[특허]Spatial scan replication circuit

Spatial scan replication circuit 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	G06K-009/40 H04N-005/00
출원번호	UP-0793882 (2004-06-10)
등록번호	US-7822284 (2010-11-15)
발명자 / 주소	Cooper, Carl
인용정보	피인용 횟수 : 0 인용 특허 : 237

초록

In an image replication circuit, the improvement of replicating a given element at a certain location with the most similar of surrounding sets of image elements.

대표청구항 ▼

What is claimed is: 1. An improved signal processing circuit for filling a void in an image, the void being located at a position in said image whereat the void has image elements at least partially surrounding the void, said circuit comprising: a circuit to provide at least two sets of image elements, partially surrounding the void; a comparison circuit to compare each set of image elements to each other set to determine similarity between elements within each set and to select a set of most similar image elements; and a fill logic circuit configured to fill the void with at least one image element from the set of most similar image elements, wherein the fill logic circuit is an electronic circuit configured to do at least one of: a) change an address of one or more image elements to alter the void, b) correct one or more image elements to alter the void, c) improve one or more image elements to alter the void, d) replace one or more image elements to alter the void, e) substitute one or more image elements to alter the void, f) add to one or more image elements to alter the void, g) provide additional elements to one or more image elements to alter the void, h) create one or more new image elements spatially located between two of the other image elements to alter the void, i) turn an off pixel on or an on pixel off to alter the void, j) reduce the bandwidth of the signal to alter the void, and k) generate one or more new image elements to alter the void. 2. The circuit of claim 1 wherein the fill logic circuit provides for temporally improving the apparent resolution of the displayed image and is a component of an element fill calculator. 3. The circuit of claim 1 wherein a central element is located at a stair stepped edge in the image and the stair stepped edge is uneven. 4. The circuit of claim 1 wherein the comparison circuit includes a pattern derived from a logic equation and the comparison circuit compares at least one of said sets of surrounding image elements with the pattern. 5. A method of improving the quality of an image for display on a flat panel display device, which image contains a stair-stepped edge having a neighboring void, comprising the steps of: a) selecting a plurality of elements of the image; b) comparing at least one of the selected elements to at least one other of the selected elements; and c) altering the void in response to the comparing step by filling the void with the at least one of the selected elements using a fill logic circuit, so as to improve the apparent resolution of the stair-stepped edge in the displayed image. 6. A method of improving the quality of an image for display on a flat panel display device, which image includes a stair-stepped edge having a neighboring void, comprising the steps of: a) selecting a plurality of elements in the image; b) comparing the plurality of elements with a pattern in memory; and c) altering the void in response to the comparing step by filling the void with one of the plurality of elements using a fill logic circuit in response to the comparing step so as to improve the apparent resolution of the stair-stepped edge in the displayed image. 7. An improved signal processing circuit for filling a void in an image for display on a flat panel display device, which void has neighboring image elements, comprising: a) a first circuit to provide at least two sets of image elements from the neighboring image elements; b) a second circuit to compare each said set of image elements to a pattern and to select the set that is most similar to the pattern; and c) a fill logic circuit to fill said void in response to said comparison means by filling the void with an element of said set of image elements, in a manner that improves the apparent resolution of the displayed image, wherein the fill logic circuit is an electronic circuit configured to do at least one of: a) change an address of one or more image elements to alter the void, b) correct one or more image elements to alter the void, c) improve one or more image elements to alter the void, d) replace one or more image elements to alter the void, e) substitute one or more image elements to alter the void, f) add to one or more image elements to alter the void, g) provide additional elements to one or more image elements to alter the void, h) create one or more new image elements spatially located between two of the other image elements to alter the void, i) turn an off pixel on or an on pixel off to alter the void, j) reduce the bandwidth of the signal to alter the void, and k) generate one or more new image elements to alter the void. 8. The circuit of claim 7 wherein the void is located at a stair stepped edge in the image and the stair stepped edge is uneven. 9. The circuit of claim 7 wherein the pattern derives from a logic equation. 10. A method of filling a void in an image for display on a flat panel display device, the void having a plurality of neighboring elements that represent a stair stepped edge, the method comprising the steps of: a) receiving an electronic signal carrying the image, the image including said void and said plurality of elements; b) comparing at least two of said plurality of elements with at least one pattern stored in memory; c) generating an element at least in part responsive to said step of comparing; and d) filling the void with said element using a fill logic circuit thereby modifying an appearance of the stair-stepped edge in a manner that improves the apparent resolution of the displayed image. 11. A method of altering a void in an image for display on a flat panel display device, the void having a plurality of neighboring elements that form a stair stepped edge, the method comprising the steps of: a) receiving an electronic signal carrying the image, the image including said void and said plurality of elements; b) generating an element at least partially in response to said plurality of neighboring elements; and c) altering the void with said element by filling the void with said element using a fill logic circuit, thereby modifying the appearance of the stair-stepped edge in a manner that improves the apparent resolution of the displayed image. 12. A method of creating an element to fill a void in an image for display on a matrix type display device, which image contains a plurality of elements with a stair-stepped edge, the method comprising the steps of: a) receiving an electronic signal carrying the image; b) providing the plurality of elements; c) generating an element to fill the void at least in part responsive to said plurality of elements; and d) filling the void with the element using a fill logic circuit thereby modifying an appearance of the stair-stepped edge in a manner that improves the apparent resolution of the displayed image. 