Once the QR reader on the mobile phone is launched, the program activates the camera on the device. When the mobile is brought near the code and the code is focused between the black squares (three large and one small), the data gets displayed on the screen.
The QR code follows the Reed-Solomon error-correction algorithm and hence is less susceptible to errors as it follows parity check. The encoded information can be made up of four modes of data: numeric, alphanumeric, byte/binary and Kanji.
The QR code was first designed for the automotive industry. Now QR codes are used everywhere starting from products to webpages, advertising, mobile money transactions and goods inventories. Storing URLs, these can be found on magazines, buses and business cards. These have even found applications in Google-powered Android smart phones.
Table I shows how much information you can store in just one QR code symbol.
The QR code matrix depicted in the program can generate a 33×33 matrix truncated to 60 characters only. The code word so generated is 8-bit long and uses Reed-Solomon error-correcting coding technique with four levels of error correction: Level L (7 per cent), M (15 per cent), Q (25 per cent) and H (70 per cent). The percentages in brackets indicate the restoration factor. (For further details of the Reed-Solomon error-correction coding technique, visit http://en.wikipedia.org/wiki/Reed-Solomon_error_correction page.)
The alphanumeric characters and their corresponding codes are given in Table II.
Fig. 1 depicts the structure of a QR code. Fig. 2 shows the various versions.