专利检索_..结合录音的专利检索_..结合录音的专利检索查询

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
1	解码和播放在照片上以红外墨水编码的声音的读取器	CN01817749.2	2001-10-19	CN1471658A	2004-01-28	卡·西尔弗布鲁克; 保罗·拉普斯顿; 西蒙·罗伯特·瓦尔姆斯利
本发明公开了一种用于播放预先记录的音频信息的系统，所述音频信息以容错方式被编码为与摄影图像一道由喷墨打印系统打印的一系列红外墨水点，该系统包括：用于扫描该红外(IR)形式的预先记录的音频的红外扫描仪；与所述红外扫描仪互连的处理器，用于解码该扫描的音频编码以产生相应的音频信号；与所述处理器互连的音频发射器，用于即时发射或播放所述相应的音频信号。编码可以包括对预先记录的音频信息的里德－所罗门编码且可包括一系列红外墨点，这些红外墨点被高频调制以帮助扫描。所述系统可包括一带有槽的棒状臂，所述照片可插入穿过该槽。
2	彩色胶片的显影剂组合物及其显影方法	CN200680024648.6	2006-06-05	CN101218537B	2013-01-30	罗伯特·A·奥尔森; 迈克尔·A·扎卡赖亚; 沃伦·普罗克斯
描述了一种处理彩色胶片的方法和组合物。通过使用第一组合物和第二组合物显影彩色胶片，处理该彩色胶片。该第二组合物是包括缓冲剂、抗氧化剂、防腐剂、氢氧化物及选自氢醌和抗坏血酸的显影剂的水性组合物。
3	视觉胶片标识	CN200680040952.X	2006-06-16	CN101300526B	2012-03-21	罗伯特·A·奥尔森
一种用于标识胶片的方法，包括紧邻胶片长度上的穿孔定位视觉标识符。优选地，视觉标识符位于与远离胶片上的声音轨的边邻近的胶片上的穿孔之间。
4	彩色胶片的显影剂组合物及其显影方法	CN200680024648.6	2006-06-05	CN101218537A	2008-07-09	罗伯特·A·奥尔森; 迈克尔·A·扎卡赖亚; 沃伦·普罗克斯
描述了一种处理彩色胶片的方法和组合物。通过使用第一组合物和第二组合物显影彩色胶片，处理该彩色胶片。该第二组合物是包括缓冲剂、抗氧化剂、防腐剂、氢氧化物及选自氢醌和抗坏血酸的显影剂的水性组合物。
5	用于播放音频的系统和解码音频信号的方法	CN200510072035.7	2001-10-19	CN100343756C	2007-10-17	卡·西尔弗布鲁克; 保罗·拉普斯顿; 西蒙·罗伯特·瓦尔姆斯利
一种用于播放被编码成打印在照片上的不可见点的阵列的预先记录的音频的系统，所述系统包括：红外扫描器装置，用于扫描所述预先记录的音频的打印的红外墨点；处理器装置，其被互连到所述红外扫描器装置，用于解码所述被扫描的音频编码，以产生对应的音频信号；和音频发射器装置，其被互连到所述处理器装置，用于依需要发射或者播放所述对应的音频信号；其中所述编码包括对所述IR点阵列的高频棋盘调制。
6	结合音频数据的照片	CN200510072035.7	2001-10-19	CN1696825A	2005-11-16	卡·西尔弗布鲁克; 保罗·拉普斯顿; 西蒙·罗伯特·瓦尔姆斯利
一种用于播放被编码成打印在照片上的不可见点的阵列的预先记录的音频的系统，所述系统包括：红外扫描器装置，用于扫描所述预先记录的音频的打印的红外墨点；处理器装置，其被互连到所述红外扫描器装置，用于解码所述被扫描的音频编码，以产生对应的音频信号；和音频发射器装置，其被互连到所述处理器装置，用于依需要发射或者播放所述对应的音频信号；其中所述编码包括对所述IR点阵列的高频棋盘调制。
7	用光学方式记录数字数据和模拟声迹的系统,以及其上记录有数字数据和模拟声迹的媒体	CN96197750.7	1996-08-26	CN1113271C	2003-07-02	小R·E·卡拉汉; H·J·弗勒明; L·H·雷瑟; S·F·乔内斯; D·B·乌德
一种光敏媒体，例如电影胶片，其上具有用光学方式记录的多种格式的数字数据和模拟音频信号，和用光学方式在一种媒体上以多种格式记录数字数据(可取的是包含数字音频比特)以及模拟音频信号的一种系统。图中所示为本发明系统的一个实施例的方块示意图，其包括用光学方式实时地在同一电影胶片(61)上记录数字和模拟音频信号的一个第一摄影机联合装置(56、58)，还包括用于以低于实时速率的速率在同一胶片(61)上记录附加数据的一个第二摄影机联合装置(96)。
8	视觉胶片标识	CN200680040952.X	2006-06-16	CN101300526A	2008-11-05	罗伯特·A·奥尔森
一种用于标识胶片的方法，包括紧邻胶片长度上的穿孔定位视觉标识符。优选地，视觉标识符位于与远离胶片上的声音轨的边邻近的胶片上的穿孔之间。
9	解码和播放在照片上以红外墨编码的声音的读取器	CN01817749.2	2001-10-19	CN1210614C	2005-07-13	卡·西尔弗布鲁克; 保罗·拉普斯顿; 西蒙·罗伯特·瓦尔姆斯利
本发明公开了一种用于播放预先记录的音频信息的系统，所述音频信息以容错方式被编码为与摄影图像一道由喷墨打印系统打印的一系列红外墨水点，该系统包括：用于扫描该红外(IR)形式的预先记录的音频的红外扫描仪；与所述红外扫描仪互连的处理器，用于解码该扫描的音频编码以产生相应的音频信号；与所述处理器互连的音频发射器，用于即时发射或播放所述相应的音频信号。编码可以包括对预先记录的音频信息的里德-所罗门编码且可包括一系列红外墨点，这些红外墨点被高频调制以帮助扫描。所述系统可包括一带有槽的棒状臂，所述照片可插入穿过该槽。