13. A method of creating an image fill element for an image for display on a matrix type display device, which image includes a stair-stepped edge, comprising the steps of: a) receiving an electronic signal carrying the image; b) providing a plurality of elements of said image; c) generating an image fill element using a fill logic circuit at least in part in response to an image content of at least one of the said plurality of elements so as to improve the apparent resolution of the stair-stepped edge; and d) displaying said image including the image fill element on the matrix type display. 14. A method for displaying, on a flat panel display device, a modified version of an image conveyed by a signal, the method comprising the steps of: a) providing a calculator means; b) receiving and storing a plurality of elements of the image including a central element, which plurality of elements includes a stair-stepped edge; c) comparing at least two of the plurality of elements, including the central element, with at least one pattern via the calculator means; d) determining if the at least two of the plurality of elements, including the central element matches the at least one pattern; e) modifying the central element in response to the determining step using a fill logic circuit, thereby providing a modified version of the image that improves the apparent resolution of the displayed image; and f) displaying the modified version of the image. 15. A method for displaying, on a flat panel display device, a modified version of an image conveyed by a signal, the method comprising the steps of: a) providing a calculator means; b) receiving and storing a plurality of elements including a central element and neighboring elements; c) receiving and storing at least one pattern of data; d) using the calculator means to compare at least two of the neighboring elements to the at least one pattern of data; e) modifying the central element at least in part in response to said step of comparing using a fill logic circuit, thereby providing a modified version of the image that improves the apparent resolution of the displayed image; and f) displaying the modified version of the image. 16. A method of creating an element to fill a void in an image for display on a type flat panel display device, which image contains a plurality of elements with a stair-stepped edge, the method comprising the steps of: a) receiving an electronic signal carrying the image; b) comparing at least two of said plurality of elements to a pattern; c) generating an element at least in part responsive to said step of comparing; and f) filling the void with the element using a fill logic circuit, thereby modifying the appearance of the stair-stepped edge in a manner that improves the apparent resolution of the displayed image. 17. A method of creating an image fill element for an image for display on a type flat panel display device, which image includes a stair-stepped edge, comprising the steps of: a) receiving an electronic signal carrying the image; b) providing a plurality of elements in the image; c) comparing at least two elements of said plurality of elements with at least one pattern stored in memory; d) generating an image fill element using a fill logic circuit, at least in part in response to said comparison step so as to improve the apparent resolution of the stair-stepped edge; and e) displaying the image fill element on the matrix type display. 18. A method for displaying, on a flat panel display device, a modified version of an image conveyed by a signal, the method comprising the steps of: a) providing a calculator means; b) receiving and storing a plurality of elements of the image, including a central element, which plurality of elements includes a stair-stepped edge; c) comparing at least two of the plurality of elements, including the central element, with at least one pattern via the calculator means; d) determining if the at least two of the plurality of elements, including the central element, matches the at least one pattern; e) modifying the central element in response to the determining step using a fill logic circuit thereby providing the modified version of the image in a manner that improves the apparent resolution of the stair-stepped edge; and f) displaying the modified version of the image. 19. A method for displaying, on a flat panel display device, a modified version of an image conveyed by a signal, the method comprising the steps of: a) providing a calculator means; b) receiving and storing a plurality of elements including a central element and neighboring elements; c) receiving and storing at least one pattern of data; d) using the calculator means to compare the neighboring and central elements to the at least one pattern of data; e) modifying the central element at least in part in response to said step of comparing using a fill logic circuit, thereby providing the modified version of the image in a manner that improves the apparent resolution of the image; and f) displaying the modified version of the image. 20. The method of claims 14, 15, 18 or 19 wherein the central element includes a void. 21. The method of claims 14, 15, 18 or 19 wherein the central element is located along a stair stepped edge in the image. 22. The method of claims 5, 6, 10, 11, 12, 13, 14, 15, 16, 17, 18 or 19 wherein the plurality of elements includes one or more voids. 23. The method of claims 5, 6, 10, 11, 12, 13, 14, 15, 16, 17, 18 or 19 wherein the at least one of said plurality of elements is located along a stair stepped edge in the image. 24. The method of claims 5, 6, 10, 11, 12, or 16 wherein the plurality of elements are at least partially adjacent to the void or at least partially surrounding the void. 25. The method of claims 5, 6, 10, 11, 12, 13, 14, 16, 17 or 18 wherein the stair stepped edge is located along an edge of the image. 26. The method of claims 5, 6, 10, 11, 12, 13, 14, 16, 17, or 18 wherein the stair stepped edge includes one or more voids. 27. The method of claims 6, 10, 11, 12 or 16 wherein the void is located adjacent to a stair stepped edge in the image. 28. The method of claims 5, 6 or 11 wherein the void is altered by changing the value of an element. 29. The method of claims 5, 6, 7, 10, 11, 12 or 16, wherein the void is at least one of: a) a defective element, b) a defective portion of the image, c) an unwanted element, d) an improper element, e) a corrupted element, f) a valid but replaceable element, g) a location with no image information, h) an element that needs improvement to more closely match at least one neighboring pixel, i) at least in part a portion of a space occupied by another image element, j) a pixel that is turned off, k) a pixel that is turned off that is subsequently turned on in response to a fill signal, l) a pixel that is turned on, or m) a pixel that is turned on that is subsequently turned off in response to a fill signal. 