Palette-based optical recognition code generators and decoders

What is claimed as new and desired to be protected by Letters Patent of the United States is: 1 . An optical recognition code mark, comprising: a registration mark for orienting an optical recognition code; a calibration region comprising at least 3 different colors; a segmented portion including segments of at least 3 different colors, wherein the segmented portion is encoded based on the at least 3 different colors. 2 . The optical recognition code of claim 1 , wherein the segmented portion is encoded in at least a ternary code. 3 . The optical recognition code of claim 1 , wherein the segmented portion includes segments of at least 4 different colors. 4 . The optical recognition code of claim 1 , wherein the segmented portion comprises a segmented arc. 5 . The optical recognition code of claim 1 , wherein the segmented portion comprises a segmented circle. 6 . The optical recognition code of claim 1 , wherein the segmented portion comprises a segmented polygon. 7 . The optical recognition code of claim 1 , wherein the segmented portion comprises a segmented line. 8 . The optical recognition code of claim 1 , wherein the registration mark is centered within the segmented portion. 9 . The optical recognition code of claim 1 , wherein the registration mark comprises a circle having recognition marks associated therewith. 10 . The optical recognition code of claim 1 , wherein the calibration region comprises an arc including segments of the at least 3 different colors. 11 . A computer-implemented method for reading an optical recognition code mark, comprising: detecting an optical recognition mark with a camera, the camera operable to distinguish at least 3 different colors; detecting a registration mark associated with the optical recognition code mark; and detecting a calibration region associated with the optical recognition code mark, the calibration region comprising at least 3 different colors used to encode the optical recognition code mark. 12 . The method of claim 11 , wherein the camera is included with a mobile device. 13 . The method of claim 12 , further comprising decoding the detected colors based on the colors of the calibration region. 14 . The method of claim 13 , further comprising performing a checksum on the decoded decimal notation to verify the decoding process. 15 . A computer-implemented method for encoding an optical recognition code mark, comprising: receiving a code to encode with an optical recognition code mark; generating a registration mark for orienting an optical recognition code; generating a calibration region comprising at least 3 different colors; and generating a segmented portion including segments of at least 3 different colors, wherein the segmented portion is encoded based on the at least 3 different colors. 16 . The computer-implemented method of claim 15 , further comprising displaying the optical recognition code. 17 . The computer-implemented method of claim 15 , further comprising printing the optical recognition code. 18 . A system for encoding an optical recognition code mark, comprising: a processor and a memory, the memory storing instructions for causing the processor to: generate a registration mark for orienting an optical recognition code; generate a calibration region comprising at least 3 different colors; and generate a segmented portion including segments of at least 3 different colors, wherein the segmented portion is encoded based on the at least 3 different colors. 19 . The system of claim 18 , further comprising causing the processor to display the optical recognition code. 20 . The system of claim 18 , further comprising causing the processor to print the optical recognition code.