10	用光学方式记录数字数据和模拟声迹的系统,以及其上记录有数字数据和模拟声迹的媒体	CN96197750.7	1996-08-26	CN1200181A	1998-11-25	小R·E·卡拉汉; H·J·弗勒明; L·H·雷瑟; S·F·乔内斯; D·B·乌德
一种光敏媒体,例如电影胶片,其上具有用光学方式记录的多种格式的数字数据和模拟音频信号,和用光学方式在一种媒体上以多种格式记录数字数据(可取的是包含数字音频比特)以及模拟音频信号的一种系统。图中所示为本发明系统的一个实施例的方块示意图,其包括用光学方式实时地在同一电影胶片(61)上记录数字和模拟音频信号的一个第一摄影机联合装置(56、58),还包括用于以低于实时速率的速率在同一胶片(61)上记录附加数据的一个第二摄影机联合装置(96)。
11	TRANSPARENT MAGNETIC RECORDING LAYERS AND PHOTOGRAPHIC ELEMENTS CONTAINING THE SAME	PCT/US9108050	1991-11-05	WO9208165A2	1992-05-14	JAMES ROBERT O; BERTUCCI SIDNEY JOSEPH; OLTEAN GEORGE LESLIE
A photographic element including a light-sensitive layer and a transparent magnetic layer wherein the magnetic particles in the transparent binder are cobalt suface treated gamma iron oxide (Fe2O3) having a specific area of at least 30 m2/g, the particles being coated with from about 10 to about 50 % by weight of a material having a refractive index less than that of the binder, the particles having a powder coercivity greater than about 450 Oe.
12	REPRODUCING SOUND ENCODED IN INFRARED INK ON PHOTOGRAPHS	PCT/AU2001/001327	2001-10-19	WO02035286A1	2002-05-02
A system is disclosed for playing prerecorded audio encoded in a fault tolerant manner as a series of infra-red ink dots printed along with a photographic image using an ink jet printing system, the system comprising an infra-red scanner for scanning the infra-red (IR) form of the prerecorded audio; a processor interconnected to the IR scanner for decoding the scanned audio encoding to produce a corresponding audio signal; and an audio emitter interconnected to the processor for emitting or playing the corresponding audio signal on demand. The encoding can include Reed-Solomon encoding of the prerecorded audio and can comprise an array of infrared ink dots which are high frequency modulated to aid scanning. The system can include a wand-like arm having a slot through which the photograph is inserted.
13	VISUAL FILM IDENTIFICATION	PCT/US2006023491	2006-06-16	WO2007055747A3	2007-06-28	OLSON ROBERT ARTHUR
A method for identifying film includes locating a visual identifier proximally to perforations on a film length. Preferably, the visual identifier is located between perforations on the film proximal to an edge distal from a soundtrack on the film.