30. The method of claims 6, 10, 14, 15, 16, 17, 18 or 19 wherein the pattern is stored in a ROM or a PROM. 31. The method of claims 6, 10, 14, 15, 16, 17, 18 or 19 wherein the plurality of elements are stored in a RAM. 32. The method of claim 5 wherein the comparing step includes comparing at least two of said plurality of elements to at least one pattern. 33. The method of claim 6, 10, 14, 15, 16, 17, 18 or 19 wherein the method further comprises the step of determining if the pattern comprises element values and whether the element values match other elements. 34. The method of claims 6, 10, 14, 16, 18 or 19 wherein the plurality of elements are coupled to a ROM or PROM to provide a comparison circuit or to provide a pixel fill calculator circuit. 35. The method of claim 30 wherein the PROM or ROM outputs a ranking value to cause modification of the value of a central element thereby providing a modified version of the image. 36. The method of claims 5, 6, 10, 14, 15, 16, 17, 18 or 19 wherein the comparing step includes matching the elements by similarity or disregarding dissimilar elements. 37. The method of claims 5, 6, 10, 14, 15, 16, 17, 18 or 19 wherein the comparing step includes comparing a first group of elements and at least one other group of elements and ranking the groups according to similarity of the elements in each group. 38. The method of claims 5, 6, 10, 14, 15, 16, 17, 18 or 19 wherein the plurality of elements comprise element values and the method further comprises the step of determining whether the element values match other known elements. 39. The method of claims 14, 15, 18 or 19 wherein the modifying step includes adding a pixel to the central element or extending the central element. 40. The method of claims 14, 15, 18 or 19 wherein the modified version of the image includes at least one more element than the central element. 41. The method of claims 14, 15, 18 or 19 wherein the modified version of the image is displayed using a deflected light beam which deflection includes a video fill circuit. 42. The method of claims 5, 6, 10, 11, 12, 13, 14, 15 16, 17, 18 or 19 wherein the image is displayed on a matrix type or on a scanned display. 43. The method of claims 12, 13, 16 or 17 wherein the matrix type display includes a matrix of displayed pixels, the method further comprising the steps of scanning the displayed pixels via address selection and generating new displayed pixels between the original elements of the image. 44. The method of claims 10, 12, 13, 16 or 17 wherein the filling step causes the displayed version of the original stair stepped edge of the image to appear to be smooth or even. 45. The method of claims 10, 12, 13, 16 or 17 wherein the element is provided by an image fill signal. 46. The method of claims 10, 12, 13, 16 or 17 further comprising the step of scan modulation of the image which is displayed by scanning. 47. The method of claims 10, 12, 13, 16 or 17 wherein the electronic signal includes a vertical fill signal and the filling step includes vertical modulation of the scanning of the displayed image in response to the vertical fill signal. 48. The method of claims 10, 12, 13, 16 or 17 wherein the electronic signal includes a horizontal fill signal and the filling step includes horizontal modulation of the scanning of the displayed image in response to the horizontal fill signal. 49. The method of claims 10, 12, 13, 16 or 17 wherein the filling step includes at least one of the following steps: a) at least one of: replicating, creating and altering one of more elements, b) reducing the bandwidth of the signal, c) at least one of: changing the size, shape, value, intensity and brightness of an element, d) repeating one or more elements, e) generating a new edge, and f) at least one of: spatially and temporally modifying the void. 50. The method of claims 5, 6 or 11 wherein the altering step includes at least one of the following steps: a) filling the void, b) repeating one or more elements to alter the void, c) moving one or more elements to alter the void, d) changing the address of one or more elements to alter the void, e) replicating one or more elements to alter the void, f) correcting one or more elements to alter the void, g) improving one or more elements to alter the void, h) processing one or more elements to alter the void, i) modifying one or more elements to alter the void, j) replacing one or more elements to alter the void, k) substituting one or more elements to alter the void, l) adding to one or more elements to alter the void, m) providing additional elements to one or more elements to alter the void, n) creating one or more new elements spatially located between two of the other elements to alter the void, o) modifying the void, p) changing the size, shape, location, value, brightness or intensity of one or more elements to alter the void, q) spatially modulating the void, r) temporally modulating the void, s) turning an off pixel on or an on pixel off to alter the void, t) reducing the bandwidth of the signal to alter the void, and u) generating one or more new elements to alter the void. 51. The method of claims 5, 6 or 11 wherein the step of altering the void causes the displayed image of the stair stepped edge to appear to be more smooth or even. 52. The method of claims 5, 6, 10, 11, 12 or 16 wherein the plurality of elements are at least one of: a) elements neighboring the void on one or more sides but less than all sides, b) elements neighboring the void on all sides, c) elements adjacent to the void, d) elements separated from the void by intervening elements, and e) elements separated from the void by intervening elements and the method further comprising an interlaced field scan device wherein alternating fields are paired. 53. The method of claims 10, 11, 12 or 16 wherein the element is: a) a spaced element which has a statistical capability of being similar to the void, b) of a greater than minimal statistical probability of being similar to the void, or c) of a greater than minimal statistical probability of being similar to the void and the percentage of similarity is over 50%. 54. The method of claims 13 or 17 further comprising the step of ranking the elements so that the image fill element is generated in response to the ranking of the elements. 55. The method of claims 13 or 17 further comprising the step of finding a difference between select ones of the plurality of elements so that the image fill element is generated in response to the difference between the select ones of the plurality of elements. 56. The method of claims 13 or 17 further comprising the step of generating a plurality of image fill elements, wherein a quantity of the image fill elements in a frame is greater than an original quantity of the elements in said frame. 