161 |
Optical recorder |
US45851342 |
1942-09-16 |
US2392224A |
1946-01-01 |
BRYCE JAMES W |
|
162 |
Photomechanical typographical composing machine |
US50457643 |
1943-10-01 |
US2388961A |
1945-11-13 |
CORNELIUS ELLIOTT RICHARD; RICHARD DEWHURST MAURICE; SMITH BOOTH JOSEPH BOURDAS |
|
163 |
Machine for photographically composing type characters |
US39183641 |
1941-05-05 |
US2351126A |
1944-06-13 |
HIGHTON ALEXANDER G |
|
164 |
Apparatus for photographic composition of text matter |
US20388138 |
1938-04-22 |
US2229689A |
1941-01-28 |
GEORGE WESTOVER |
|
165 |
Matrix setting and type-linecasting machine |
US25266939 |
1939-01-24 |
US2209556A |
1940-07-30 |
KURT BENDORFF |
|
166 |
Typewriting, typesetting, and similar machines |
US169935 |
1935-01-14 |
US2196987A |
1940-04-16 |
ERNEST GASTON |
|
167 |
Means for photographic type composing |
US5470635 |
1935-12-16 |
US2178379A |
1939-10-31 |
SPIEVAK LOUIS A |
|
168 |
Base for a slug-casting machine |
US24628738 |
1938-12-17 |
US2172322A |
1939-09-05 |
MURRAY CLAY E |
|
169 |
Phototyping machine |
US73301234 |
1934-06-29 |
US2115990A |
1938-05-03 |
JONES HARRY C |
|
170 |
Matrix case |
US9769136 |
1936-08-24 |
US2092554A |
1937-09-07 |
MERRILL PHILIP P |
|
171 |
Tabulator |
US9576336 |
1936-08-13 |
US2089574A |
1937-08-10 |
EDWARD RAPP |
|
172 |
Photographic-printing process and apparatus therefor |
US58936522 |
1922-09-20 |
US1732049A |
1929-10-15 |
KENNETH HUNTER EDGAR |
|
173 |
Punching control strip for photographic composing machines |
US7628725 |
1925-12-18 |
US1603953A |
1926-10-19 |
KENNETH HUNTER EDGAR |
|
174 |
Typographical composing and casting machine |
US47821821 |
1921-06-16 |
US1406564A |
1922-02-14 |
KENNEDY DAVID S |
|
175 |
Image forming apparatus which accepts printing instruction prior to initialization of the storage section |
US10230146 |
2002-08-29 |
US07177035B2 |
2007-02-13 |
Toshiyuki Mitsudomi |
An image forming apparatus is disclosed which includes a power-on section which supplies power, a storage section which stores image data, a printing section which prints image data stored in the storage section, an instruction section which accept an instruction to print using the printing section, a processing section which initializes the storage section upon turn-on of the power-on section, a time measurement section which measures time required at least for the processing section to execute processing, a report section which reports that the apparatus is in a state in which the instruction section can accept the instruction to execute printing, a control section which controls, upon turn-on of the power-on section, report of the state in which the instruction section can accept the instruction to execute printing before completion of initialization of the storage section. |
176 |
Apparatus for, and method of, forming parenthesized image; apparatus for, and method of, forming externally framed image; program; and memory medium |
US11049515 |
2005-02-02 |
US20050196038A1 |
2005-09-08 |
Seiji Tanaka; Akinori Tsuji |
Outline font data showing the original outside shape having a single closed curve made up of a parenthesized outside shape portion of the parenthesized image and a connecting line portion to connect both open ends is stored. The height and line width are determined. Based on the above data, a first-size solidly shaded image is formed having the determined height and is entirely filled inside the original outside shape thereof with effective pixels of logic “1.” A second-size solidly shaded image is formed of a second size which is smaller by the line width than the first-size solidly shaded image, along the parenthesized outside shape portion. Non-equivalence operation is performed with corresponding pixels by displacing the first-size solidly shaded image and the second-size solidly shaded image by the line width along the parenthesized outside shape portion. |
177 |
System and method for programming an operator panel LED for printer |
US217283 |
1998-12-21 |
US6133844A |
2000-10-17 |
Adam Jude Ahne; Mark Joseph Edwards |
A system and method for allowing a user to program characteristics of at least one light emitting diode (LED) in order to convey information about the operational status of an appliance, such as a printer. The user of the printer selects one of a plurality of display mode options for the LED for a particular operational status condition of the printer. For each display mode option, there is a range of parameters that can be programmed by the user. Display mode setting information for the particular operational status condition (and chosen parameters) is stored based on a selected display mode option. The display mode option may be tested for a particular set of parameters to allow the user to adjust the parameters to his/her liking. Moreover, a combination of display mode options may be programmed for an operational status condition. During printer run-time, the operational status of the printer is monitored, and through firmware and software, the LED is controlled to operate in accordance with the selected display mode option when it is determined that the particular operational status condition of the printer occurs. |
178 |
Kerning method and electronic typographic/editing apparatus |
US676509 |
1996-07-08 |
US5802532A |
1998-09-01 |
Hiroshi Nakayama; Kiyotaka Miyai |
A practical kerning method and electronic typo-graphic/editing apparatus which is capable of arranging characters such that two characters do not come too close to each other across a small character or sign included in a character string. In positioning an object character with a space reduction relative to an immediately preceding character, a space (character space) between the first character and the third character of three characters, for example, is determined after the three characters are arranged with successive space reductions. This first to third character facing space is checked to see if it is smaller than a reference space. When the first to third character facing space is smaller than the reference space, a correction is made to at least one of a space reduction amount for the second character and a space reduction amount for the third character. An excessive closeness between the first and third characters is prevented by slightly diminishing the space reduction amount for at least one character. |
179 |
Computerized publishing method and system of typesetting with
content-based classification and layout of material |
US43876 |
1993-04-07 |
US5434961A |
1995-07-18 |
Koichi Horiuchi; Yoshio Kobayashi; Katsuhiko Kubo; Susumu Enomoto; Masashi Ishii |
A method and system for laying out and typesetting in a computerized publishing system comprises the steps of: grouping materials to be laid out on a type area of a page according to theme of articles to define a plurality of theme families, classifying the plurality of articles into a variable article type and fixed article type by adding an identifier, giving a rank to each of the theme families and to the articles, adding information to each of the materials for specifying the size of the materials that are to be laid out on the type area and further for specifying the rank of the theme family and the article, storing the materials into a file together with the information, laying out the materials based upon the information by reading the content of the file to determine a page layout while referencing to a knowledge base, and typesetting a page based upon the page layout to create a typeset, wherein the step of laying out the materials including a step of modifying said page layout based upon a result of the step of typesetting. |
180 |
Method and apparatus for generating, storing, reproducing, and
displaying image information |
US770601 |
1991-10-02 |
US5177645A |
1993-01-05 |
Jerome H. Lemelson |
Information signals including single frame video signals are recorded on selected areas of a recording medium, with accompany recorded code signals associated with each frame. Address codes are employed to locate and read the information signals stored on the recording medium. The information read from the recording medium is processed, stored in a display buffer, and displayed on a viewing screen. |