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A microfilm reader is a device used in projecting and magnifying images stored in microform to readable proportions. Microform includes flat film, microfilm, aperture cards, microfiche, and ultra fiche. Using open reels or cassettes, microfilm is often used as a way to store many documents in a small space. It has become increasingly prevalent in the development of films, as well as storage of archived newspapers. With the invention of microfilm, microfilm readers soon developed. With the increasing popularity of computers, microform has decreased in use. However, many library archives still remain in microform.
A modern microfilm reader consists of: [1]
A reader printer was developed in the mid 20th century. This reader printer allowed for the viewer to see the microfilm, but also print what was shown in the reader. The first of these devices was produced in World War II for use with V-Mail. [1]
At the beginning stages in the development of microfilm, microscopes were used to view the microform documents. Early microfilms were visible under a 100x microscope, and only very expensive ones at the time were used to view the microfilms. One of the earliest readers of microfilm was the Coddington Magnifier. Developed by Sir David Brewster, this magnifier was a "simple plano-convex lens of such thickness that the focus of its spherical curvature coincides with the flat surface of the lens. [2] On June 21, 1859, the first patent for a microfilm was issued to Rene Dargon in France. (Patent No. 23, 115) This early reader was small and compact, so much so that it could be fit into a gentleman's wristwatch. On March 28, 1860, Dargon received a British Patent for the same invention, and on August 13 he received a US Patent (No. 33,031).
Though Dargon owned the first patent, this is not to say that other inventors did not alter the first patent to create their own versions of the reader. However, Dargon sought to corner the market, and in 1861 he brought suit against a French inventor Martinache, charging invasion of patent. The trial that ensued was a short but bitter fight. The end result was a loss to Dargon, who went on to quickly issue an appeal. The court held up on the lower court decision revoking Dargon's original patent and thus taking away the monopoly Dargon sought. Dargon sought to corner the market yet again, this time in a different manner, buying the Martinache for the price of $6,000, a substantial amount for the time.
On July 18, 1861, M. Berthier, an employee of Dargon, received a Patent on a new process. This new reader consisted of "cementing a thick glass plate to each end of a small block of optical glass. The entire assembly was then placed in a grinding jig which transformed the flat end-plates into convex lenses, each focused on the image borne by the opposite plate. The end result was a cylinder of glass whose rounded ends acted as lenses." [2]
In 1868, French photographer Anguier created and patented a new process. This new process attached microphotos to a pair of Brewster magnifiers that were mounted on rubber. This process gave the illusion of related movement by applying pressure on the rubber mount. In 1890, an inventor by the name of Madsen was issued a patent on a Microfilm Camera (U.S. Patent 448, 447).
By the end of the 19th century, a few libraries began to implement microfilm as a means of preserving records. A 1904 fire in the National Library of Turin that destroyed more than half the manuscripts stored there raised concerns of preservation of unique and rare materials. In 1905, these issues were addressed at the Congres International pour la reproduction des Manuscripts, des Monnaies et des Sceaux. It was decided that a photographic library would be established in all libraries. In 1956, UNESCO set up a special microfilm unit with the intention of visiting various countries to micro film books, documents, and other cultural material in danger of being destroyed and those which are irreplaceable. This special unit also trained technicians to handle microfilm. Microfilm readers are stored in special rooms known as "reading rooms", with two prevalent types of readers. The first is for use of transparent microphotographs and the other used for micro opaque cards. In modern translucent microfilm readers, light is projected into a film producing an enlarged image of the film on a translucent screen, and in opaque readers the same process occurs except the image in on an opaque screen. In using a translucent screen, the image can be seen in daylight, provided no direct sunlight in on the screen. The opaque screen, however, is cheaper to produce, but requires a darker room.
The advent of microfilm has had advantages to not only archiving documents but also spreading knowledge across nations. A United Nations Educational, Scientific and Cultural Organization report discussed the issues surrounding the implementation of microfilm internationally. As would be suspected, the report discussed the benefits of easy access to documents. The report also reported issues not on production of readers, stating that the production of reads was a simple and relatively low cost projects, but rather on the production of microfilm itself. [3]
Memex is a hypothetical electromechanical device for interacting with microform documents and described in Vannevar Bush's 1945 article "As We May Think". Bush envisioned the memex as a device in which individuals would compress and store all of their books, records, and communications, "mechanized so that it may be consulted with exceeding speed and flexibility". The individual was supposed to use the memex as an automatic personal filing system, making the memex "an enlarged intimate supplement to his memory". The name memex is a portmanteau of memory and expansion.
The Autochrome Lumière was an early color photography process patented in 1903 by the Lumière brothers in France and first marketed in 1907. Autochrome was an additive color "mosaic screen plate" process. It was the principal color photography process in use before the advent of subtractive color film in the mid-1930s.
An overhead projector, like a film or slide projector, uses light to project an enlarged image on a screen, allowing the view of a small document or picture to be shared with a large audience.
