|
(詳細はContract Proof )〕 usually serves as an agreement between customer and printer and as a color reference guide for adjusting the press before the final press run.〔theprintspace (2010), (CMYK Proof ), theprintspace, retrieved on 10 March 2010〕 Most contract proofs are a Prepress Proof.〔(Prepress Proof )〕 The primary goal of 'proofing' is to serve as a tool for customer verification that the entire job is accurate. Prepress proofing (also known as off-press proofing〔Frank J. Romano, "Pocket Guide to Digital Prepress", © 1996, Delmar Publishers, page 109, ISBN 0-8273-7198-5〕) is a cost-effective way of providing a visual copy without the expense of creating a Press Proof.〔(Press Proof )〕 If errors are found during the printing process on press, correcting them can prove very costly to one or both parties involved. Press time is the most expensive part of print media. The main objective of proofing is to produce either a soft or hard copy of what the final product will look like on press. Hard-copy proofing usually involves ink-jet printing or other technologies (i.e. Laminate Proof〔(Laminate Proof )〕) to produce high-quality one-off copies of the production artwork. Soft proofing usually involves highly color accurate wide-gamut computer displays. "The printed proof is a dispassionate simulation of the ultimate output - a CMYK press sheet. The mission of a proofing system is to create accurate predictions, not pretty pictures."〔Rick McCleary, "CMYK 2.0, A Cooperative Workflow for Photographers, Designers, and Printers", © 2009, Peachpit Press, page 70, ISBN 978-0-321-57346-9〕 In the best conditions the proofing process will actually try to emulate the effects of the printing press through color management and screening techniques, which can be quite challenging because proofing devices may behave and operate quite differently from press devices. ==History== Since the first days of Johannes Gutenberg, proofing has just been press proofs - one makes a short run on the press in order to verify what is to be done on a production run. As technology evolved to lower the per-copy cost of a printing job, the cost of starting a production run continued to rise. Today, it can be very costly to start up a production press, and thus it is cost-prohibitive to run a press proof. While some people may think a press proof is the ultimate proof quality, this is not necessarily so, especially if the production run is done days or weeks later when press conditions may have changed, or the production run is done on a different press than the press proof. In the late 1940s, the first overlay〔(Overlay Proof )〕 systems were developed. These systems produce each of the process colors on a separate sheet of clear film and then register them together to view the final proof. The Ozalid division of General Aniline and Film (GAF) Corporation created Ozachrome〔Louis Walton Sipley, "A Half Century of Color", The Macmillan Company, © 1951, page 207〕 as the first commercial system used in proofing. Diazo (light-sensitive dye) coatings on film were used for each of the process colors, and the films were developed using ammonia vapor. Interestingly, the initial process colors used were red, yellow, blue and black, although other colors may have been used in subsequent years. A black separation was processed on a white paper, while the remaining separations were processed on clear cellulose acetate. Around 1965, 3M invented an overlay system called Color Key. Basically, sheets of clear polyester were coated with UV-sensitive pigmented emulsions in the four process colors, cyan, magenta, yellow and black. Later, spot colors were created (Color Key Custom Colors). The sheets were exposed to the artwork via a carbon arc lamp, washed with water and process chemicals, and then dried. As of 2010, overlay proofs are still created, for example for small single-drum presses where each color has to be a separate run. Such proofs are usually made using either inkjet printers or lamination devices. Internal〔Frank J. Romano, "Pocket Guide to Digital Prepress", © 1996, Delmar Publishers, page 111, ISBN 0-8273-7198-5〕 (single-sheet) or laminate systems attempt to overcome the problems with overlay systems by putting all process colors on a single sheet of media. After the end of World War II, the first commercial system, called Watercote, was introduced by the Direct Reproduction Corporation. By the 1970s, 3M developed Transfer Key technology, which used a cold lamination adhesive process. Successive layers of colored adhesive would be pressed on the substrate, exposed and washed away until all the colors existed on a single substrate. This later evolved into the Match Print product, which used a thermal transfer lamination process. The Match Print trade mark has since been sold to Kodak, which uses it today in its MATCHPRINT InkJet and MATCHPRINT Virtual products. Both Color Key〔(Color Key )〕 and Match Print〔(Match Print )〕 have also become generic names for types of prepress proofs. Later, other similar water process products such as DuPont Waterproof came on the market. In the early 1960s, several attempts were made to develop electrophotographic proofing processes based on the electrofax principle, using paper coated with zinc oxide in a resistive binder as a photoconductor, along with toners consisting of ink pigments dispersed in liquid Isopar. The electrofax principle was introduced in the United States by RCA, and the use of liquid toners was developed in Australia by Ralph Metcalf and Robert Wright of the Australian government. Other groups worked on similar processes, but these never got to market.〔 Later in the 1970s, toner-based solutions such as Dupont Cromalin were developed. By the 1980s, custom colors, including white and metallics such as gold and silver, were becoming commonplace. By 1987, the first Iris printer was commercialized. This was a continuous stream inkjet printer that was later followed by the Veris printer in 2004. Initially, these printers had unparalleled quality in inkjet printing, but steady advances in drop-on-demand printers has made their quality acceptable to more and more prepress shops. As of 2010, both Iris and Veris devices are still in use. In the early 1990s, Dye Sublimation was introduced with products like 3M Rainbow and Kodak DCP9000 and DCP9500. Also in the early 1990s, Laser Sublimation systems were introduced. Products such as the Fuji FINALPROOF, and Kodak Approval are still in use today. In the late 1990s, laser thermal transfer was developed. These systems are still in use, such as the Creo (now Kodak) Spectrum. The Spectrum was notable in that the same platesetter device used to make plates was also used to make proofs, resulting in proofs with identical screening as the press. By 2005, the first spectrophotometers were integrated with inkjet printers, such as the Creo Veris and HP 2100. By 2009, Epson released a printer with an integrated spectrophotometer. By automating the measurement process, this eliminates much of the labor involved in calibrating the proofing system and validating the proofs. However, it slows down overall throughput of the proofing device, so more proofing devices are needed to maintain throughput. By 2003, soft proofing emerged using well-calibrated and profiled computer displays under highly controlled viewing conditions. This approach continues to gain in popularity due to the much lower cost and lesser production time than producing a hard-copy proof. As of 2010, the majority of hard-copy contract proofing is done on inkjet and laminate devices, while soft proofing continues to gain popularity. Since the late 1990s, a number of software proofing solutions were developed by companies. Previously, proofing systems were typically a complete solution from one vendor, but as software has become the dominant enabling technology in proofing, customers enjoy the benefits of being able to use commodity print devices over special proofing devices. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Prepress proofing」の詳細全文を読む スポンサード リンク
|