57. The method of claims 13 or 17 further comprising the steps of calculating the image fill element stored in a field of a frame and displaying new frames of video in at least one of: a prior time sequence, and a prior space sequence. 58. The method of claims 13 or 17 wherein the image content is generated by at least one of: a comparison of neighboring elements including elements from at least one field occurring in time before or after the field being displayed; and from at least one frame occurring in time before or after the frame being displayed. 59. The method of claims 13 or 17 wherein the image fill element is generated by comparison of neighboring elements including elements from at least one frame occurring in time before or after the frame being displayed. 60. The method of claims 13 or 17 wherein the location of the image fill element is at least one of: between two horizontally aligned original image elements; between vertically aligned original image elements; between spatially coincident and time sequential original image elements with respect to its position when displayed. 61. The method of claims 5, 6, 10, 11, 12, 13, 14, 15, 16, 17, 18 or 19 wherein the image is represented by three signal components conveying brightness and color having only two brightness levels for each color. 62. The method of claims 6, 10, 14, 15, 16, 17, 18 or 19 wherein the plurality of elements include at least three adjacent elements, three neighboring elements, three groups of elements or three elements from multiple fields. 63. The method of claims 14 and 18 wherein the determining step includes matching at least two of the plurality of elements with at least one pattern by similarity or by disregarding dissimilar elements. 64. The method of claims 5, 6, 10, 11, 12, 13, 14, 15 16, 17, 18 or 19 wherein the plurality of elements provides digital data for systems including one of JPEG compression, MPEG compression, fax, modem, laser printer or digital video. 65. The method of claims 5, 6, 10, 11, 12, 14, 15, 16, 17 or 19 wherein improving the apparent resolution of the image includes enhancing the apparent resolution of the displayed image, increasing the apparent resolution of the displayed image, spatially improving the apparent resolution of the displayed image or temporally improving the apparent resolution of the displayed image. 66. The method of claims 5, 6, 10, 11, 12, 13, 14, 15 16, 17, 18 or 19 wherein the displayed image is an interlaced display or a progressive display. 67. The method of claims 5, 6, 10, 11, 12, 13, 14, 15 16, 17, 18 or 19 wherein the display device is monitor or a television. 68. The method of claim 67 wherein the monitor is an LCD or a digital video display. 69. The method of claims 6, 10, 14, 15, 16, 17, 18 or 19 wherein the pattern derives from a logic equation. 70. The method of claims 6, 10, 14, 15, 16, 17, 18 or 19 wherein the pattern comprises a template and the method comprises the additional step of determining if the template matches elements in the image. 71. The method of claims 5, 11, 12, 13, 14, 16, 17 or 18 wherein the stair stepped edge is jagged or uneven. 72. The method of claims 5, 10, 11, 12, 13, 14, 15 16, 17, 18 or 19 wherein said elements form pixels.

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Starkweather Gary K. (Saratoga CA), Flying spot scanner.
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Tsujimura Katsuhito,JPX, Frame synchronizer apparatus for synchronizing video and audio data to a reference signal.
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Aiba Masahiko (Nara JPX) Sakama Minoru (Nara JPX), Frequency converter for use in a laser printer.
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Trueblood John W. (Escondido CA) Mizuno Masami (Tokyo JPX), Gamma corrected anti-aliased graphic display apparatus.
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Roberts Alan (Sutton EN), Generation of dot matrix characters on a television display.
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Mosier Donald E. (Cedar Rapids IA), Graphic dot flare apparatus.
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Liao Henry H. J. (Carrollton TX), Gray scale interpolation technique.
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Favreau Michel (Paris FRX), High definition television system.
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Rider ; Ronald E. ; Lampson ; Butler W., High resolution character generator.
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Seitz ; Charles Lewis ; Grunewald ; Paul, High resolution character generator for digital display units.
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Songer Jimmie D. (Burleson TX), High resolution color television.
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Schine Jonathan M. (Los Angeles CA), High resolution dot-matrix character display.
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Spencer David R. (Melville NY) Goldstein Amnon (Pelham NY) Grey David (Lexington MA) Balchunas Theodore G. (Huntington Station NY) Kaplan Arthur B. (Merrick NY), High resolution laser printer.
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Songer Jimmie D. (Burleson TX), High resolution television.
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Demetrescu Stefan (Irvine CA), High speed memory and processor system for raster display.
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Wiener Patricia P. (La Honda CA), Image bit structuring apparatus and method.
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Barski Lori L. (North Chili NY) Gaborski Roger S. (Pittsford NY), Image character enhancement using a stroke strengthening kernal.
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Mailloux Louis D. (Fairport NY) Casey Brendan C. (Webster NY), Image enhancement through digital darkness control.
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Mama Takashi (Yokohama JPX) Asada Kenichirou (Tokyo JPX) Fujioka Takanobu (Tokyo JPX) Kaneko Yoshio (Tokyo JPX) Kogure Masaaki (Asaka JPX), Image forming apparatus.
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Nagata Satoshi (Tama JPX), Image forming apparatus.
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Maniwa Yoshio (Yokohama JPX) Morita Takashi (Yokohama JPX), Image forming system with memory duplex printing.
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Overall Gary Scott ; Wright Phillip Byron, Image improvement after facsimile reception.
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Sekizawa Hidekazu (Yokohama JPX), Image information signal processing apparatus for improving reproduced image quality by discriminating the type of input.
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Darby Samuel E. (Harrow GB2) Hayhoe Brent A. (East Finchley GB2), Image modification.
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Guebey Patrick (Parmain FRX), Image processing apparatus.
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Shirasaka Akifumi,JPX, Image processing apparatus and method for smoothing stairway-like portions of a contour line of an image.
