Systems and methods for respiration-controlled virtual experiences

What is claimed is: 1. A method comprising: providing a controller including a processor and a memory storing machine readable instructions configured to be executed by the processor; providing a user interface in communication with the controller, the user interface including a display configured to display graphics from the processor; providing a respiration device in connection with the controller and operably engaged with a user, the respiration device including a sensor configured to detect one or more respiration parameters of the user, such that the respiration device provides the one or more respiration parameters to the controller via a respiration-data stream, the sensor including a pressure sensor; the controller presenting a virtual experience via the display of the user interface, wherein the virtual experience of the user interface is perceptible to the user; the controller receiving the respiration-data stream from the respiration device, the respiration-data stream comprising one or more respiration-parameter values of one or more respiration parameters associated with ongoing respiration of the user; and the controller updating the virtual experience based at least in part on the one or more respiration-parameter values in the respiration-data stream, wherein: the virtual experience includes a plurality of sequential phases that have an associated phase sequence; the plurality of sequential phases includes an active-induction phase that corresponds in time to the user receiving anesthetic induction via the respiration device; the plurality of sequential phases further includes a calibration and respiration-device-acclimation phase comprising a respiration-controlled mode, wherein a respiration-parameter value is received in the respiration-data stream during the respiration-controlled mode, and the controller uses the respiration-parameter value to calibrate the virtual experience to the user's respiration-parameter value; and wherein the sequential phases correspond respectively with different visual indicia presented via the user interface. 2. The method of claim 1 , wherein at least two of the different visual indicia are presented simultaneously for at least a period of time during the virtual experience. 3. The method of claim 1 , wherein all of the different visual indicia are presented simultaneously for at least a period of time during the virtual experience. 4. The method of claim 1 , wherein the respective different visual indicia correspond with different respective virtual locations in a virtual geographic area. 5. The method of claim 1 , further comprising presenting via the user interface an insufficient-respiratory indication in response to detecting insufficient respiratory input based on the respiration-data stream. 6. The method of claim 1 , wherein the virtual experience comprises an autoplay mode in which the presentation of the virtual experience is independent of any data in the respiration-data stream. 7. A system for facilitating administration of anesthesia and/or respiratory therapy comprising: a controller including a processor and a memory storing machine readable instructions configured to be executed by the processor; a user interface in communication with the controller, the user interface including a display configured to display graphics from the processor; a respiration device in connection with the controller and operably engaged with a user, the respiration device including a sensor configured to detect one or more respiration parameters of the user, such that the respiration device provides the one or more respiration parameters to the controller via a respiration-data stream, the sensor including a pressure sensor; the controller being configured to present a virtual experience via the display of the user interface, wherein the virtual experience of the user interface is perceptible to the user; the controller further configured to receive the respiration-data stream from the respiration device, the respiration-data stream comprising one or more respiration-parameter values of one or more respiration parameters associated with ongoing respiration of the user; and the controller further configured to update the virtual experience based at least in part on the one or more respiration-parameter values in the respiration-data stream, wherein: the virtual experience includes a plurality of sequential phases that have an associated phase sequence; the plurality of sequential phases includes an active-induction phase that corresponds in time to the user receiving anesthetic induction via the respiration device; the plurality of sequential phases further includes a calibration and respiration-device-acclimation phase comprising a respiration-controlled mode, wherein a respiration-parameter value is received in the respiration-data stream during the respiration-controlled mode, and the controller uses the respiration-parameter value to calibrate the virtual experience to the user's respiration-parameter value; and wherein the sequential phases correspond respectively with different visual indicia presented via the user interface. 8. The system of claim 7 , wherein at least two of the different visual indicia are presented simultaneously for at least a period of time during the virtual experience. 9. The system of claim 7 , wherein all of the different visual indicia are presented simultaneously for at least a period of time during the virtual experience. 10. The system of claim 7 , wherein the respective different visual indicia correspond with different respective virtual locations in a virtual geographic area. 11. The system of claim 7 , further comprising presenting via the user interface an insufficient-respiratory indication in response to detecting insufficient respiratory input based on the respiration-data stream. 12. The system of claim 7 , wherein the virtual experience comprises an autoplay mode in which the presentation of the virtual experience is independent of any data in the respiration-data stream.