride space; a load and unload area for passengers disposed proximate the ride space; and a control system. A predetermined set of passengers is allowed to board a predetermined subset of the set of wirelessly-controlled and tracklessly-guided passenger vehicle platforms at the load and unload area and the set of wirelessly-controlled and tracklessly-guided themed scenery vehicle platforms dispatched in an initial spatial arrangement at one or more predetermined times. During a ride show, the control system choreographs and changes a predetermined subset of the set of wirelessly-controlled and tracklessly-guided themed scenery vehicle platforms. At a conclusion of the ride show, the predetermined set of passengers are allowed to exit.

An amusement park attraction system includes a plurality of autonomous vehicles configured to accommodate one or more guests and located in an attraction dispatch area. An individual autonomous vehicle includes a vehicle controller including a memory storing instructions and a processor configured to execute the instructions, the instructions configured to cause the vehicle controller to receive an indication that the individual autonomous vehicle is loaded at capacity within the dispatch area and drive autonomous operation of the individual autonomous vehicle from the dispatch area to enter the ride path.

An amusement park attraction system includes a plurality of autonomous vehicles configured to accommodate one or more guests and located in an attraction dispatch area. An individual autonomous vehicle includes a vehicle controller including a memory storing instructions and a processor configured to execute the instructions, the instructions configured to cause the vehicle controller to receive an indication that the individual autonomous vehicle is loaded at capacity within the dispatch area and drive autonomous operation of the individual autonomous vehicle from the dispatch area to enter the ride path.

An amusement park system in accordance with present embodiments includes multiple separated park areas, an autonomous vehicle configured to drive along ground surfaces within the multiple separated park areas, and a gondola system configured to transport the autonomous vehicle between the multiple separated park areas. The amusement park system further includes a control system configured to operate the autonomous vehicle to engage with and disengage from the gondola system to facilitate transport of the autonomous vehicle by the gondola system.

An amusement park attraction system includes a plurality of autonomous vehicles configured to accommodate one or more guests and located in an attraction dispatch area. An individual autonomous vehicle includes a vehicle controller including a memory storing instructions and a processor configured to execute the instructions, the instructions configured to cause the vehicle controller to receive an indication that the individual autonomous vehicle is loaded at capacity within the dispatch area and drive autonomous operation of the individual autonomous vehicle from the dispatch area to enter the ride path.