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Loveridge Jennifer C. (Middlesex GBX) Powell Philip G. (Cheltenham GBX), Image processing method for the removal of spot defects and apparatus therefor.
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Masegi Koichi (Yokohama JPX) Kitamura Takashi (Yokohama JPX), Image recording apparatus capable of representing half-tones on an image.
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Shimizu Haruo (Yokohama JPX), Image recording system for image recording in response to signals entered from a recording information generating unit.
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Pugsley Peter C. (Pinner GB2), Image reproduction method and apparatus.
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Katagi ; Kazuo, Image resolution enhancement method and apparatus.
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Cahill Lysle D. (Dayton OH), Imaging by varying the placement of elements in the pixels.
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Ryan John O. (Cupertino CA), Information dissemination using various transmission modes.
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DeBaryshe P. G. (103 Davis St. Bedford MA 01730), Intensity controlled and aperature defining image generating system.
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Bassetti Larry W. (Boulder CO) Kantor Sherwood (Boulder CO) Richert Janis K. (Longmont CO), Interacting print enhancement techniques.
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Sato Koichi (Kanagawa JPX), Interpolation signal generating circuit for progressive scanning conversion system television receiver.
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Bernard Francis S. (Plainsboro NJ) Patel Chandrakant B. (Hopewell NJ), Interstitial signal generating system.
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Muka Edward (Rochester NY), Laser printer for printing a plurality of output-images sizes.
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Ohnishi Masahiro (Asaka JPX) Kimura Tsutomu (Asaka JPX), Light beam recording device.
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Lyman Richard Ricker (Palo Alto CA) Waitman Thomas Frank (Cupertino CA), Linked list data encoding method and control apparatus for a visual display.
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Walsh Brian F. (Etna NH) Halpert David E. (Enfield NH), Low resolution raster images.
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Hopkins ; Jr. ; Robert Sherman ; Banks ; Arthur James ; Dischert ; Robe rt Adams, Memory read/write organization for a television signal processor.
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Karow Peter (Hamburg DEX), Method and apparatus for automatic digitizing of contour lines.
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Massmann Volker (Ober-Ramstadt DEX) Poetsch Dieter (Ober-Ramstadt DEX), Method and apparatus for concealing errors which extend over several pixels in a digital video signal.
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Castro Marcelo (Carlos Pellegrini 885 Buenos Aires ARX) Castro Horacio (Carlos Pellegrini 885 Buenos Aires ARX), Method and apparatus for controlling a subscriber phone system including at least one automatic phone-answering machine.
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Kanno Yoshimitsu (Sagamihara JPX) Kurosawa Toshiharu (Yokohama JPX) Kawakami Hidehiko (Tokyo JPX) Kotera Hiroaki (Kawasaki JPX) Tsuchiya Hiroyoshi (Abuta JPX) Ohira Hideaki (Ueda JPX) Hashizume Mutuo, Method and apparatus for converting a line density of a bi-level image signal.
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Willis Donald H. (Indianapolis IN) Canfield Barth A. (Indianapolis IN), Method and apparatus for correcting timing errors as for a multi-picture display.
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Spicer ; Denis Frank, Method and apparatus for displaying alphanumeric data.
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Ballantyne Douglas J. (21 Horner Dr. Nepean ; Ontario ; K2H 5E6 CAX) Mulhall Michael (28 Carlyle Ave. Ottawa ; Ontario ; K1S 4Y3 CAX), Method and apparatus for distribution of movies.
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Morrison Eric Fraser, Method and apparatus for encoding and storing audio/video information for subsequent predetermined retrieval.
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Bassetti Larry W. (Boulder CO) Hooker ; III Ross B. (Boulder CO) Kantor Sherwood (Boulder CO), Method and apparatus for enhancing the resolution of an electrophotographic printer.
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DeForest Sherman (Del Mar CA) Seegmiller S. Dale (Solana Beach CA), Method and apparatus for enhancing video displays.
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Suzuki Naoshi (Fujisawa JPX) Yanagisawa Hiroshi (Yokohama JPX) Yokemura Taketoshi (Yokohama JPX), Method and apparatus for enlarging or reducing an image on the basis of precalculated reference pel contribution rate da.
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Staggs Kevin P. (Glendale AZ) Clarke ; Jr. Charles J. (Phoenix AZ) Huntington James C. (Phoenix AZ), Method and apparatus for filling polygons displayed by a raster graphic system.
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Wingfield Perry E. (Tigard OR) Petrick Bruce E. (Lake Oswego OR), Method and apparatus for forming 3×3 pixel arrays and for performing programmable pattern contingent modifications of t.
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Wiedenman Gregory B. (Sandy UT) Morley Kenneth S. (West Valley City UT) Frederickson Gary H. (Salt Lake City UT) Williams Jeffrey L. (Hopkinton MA), Method and apparatus for high speed graphics fill.
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Birch Christopher H. (Toronto CAX), Method and apparatus for improving vertical definition of a television signal by scan conversion.
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Petrick Bruce E. (Lake Oswego OR) Wingfield Perry E. (Tigard OR), Method and apparatus for input picture enhancement by removal of undersired dots and voids.
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Noske Reiner (Darmstadt DEX) Richter Hans-Peter (Gross-Bieberau DEX) Heitmann Jurgen (Alsbach-Hhnlein DEX), Method and apparatus for maintaining audio/ video synchronism in a television signal read-out from a digital buffer memo.
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Wang Jane (Framingham MA), Method and apparatus for performing polygon fills in graphical applications.