A screen magnifier is software that interfaces with a computer's graphical output to present enlarged screen content. By enlarging part of a screen, people with visual impairments can better see words and images. This type of assistive technology is useful for people with some functional vision; people with visual impairments and little or no functional vision usually use a screen reader.
Xerography is a dry photocopying technique. Originally called electrophotography, it was renamed xerography—from the Greek roots ξηρόςxeros, meaning "dry" and -γραφία-graphia, meaning "writing"—to emphasize that unlike reproduction techniques then in use such as cyanotype, the process of xerography used no liquid chemicals.
V-mail, short for Victory Mail, was a hybrid mail process used by the United States during the Second World War as the primary and secure method to correspond with soldiers stationed abroad. To reduce the cost of transferring an original letter through the military postal system, a V-mail letter would be censored, copied to film, and printed back to paper upon arrival at its destination. The V-mail process is based on the earlier British Airgraph process.
A magnifying glass is a convex lens that is used to produce a magnified image of an object. The lens is usually mounted in a frame with a handle. Beyond its primary function of magnification, this simple yet ingenious tool serves a variety of purposes. It can be employed to focus sunlight, harnessing the Sun's rays to create a concentrated hot spot at the lens's focus, which is often used for starting fires.
A contact print is a photographic image produced from film; sometimes from a film negative, and sometimes from a film positive or paper negative. In a darkroom an exposed and developed piece of film or photographic paper is placed emulsion side down, in contact with a piece of photographic paper, light is briefly shone through the negative or paper and then the paper is developed to reveal the final print.
Lenticular printing is a technology in which lenticular lenses are used to produce printed images with an illusion of depth, or the ability to change or move as they are viewed from different angles.
Microprinting is the production of recognizable patterns or characters in a printed medium at a scale that typically requires magnification to read with the naked eye. To the unaided eye, the text may appear as a solid line. Attempts to reproduce by methods of photocopy, image scanning, or pantograph typically translate as a dotted or solid line, unless the reproduction method can identify and recreate patterns to such scale. Microprint is predominantly used as an anti-counterfeiting technique, due to its inability to be easily reproduced by widespread digital methods.
A microform is a scaled-down reproduction of a document, typically either photographic film or paper, made for the purposes of transmission, storage, reading, and printing. Microform images are commonly reduced to about 4% or 1⁄25 of the original document size. For special purposes, greater optical reductions may be used.
Video magnifiers are electronic devices that use a camera and a display screen to perform digital magnification of printed materials. The display screen is usually LCD or a similar flat-screen technology, and the device usually includes a lamp to illuminate the source material. Video magnifiers are designed to be mostly used by people with low vision that cannot be helped using a conventional magnifying glass.
Magnifier, formerly Microsoft Magnifier, is a screen magnifier app intended for visually impaired people to use when running Microsoft Windows. When it is running, it creates a bar at the top of the screen that greatly magnifies where the mouse is. Magnifier was first included as a sample in the Active Accessibility SDK/RDK for Windows 95 and later made a standard Windows utility starting with Windows 98. Prior to Windows Vista, Magnifier could be used to magnify the screen up to 9 times its normal size. Windows Vista and later allow up to 16× magnification.
An optical comparator or profile projector is a device that applies the principles of optics to the inspection of manufactured parts. In a comparator, the magnified silhouette of a part is projected upon the screen, and the dimensions and geometry of the part are measured against prescribed limits. It is a useful item in a small parts machine shop or production line for the quality control inspection team.
"As We May Think" is a 1945 essay by Vannevar Bush which has been described as visionary and influential, anticipating many aspects of information society. It was first published in The Atlantic in July 1945 and republished in an abridged version in September 1945—before and after the atomic bombings of Hiroshima and Nagasaki. Bush expresses his concern for the direction of scientific efforts toward destruction, rather than understanding, and explicates a desire for a sort of collective memory machine with his concept of the memex that would make knowledge more accessible, believing that it would help fix these problems. Through this machine, Bush hoped to transform an information explosion into a knowledge explosion.
René Prudent Patrice Dagron was a French photographer and inventor. He was born in Aillières-Beauvoir, Sarthe, France. On 21 June 1859, Dagron was granted the first microfilm patent in history. Dagron is also considered the inventor of the miniature photographic jewels known as Stanhopes because a modified Stanhope lens is used to view the microscopic picture attached to the lens. He is buried at Ivry Cemetery, Ivry-sur-Seine.
Vesicular film, almost universally known as Kalvar, is a type of photographic film that is sensitive only to ultraviolet light and developed simply by heating the exposed film.
Microphotographs are photographs shrunk to microscopic scale. Microphotography is the art of making such images. Applications of microphotography include espionage such as in the Hollow Nickel Case, where they are known as microfilm.
Albert Boni was co-founder of the publishing company Boni & Liveright and a pioneering publisher in paperbacks and book clubs.
IBM manufactured and sold microfilm products from 1963 till 1969. It is an example of IBM attempting to enter an established market on the basis of a significant technical breakthrough.