Mixed reality offload using free space optics

What is claimed is: 1. A portable device comprising: an optical receiver; a display; one or more processors coupled to the display and the optical receiver; and, memory in communication with the one or more processors, the memory including code executable by the one or more processors to control the portable device to: receive at least one image frame at the optical receiver, the at least one image frame associated with a virtual environment; generate an image of the virtual environment from a selected image frame of the at least one image frame; and, display the image of the virtual environment on the display, wherein the memory further includes a cache, the at least one image frame comprises a plurality of image frames, and the code is further executable by the one or more processors to control the device to: store the plurality of image frames in the cache; and, determine a pose associated with the portable device in the virtual environment; select the selected image frame of the plurality of image frames stored in the cache based at least on the pose; and, generate the image of the virtual environment from the selected image frame of the plurality of image frames, wherein the code is executable by the one or more processors to repeat, at a frame rate, the determining the pose, the selecting the selected image frame from the cache, the generating the image of the virtual environment, and the displaying the image on the display, wherein the frame rate is independent of the rate at which each of the plurality of image frames is received at the optical receiver, and, wherein, the determining the pose, the selecting the selected image frame from the cache, the generating the image of the virtual environment, and the displaying the image on the display, may be repeated one or more times during a period when no image frame of the plurality of image frames is received at the optical receiver. 2. The portable device of claim 1 , wherein the code is executable by the one or more processors control the device to select the selected image frame by determining that the selected image frame best matches the pose as compared to other image frames of the plurality of image frames stored in the cache. 3. The portable device of claim 1 , wherein each of the plurality of images frames comprises a panoramic frame and the code is executable by the one or more processors control the device to generate the image of the virtual environment by performing image based rendering on the selected image frame. 4. The portable device of claim 1 , wherein portable device comprises at least one sensor coupled to the one or more processors, and the code is further executable by the one or more processors to determine the pose by controlling the device to: receive data comprising data on the 3D position and 3D orientation of the device from the at least one sensor; and, determine the pose of the device associated with the virtual environment from the data. 5. The portable device of claim 1 , wherein the at least one image frame comprises at least one panoramic frame and at least one additional frame that includes an additional view associated with the at least one panoramic frame. 6. The portable device of claim 1 , wherein the optical receiver includes an array comprising a plurality of photodetectors. 7. The portable device of claim 1 , wherein each at least one image frame comprises a cube map. 8. A system comprising: an optical transmitter; and, a server coupled to the optical transmitter and including: one or more processors coupled to the optical transmitter; and, memory in communication with the one or more processors, the memory including code executable by the one or more processors to control the server to: render at least one image frame for use by a portable device based at least on a pose indicating the position and orientation of the portable device relative to a virtual environment; and, provide the at least one image frame to the optical transmitter for transmission to the mobile device, wherein the memory further includes a cache, the at least one image frame comprises a plurality of image frames, and the code is further executable by the one or more processors to control the device to: store the plurality of image frames in the cache; and, select the selected image frame of the plurality of image frames stored in the cache based at least on the pose; and, provide the selected image frame of the plurality of image frames as the at least one image frame that is provided to the optical transmitter for transmission to the mobile device, wherein the code is executable by the one or more processors to repeat, at a frame rate, the determining the pose, the selecting the selected image frame from the cache, the generating the image of the virtual environment, and the displaying the image on the display, wherein the frame rate is independent of the rate at which each of the plurality of image frames is received at the optical receiver, and, wherein, the determining the pose, the selecting the selected image frame from the cache, the generating the image of the virtual environment, and the displaying the image on the display, may be repeated one or more times during a period when no image frame of the plurality of image frames is received at the optical receiver. 9. The system of claim 8 , wherein the optical transmitter transmits the at least one image frame in an optical beam, and the system further comprises a beam steering device that is configurable, based at least on the pose, to receive the optical beam carrying the at least one image frame from the optical transmitter and steer the beam to the portable device. 10. The system of claim 8 , wherein the at least one image frame comprises a panoramic frame. 11. The system of claim 8 , wherein the at least one image frame comprises at least one panoramic frame and at least one additional frame that includes an additional view associated with the at least one panoramic frame.