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Nakamura Junichi,JPX ; Tomizawa Kenji,JPX ; Machiguchi Yoshihiro,JPX ; Nagano Shuichi,JPX, Method and apparatus for performing variable speed reproduction of compressed video data.
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Fox Edward C. ; Lyons Paul Wallace ; Wine Charles, Method and apparatus for preserving synchronization of audio and video presentation when splicing transport streams.
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Yoknis Myron E. (Windsor CO), Method and apparatus for print image enhancement.
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Holt Arthur W. (20 Wardour Dr. Annapolis MD 21401), Method and apparatus for processing bank checks, drafts and like financial documents.
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Pagallo Giulia (Cupertino CA), Method and apparatus for processing graphically input equations.
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Edelson Steven D. (7 Sears Rd. Wayland MA 01778), Method and apparatus for providing anti-aliased edges in pixel-mapped computer graphics.
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Sakai Yukio (Hirakata JPX) Yamazaki Fumio (Hirakata JPX) Satoh Isao (Neyagawa JPX), Method and apparatus for scanning light beam.
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Ryan John O. (Cupertino CA) Quan Ronald (Cupertino CA) Holzgrafe James R. (Morgan Hill CA) Wonfor Peter J. (El Granada CA), Method and apparatus for scrambling and descrambling.
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Faroudja Yves C. (26595 Anacapa Dr. Los Altos Hills CA 94022), Method and apparatus for separation of chrominance and luminance with adaptive comb filtering in a quadrature modulated.
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Matsuda Hikaru (Kanagawa JPX), Method and apparatus for solid state image processing.
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Yu Wellington C. (San Jose CA), Method and apparatus for storing and reconstructing Chinese-like characters.
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Haussmann Wolfgang (Munich DEX) Lder Rainer (Oberhaching DEX), Method and apparatus for the digital control of the phase of the system clock of a digital signal processing system.
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Barton James M., Method and apparatus implementing a multimedia digital network.
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Barton James M., Method and apparatus implementing random access and time-based functions on a continuous stream of formatted digital data.
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Ryan John O. (Cupertino CA), Method and system for audio information dissemination using various modes of transmission.
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Wendland Broder (Waltrop DEX), Method for a compatible increase in resolution in television systems.
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Burt Peter J. (Mercer County NJ) Adelson Edward H. (Mercer County NJ), Method for compensating for void-defects in images.
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Fiore Anthony M. (Kingston NY) Hempel Bruce C. (Tivoli NY) Laib Gregory D. (West Hurley NY) Liang Bob C. (West Hurley NY), Method for controlling concatenation of transformation matrices in a graphics display system.
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Song Woo-Jin (Waltham MA), Method for enhancing image data by noise reduction or sharpening.
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Mintzer Frederick C. (Shrub Oak NY) Anderson Karen L. (Peekskill NY) Mitchell Joan L. (Ossining NY), Method for expansion of a digital image.
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Barrett Peter T. (Palo Alto CA), Method for image compression on a personal computer.
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Schatz ; Bruce R. ; Wong ; Kwan Y., Method for improving print quality of coarse-scan/fine-print character reproduction.
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Ullrich Kathryn E. (Los Angeles CA) Walker Stephen S. (Marlborough MA) Calaby Lauren F. (Huntington Beach CA) Seibel David E. (Colleyville TX) Gillett Thomas F. (Ballwin MO), Method for providing video programming nearly on demand.
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Ohkouchi Fusakichi (Atsugi JPX) Suzuki Kazuhiro (Shimizu JPX), Method of and apparatus for compensating image in image reproduction system.
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Doyle Terence (Eindhoven) Looymans Martine (Eindhoven NLX), Method of and circuit for processing a picture signal.
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Bunker William M. (Ormond Beach FL) Merz Donald M. (Ormond Beach FL) Fadden Richard G. (Ormond Beach FL), Method of edge smoothing for a computer image generation system.
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Schuerman Cornelis P. (Venlo NLX), Method of generating line parts.
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Tanaka Kazurou (Hamamatsu JPX), Method of processing data for musical score display system.
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Ejiri Koichi (Chiba JPX) Kurose Morisumi (Yokohama JPX) Hayakawa Seiji (Tokyo JPX), Method of restoring a picture cell by estimation with high density.
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Sekigawa Keiji (Yokohama JPX), Method of restoring pictures with high density.
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Tillich, Peter, Method of typing scripts whose characters are arranged next to one another in rows or underneath one another in columns.
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Roe Malcolm D. M. (Herts GB2), Modulated beam scanning with pixal exposure control.
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Bergmann Hans C. (Neu-Isenburg DEX) Musmann Hans-Georg (Salzgitter-Bad DEX), Motion adaptive interpolation of television image sequences.
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May Roger A. (Longwood FL), Motion sensitive frame integration.
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Barton James M. ; McInnis Roderick James ; Moskowitz Alan S. ; Goodman Andrew Martin ; Chow Ching Tong ; Kao Jean Swey, Multimedia time warping system.
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Gennery Donald B. (Glendale CA), Neighborhood comparison operator.
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Stratton Boyd L. (Woodside CA), Noise adjusted recursive filter.
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Drewery John Oliver (Coulsdon EN) Weston Martin (Epsom EN), Noise reduction in television signals.
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Kaiser Arthur (Trumbull CT) Moore James Kenneth (Springdale CT) Glenn ; Jr. William E. (Fort Lauderdale FL), Noise reduction system for color television.
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Cooper J. Carl (1373 Sydney Dr. Sunnyvale CA 94087), Noise reduction system for video signals.
