Visible light communication system with pixel alignment for high data rate

What is claimed is: 1. A light communication method, comprising: arranging an imager to receive light from an array of sources, wherein the array of sources is arranged in a two-dimensional orthogonal grid according to a grid direction, and wherein the imager has a pixel grid defining a pixel direction; determining a misalignment between the pixel direction and the grid direction; and modulating light from the array of sources to the imager by flashing according to a series of one-dimensional patterns encoding data in a plurality of parallel data bit streams, wherein each bit stream is generated by flashing a respective one of a plurality of subgroups of the sources, each one dimensional pattern extending in a slanted direction with respect to the grid direction on the two-dimensional grid so that the series of one-dimensional patterns project onto the imager orthogonal to the pixel direction. 2. The method of claim 1 further comprising: reading out an image from the imager; identifying respective patterns from a plurality of corresponding pixel rows in the pixel grid; and decoding the patterns to recover the encoded data. 3. A light communication method, comprising: arranging an imager to receive light from an array of sources, wherein the array of sources is arranged in a two-dimensional orthogonal grid according to a grid direction, and wherein the imager has a pixel grid defining a pixel direction; determining a misalignment between the pixel direction and the grid direction by exchanging initial data between the array of sources and the imager that depends on the orientation of the pixel direction with respect to the grid direction; and modulating light from the array of sources to the imager by flashing according to a series of one-dimensional patterns encoding data, each one dimensional pattern extending in a slanted direction on the two-dimensional grid so that the series of one-dimensional patterns project onto the imager orthogonal to the pixel direction. 4. The method of claim 3 wherein the exchanging of initial data is performed using a return channel between a first controller for the array of sources and a second controller for the imager, and wherein the return channel uses light communication. 5. The method of claim 3 wherein the exchanging of initial data is performed using a return channel between a first controller for the array of sources and a second controller for the imager, and wherein the return channel uses RF communication. 6. A light communication method, comprising: arranging an imager to receive light from an array of sources, wherein the array of sources is arranged in a two-dimensional orthogonal grid according to a grid direction, and wherein the imager has a pixel grid defining a pixel direction; determining a misalignment between the pixel direction and the grid direction; and modulating light from the array of sources to the imager by flashing according to a series of one-dimensional patterns encoding data, each one dimensional pattern extending in a slanted direction on the two-dimensional grid so that the series of one-dimensional patterns project onto the imager orthogonal to the pixel direction; wherein the imager is comprised of a CMOS image sensor, and wherein the pixel direction is comprised of a rolling-shutter direction of the CMOS image sensor.