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Bartender Software For Free DownloadMost PeopleThe invention was based on Morse code that was extended to thin and thick bars. (The same sort of mobile device could also read 1D barcodes, depending on the application software.)The barcode was invented by Norman Joseph Woodland and Bernard Silver and patented in the US in 1951. A mobile device with an inbuilt camera, such as smartphone, can function as the latter type of 2D barcode reader using specialized application software. 2D barcodes can also be read by a digital camera connected to a microcomputer running software that takes a photographic image of the barcode and analyzes the image to deconstruct and decode the 2D barcode. 2D barcodes can be read using purpose-built 2D optical scanners, which exist in a few different forms. Later, two-dimensional (2D) variants were developed, using rectangles, dots, hexagons and other patterns, called matrix codes or 2D barcodes, although they do not use bars as such. ![]() ![]() Silver told his friend Norman Joseph Woodland about the request, and they started working on a variety of systems. ( December 2013)In 1948 Bernard Silver, a graduate student at Drexel Institute of Technology in Philadelphia, Pennsylvania, US overheard the president of the local food chain, Food Fair, asking one of the deans to research a system to automatically read product information during checkout. Please discuss this issue on the talk page and edit it to conform with Wikipedia's Manual of Style. The patent was issued on 7 October 1952 as US Patent 2,612,994. He later decided that the system would work better if it were printed as a circle instead of a line, allowing it to be scanned in any direction.On 20 October 1949, Woodland and Silver filed a patent application for "Classifying Apparatus and Method", in which they described both the linear and bull's eye printing patterns, as well as the mechanical and electronic systems needed to read the code. "I just extended the dots and dashes downwards and made narrow lines and wide lines out of them." To read them, he adapted technology from optical soundtracks in movies, using a 500-watt incandescent light bulb shining through the paper onto an RCA935 photomultiplier tube (from a movie projector) on the far side. His next inspiration came from Morse code, and he formed his first barcode from sand on the beach. Convinced that the system was workable with further development, Woodland left Drexel, moved into his father's apartment in Florida, and continued working on the system. Immediately after receiving his master's degree from MIT in 1959, he started work at GTE Sylvania and began addressing the problem. Collins at Sylvania During his time as an undergraduate, David Jarrett Collins worked at the Pennsylvania Railroad and became aware of the need to automatically identify railroad cars. Philco purchased the patent in 1962 and then sold it to RCA sometime later. The company eventually commissioned a report on the idea, which concluded that it was both feasible and interesting, but that processing the resulting information would require equipment that was some time off in the future.IBM offered to buy the patent, but the offer was not accepted. The installations began on 10 October 1967. The tests continued until 1967, when the Association of American Railroads (AAR) selected it as a standard, Automatic Car Identification, across the entire North American fleet. The Boston and Maine Railroad tested the KarTrak system on their gravel cars in 1961. Light reflected off the colored stripes was read by photomultiplier vacuum tubes. Best text translator for mac portugueseFinally, Kal Kan asked the Sylvania team for a simpler (and cheaper) version which they could put on cases of pet food for inventory control.In 1967, with the railway system maturing, Collins went to management looking for funding for a project to develop a black-and-white version of the code for other industries. These applications required special retroreflector labels. Post Office requested a system to track trucks entering and leaving their facilities. The railway project had failed, but a toll bridge in New Jersey requested a similar system so that it could quickly scan for cars that had purchased a monthly pass. The AAR abandoned the system in the late 1970s, and it was not until the mid-1980s that they introduced a similar system, this time based on radio tags. To add to its woes, the system was found to be easily fooled by dirt in certain applications, which greatly affected accuracy. The system was used to identify a dozen types of transmissions moving on an overhead conveyor from production to shipping. This made the entire process much simpler and more reliable, and typically enabled these devices to deal with damaged labels, as well, by recognizing and reading the intact portions.Computer Identics Corporation installed one of its first two scanning systems in the spring of 1969 at a General Motors (Buick) factory in Flint, Michigan. As its first innovations, Computer Identics moved from using incandescent light bulbs in its systems, replacing them with helium–neon lasers, and incorporated a mirror as well, making it capable of locating a barcode up to several feet in front of the scanner. Supermarkets on a Uniform Grocery-Product Code to set guidelines for barcode development. The Kroger grocery chain volunteered to test it.In the mid-1970s, the NAFC established the Ad-Hoc Committee for U.S. RCA, who had purchased the rights to the original Woodland patent, attended the meeting and initiated an internal project to develop a system based on the bullseye code. A wide variety of barcode approaches was studied, including linear codes, RCA's bullseye concentric circle code, starburst patterns and others.In the spring of 1971, RCA demonstrated their bullseye code at another industry meeting. The request went to Singer, National Cash Register (NCR), Litton Industries, RCA, Pitney-Bowes, IBM and many others. The committee then sent out a contract tender to develop a barcode system to print and read the code. In cooperation with consulting firm, McKinsey & Co., they developed a standardized 11-digit code for identifying products.
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