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Tagawa Takao (Kashihara JPX) Urakawa Toshio (Yamatokoriyama JPX), Optical system for laser printer.
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Rider Ronald E. (Menlo Park CA) Lampson Butler W. (Portola Valley CA), Parallel run-length decoder.
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Schine Jonathan M. (Los Angeles CA), Phase and amplitude control of vertical modulation in horizontal scan of CRT high resolution television.
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Honjo Masahiro (Neyagawa JPX) Takeuchi Akihiro (Ikoma JPX) Ochi Atsuo (Kadoma JPX) Aki Shinichi (Osaka JPX) Nakagawa Yukio (Moriguchi JPX) Kobayashi Masaaki (Kawanishi JPX), Phase locked loop circuit with quickly recoverable stability.
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Murayama Noboru (Machida JPX) Suzuki Koichi (Yokohama JPX), Picture element data generating method.
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Shinya Tadao (Yokohama JPX), Picture information processing system.
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Michael Peter C. (Newbury GB2) Taylor Richard J. (London GB2) Trump Martin R. (Newbury GB2), Picture manipulation in video systems.
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Tung Charles C. (Boise ID), Piece-wise print image enhancement for dot matrix printers.
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Tung Charles Cheng-Yuan (Boise ID), Piece-wise print image enhancement for dot matrix printers.
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Liang Bob C. (West Hurley NY) Tsakiris Todd N. (Hempstead NY), Polygon fill processor.
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Ueda Tomoaki (Kyoto JPX) Kai Takashige (Kusatsu JPX) Osaka Tatsuhiko (Kusatsu JPX) Nishiguchi Kazuo (Yasu JPX), Polygon-filling apparatus used in a scanning display unit and method of filling the same.
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Miura Kunihiko (Hiratsuka JPX), Printing apparatus.
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Casey Robert F. (Burgen County NJ), Progressive scan display system having intra-field and inter-field processing modes.
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Dischert Robert A. (Burlington NJ) Topper Robert J. (Hatboro PA) Shyu William M. (Edison NJ), Progressive scan processor with plural frequency band interpolation.
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Strolle Christopher H. (Glenside PA) Reitmeier Glenn A. (West Trenton NJ), Progressive scan television system with interlaced inter-field sum and difference components.
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Ryan John O. (Cupertino CA), Radio receiver for information dissemenation using subcarrier.
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Bechtolsheim Andreas (Stanford CA), Raster memory manipulation apparatus.
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Murray ; Paul Michael, Raster-scan display apparatus for computer-generated images.
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Achiha Masahiko (Iruma JPX) Ishikura Kazuo (Hachioji JPX), Scanning line interpolation circuit for television signal.
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Kawamura Naoto (Inagi JPX), Scanning optical system for formation of a half tone image.
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Kobayashi Shin\ya (Mito JPX) Anzai Masayasu (Hitachi JPX), Scanning recording type printing method and apparatus for increasing image quality by controlling tone dot locations wit.
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Chaplin Daniel J. (Nevada City CA), Self keyer with pre-emphasized fill video.
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Silver David S. (Beaverton OR), Semiautomatic lip sync recovery system.
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Nishiura Haruo (Tokyo JPX) Azuhata Hiroaki (Tokyo JPX), Shift register circuit.
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Watanabe, Toshiaki; Uenishi, Toshifumi; Sahara, Hiroshi; Yamaoka, Katsumi, Smoothing circuit for display apparatus.
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Neil Robert B. (Harvard MA) Adleman George L. (Brockton MA), Smoothing discontinuities in the display of serial parallel line segments.
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Dougall David A. (Basingstoke GB2) Wilkinson James H. (Heathlands GB2) Walker Gavin A. (Chineham GB2), Spatial interpolation between lines of a supersampled digital video signal in accordance with a gradient vector selected.
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Goldwasser Eric (993 Barberry Rd. Yorktown Heights NY 10598) Goldwasser Dorothy (993 Barberry Rd. Yorktown Heights NY 10598), Speech transcribing system.
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Songer Jimmie D. (Burleson TX), Standard transmission and recording of high resolution television.
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Peterson James R. (Portland OR) Doornink Douglas J. (Portland OR), System and method for converting a non-interlaced video signal into an interlaced video signal.
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Preiss Richard B. (Beaverton OR) Dalrymple John C. (Newberg OR), System and method for smoothing the lines and edges of an image on a raster-scan display.
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Neumann Leopold (Lexington MA) Kline ; II Richard B. (Stoneham MA) Scholz Wolfgang (Beverly MA), System containing a predetermined number of monitoring devices and at least one central station.
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Gittinger Norman C. (Schenectady NY), System for compatible transmission of high-resolution TV.
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Powers Kerns H. (Princeton NJ), System for generating and displaying a compatible high definition television signal by progressive scanning.
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Fernald Olaf H. (44 Hundreds Circle Wellesley Hills MA 02181), System for improving the resolution of alpha-numeric characters displayed on a cathode ray tube.
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Remy Maurice A. (10 ; Boulevard Volney Paris FRX) Poncin Jacques (10 ; Boulevard Volney 35000 Rennes FRX) Rogel Pierre R. (14 ; rue Frederic Sacher 35000 Rennes FRX), System for reducing the visibility of the noise in television pictures.
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Wischermann Gerhard (Darmstadt DEX), System for time compression and/or expansion of electrical signals.
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Fuse Yuzo (Tokyo JA), System for use in television receivers for providing improved sharpness of images.
