Multi-visor: managing applications in augmented reality environments

We claim: 1. A method for providing a user interface to manage one or more applications in a head mounted display device associated with a user, comprising: determining a total field of view of a user in a real world three-dimensional space through the head mounted display device, the total field of view representing a range of views of the user of the real world three-dimensional space over a period of time and over a continuous range of rotation of the user's head, the total field of view being a combined view of previously viewed regions in the period of time plus a current view being observed in a primary field of view through the head mounted display but being less than all views of the real world three-dimensional space, the total field of view being larger than the primary field of view of the user at a single instant in time; dividing the total field of view into at least a first region in three-dimensional space and a second region in three-dimensional space, the first region and the second region being non-overlapping; generating a first menu including a first list of one or more applications; displaying the first menu in a first position in the first region of the total field of view of the user; receiving a user selection to activate an application from the first list of one or more applications provided in the first menu; generating a second menu including a second list of one or more applications, the second list of one or more applications including the application that has been activated from the first list of one or more applications provided in the first menu; and displaying the second menu in a second position in the second region of the total field of view of the user. 2. The method of claim 1 wherein displaying the first menu in the first region of the total field of view of the user includes selecting the first region within the total field of view of the user based on one or more configured rules. 3. The method of claim 2 , wherein displaying the first menu in the first region of the total field of view of the user includes displaying the first menu on a right-hand side of the total field of view of the user. 4. The method of claim 1 , wherein receiving a user selection to activate an application from the first list of one or more applications provided in the first menu includes detecting a user action. 5. The method of claim 4 , wherein the user action includes the user dragging the application from the first list of one or more applications provided in the first menu over a primary field-of-view of the user. 6. The method of claim 1 , wherein the second region of the total field of view is opposite to the first region. 7. The method of claim 1 , wherein the one or more applications provided in the second menu run concurrently and are overlaid on top of each other in the primary field-of-view of the user. 8. The method of claim 1 , further comprising receiving a second user selection to de-activate an application from the second list of one or more applications provided in the second menu. 9. The method of claim 8 , wherein the second user selection to de-activate an application from the second list of one or more applications provided in the second menu includes dragging the application from the second region toward the first region across the primary field-of-view of the user. 10. A head mounted display device, comprising: a display; one or more sensors tracking head position and rotation of a user relative to a body of the user and relative to an environment associated with the user; and at least one processing unit, in communication with the display, the one or more sensors, the at least one processing unit including instructions for a processing device to perform a method including: determining a total field of view of the user of a real world three-dimensional space through the head mounted display device, the total field of view representing areas of the real world space in view of the user over a continuous range of rotation of the user's head over a period of time, the total field of view being a combined view of previously viewed regions in the period of time plus a current view being observed in a primary field of view through the head mounted display but being less than all views of the real world three-dimensional space, the total field of view being larger than the primary field of view of the user at an instant in time; dividing the total field of view into at least a first three-dimensional region mapping to a first physical location in the environment of the user, and a second three-dimensional region mapping to a second physical location in the environment of the user different than the first physical location, the first three-dimensional region and the second three-dimensional region being non-overlapping; generating a first menu including a first list of one or more applications; displaying the first menu in a first position in the first three-dimensional region of the total field of view of the user; receiving a first user selection by the user touching or pointing to the first position to activate an application from the first list of one or more applications provided in the first menu; generating a second menu including a second list of one or more applications, the second list of one or more applications including the application that has been activated from the first list of one or more applications provided in the first menu; and displaying the second menu in the second three-dimensional region of the total field of view of the user. 11. The head mounted display device of claim 10 , wherein the first user selection includes dragging the application from the first list of one or more applications provided in the first menu over the primary field-of-view of the user. 12. The head mounted display device of claim 10 , wherein the at least one processing unit receives a second user selection to de-activate an application from the second list of one or more applications provided in the second menu. 13. A method comprising: tracking head position and rotation of a user relative to a body of the user and relative to an environment associated with the user; determining a total field of view of the user of a real world three-dimensional space through a head mounted display device associated with the user based on the head position and rotation tracked, the total field of view representing areas of the environment visible to the user over a continuous range of movement of the user's head over a period of time, the total field of view being a combined view of previously viewed regions in the period of time plus a current view being observed in a primary field of view through the head mounted display but being less than all views of the real world three-dimensional space, the total field of view being larger than the primary field of view of the user at a single instant in time; dividing the total field of view into at least a first three-dimensional region mapping to a first physical location in the environment of the user, a second three-dimensional region mapping to a second physical location in the environment of the user different than the first physical location, and a third three-dimensional region mapping to a third physical location in the environment of the user different than the first and second physical locations, the first three-dimensional region and the second three-dimensional region being non-overlapping; generating a first menu including a first list of one or more applications that can be activated in the head mounted display device; displaying the first menu in a first position in the f