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Tweedy Ernest P. (Lexington MA) Lin Eric C. W. (Franklin MA) Eichelberger George P. (Fairfield CT) Mustafa Mehmet (Waltham MA), Telecommunication system with video and audio frames.
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Morrison Eric Fraser (Redwood City CA), Television aperture correction system having gateable coring means for noise cancellation.
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Lord Arthur V. (Lower Kingswood GB2) Hacking Kenneth (Tadworth GB2) Drewery John O. (Coulsdon GB2), Television display system.
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Powers Kerns H. (Princeton NJ), Television display system with reduced line-scan artifacts.
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Dischert Robert A. (Burlington NJ), Television display with doubled horizontal lines.
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Reitmeier Glenn A. (Trenton NJ), Television image size altering apparatus.
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Staron Alain (Paris FRX), Television receiver with deferred transmission of moving image sequences.
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Campbell Jack J. (San Francisco CA) Faroudja Yves C. (Los Altos CA) Lyon Thomas C. (San Jose CA), Television scan line doubler including temporal median filter.
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Young Patrick (San Mateo CA) Roop John H. (Palo Alto CA) Faber Michael W. (Pleasanton CA), Television schedule system.
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Logan James ; Goessling Daniel, Time delayed digital video system using concurrent recording and playback.
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Rose Robert C. (Hudson MA) Forrester Ned C. (Falmouth MA), Transformation circuit to effect raster operations.
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Hempel Bruce C. (Tivoli NY) Laib Gregory D. (West Hurley NY) Liang Bob C. (West Hurley NY), Traversal method for a graphics display system.
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Minoura Kazuo (Yokohama JPX) Kiyohara Takehiko (Zama JPX) Uchiyama Haruo (Kawasaki JPX), Two-dimensional scanning device having compensation for scanned image strain.
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Shiraishi Takashi (Yokohama JPX), Variable intensity light beam scanning apparatus with feedback.
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Shiraishi Takashi (Yokohama JPX), Variable light beam scanning apparatus.
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Bhadkamkar Neal A. ; Ahmad Subutai ; Covell Michele, Variable rate video playback with synchronized audio.
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Simkovitz Mark D. (Oak Park MI), Variable size character generator.
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Goldwasser Eric P. (993 Barberry Rd Yorktown Heights NY 10598) Goldwasser Romi E. (140 E. 46th St. ; Apt. 6-B New York NY 10017), Variable-delay video recorder.
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Marshall Connie T. (Muskogee OK) Lemmons Thomas R. (Coweta OK) Allison Donald W. (Tulsa OK), Video clip program guide.
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Marshall Connie T. ; Lemmons Thomas R. ; Allison Donald W., Video clip program guide.
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Sakamoto Tomosada (Tokyo JPX), Video data interpolation apparatus.
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Wood Anthony ; Woodward ; Jr. Donald, Video data recorder with integrated channel guides.
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Asai Toshiya,JPX, Video editing apparatus.
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Balopole Harvey L. (Little Neck NY) Martinolich James J. (Seaford NY) Roberts Arthur (Fresh Meadows NY) Sadowski Henry W. (Plainview NY), Video enhancement method and system.
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Searby Anthony D. (Newbury GB2), Video image processing system.
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Esch Arthur G. (26 Paw Paw La. Leonardtown MD 20650) Singer Edward A. (13 E. Spring St. Alexandria VA 22301), Video information delivery method and apparatus.
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Nakatani Yoshihiro,JPX ; Nakayama Tadayoshi,JPX ; Hirose Hisataka,JPX ; Fukatsu Tsutomu,JPX ; Sato Chikara,JPX, Video memory device for processing a digital video signal comprising a separation means which separates a horizontal sy.
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Sypula Richard Joseph (Rochester NY), Video noise reduction circuit.
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Antonio Robert C. (San Carlos CA) Bennett Phillip P. (Portola Valley CA) Andrews Mark R. (Foster City CA), Video sample rate converter.
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Horiuchi Yuichi (Hitachi JPX), Video signal generating apparatus for laser beam printer.
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Bates Roger D. (Sunnyvale CA), Video signal generating apparatus with separate and simultaneous processing of odd and even video bits.
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Ito Syoichi (Ibaraki JPX) Akahori Ken-ichi (Hitachi JPX), Video signal generating circuit.
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Iu Siu-Leong (Bensalem PA), Video signal noise reduction system using time-varying filter coefficients.
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Annegarn Marcellinus J. J. C. (Eindhoven NLX) Doyle Terence (Eindhoven NLX) Frencken Peter H. (Eindhoven NLX) Van Hees Dirk A. (Eindhoven NLX), Video signal processing circuit for processing an interlaced video signal.
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Mori Ryoichi (c/o Institute of Information Sciences and Electronics University of Tsukuba ; 1-1 ; Tennodai ; 1-chome Tsukuba-shi ; Ibaragi-ken JPX) Toraichi Kazuo (Sayama JPX) Kamada Masaru (Tsukuba , Video signal processing system for producing intermediate pixel data from neighboring pixel data to improve image qualit.
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Tenenbaum Jay M. (Portola Valley CA) Deering Michael F. (Mountain View CA), Video stream processing system.
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Gupta Satish (Croton-On-Hudson NY) Lucas Bruce D. (Pittsburgh PA), Virtual resolution displays.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Spatial scan replication circuit 원문보기

초록

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연합인증

Spatial scan replication circuit 원문보기

초록

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연구과제 타임라인

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IPC 상위 출원인

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