14	COLOR FILM DEVELOPER COMPOSITION AND PROCESS THEREFOR	PCT/US2006021623	2006-06-05	WO2007005169A3	2008-01-17	OLSON ROBERT ARTHUR; ZACHARIA MICHAEL ANTHONY; PROULX WARREN
A method and composition for processing color film is described. The color film is processed by developing it using first and second compositions. The second composition is an aqueous composition including a buffer, an antioxidant, a preservative, a hydroxide and a developer selected from the group consisting of a hydroquinone and an ascorbic acid.
15	TRANSPARENT MAGNETIC RECORDING LAYERS AND PHOTOGRAPHIC ELEMENTS CONTAINING THE SAME	PCT/US9108050	1991-11-05	WO9208165A3	1992-06-25	JAMES ROBERT O; BERTUCCI SIDNEY JOSEPH; OLTEAN GEORGE LESLIE
A photographic element including a light-sensitive layer and a transparent magnetic layer wherein the magnetic particles in the transparent binder are cobalt suface treated gamma iron oxide (Fe2O3) having a specific area of at least 30 m2/g, the particles being coated with from about 10 to about 50 % by weight of a material having a refractive index less than that of the binder, the particles having a powder coercivity greater than about 450 Oe.
16	Silver halide color photographic sensitive material and treatment method	JP2004285290	2004-09-29	JP2006098783A	2006-04-13	SAKAI SHUICHI; ISHIZAKA TATSUYA
<P>PROBLEM TO BE SOLVED: To provide a silver halide color photographic sensitive material which can be treated in simplified and shortened exposure/processing processes. <P>SOLUTION: The silver halide color photographic sensitive material is a silver halide color printing photosensitive material, having on a transparent support at least one each of yellow, cyan and magenta-developing photosensitive silver halide emulsion layers, and also having at least one non-photosensitive hydrophilic colloidal layer, wherein a compound capable of forming a dye, having absorption in the infrared region by reaction with the oxidized body of a developing agent, is contained in at least one of these photosensitive silver halide emulsion layers or in a photosensitive silver halide emulsion layer different from the photosensitive silver halide emulsion layers in color sensitivity region, and the CTF (CI) of a formed infrared dye image and the CTF (CC) of a cyan dye image formed from the cyan developing photosensitive silver halide emulsion layer satisfy the relation 0.95<CI/CC<1.05, in a spatial frequency range of 2-20 c/mm. <P>COPYRIGHT: (C)2006,JPO&NCIPI
17	TRANSPARENT MAGNETIC RECORDING MEDIUM	JP2000153644	2000-05-24	JP2001043527A	2001-02-16	MATSUNAGA TADAHIRO; ARAI TSUTOMU; YASUDA TOMOKAZU
PROBLEM TO BE SOLVED: To provide a transparent magnetic recording medium having a coating surface excellent in surface properties and reliable magnetic input/output performance and to provide a silver halide photosensitive material containing the transparent magnetic recording medium. SOLUTION: The transparent magnetic recording medium is constituted of at least one layer of magnetic recording layer containing magnetic particles. An overcoating liquid containing at least one kind of wax lubricant dispersed material and at least one kind of anion surfactant in the amount of 0.1-30% of the total mass of the wax lubricant dispersed material is applied on the magnetic recording layer.
18	PHOTOGRAPHIC ELEMENT HAVING TRANSPARENT MAGNETIC RECORDING LAYER CAPABLE OF ANNEALING	JP26482599	1999-09-20	JP2000098516A	2000-04-07	YACOBUCCI PAUL D; JAMES ROBERT O; FALKNER CATHERINE A; MUSSHAFEN GEORGE
PROBLEM TO BE SOLVED: To obtain the photographic element improved in magnetic performance and photographic performance and transportation durability and head cleanability by forming a photosensitive silver halide emulsion layer on the front side of a support and the transparent magnetic recording layer containing magnetic grains and a dispersant and an aromatic polyester binder having a glass transition point Tg higher than a specified temperature on the reverse side of the support. SOLUTION: The photographic element has the photosensitive silver halide emulsion layer on the front side of the support and the transparent magnetic recording layer containing the magnetic grains and the dispersant and the aromatic polyester binder having a glass transition point Tg higher than 150 deg.C on the reverse side of the support. This polyester is produced by reaction of at least one dibasic aromatic acid, represented by the formula, with dihydroxyphenol, and in the formula, j is a specified substituent on the meta or para position to the carboxyl groups of the phenyl ring.
19	TRANSPARENT MAGNETIC RECORDING MEDIUM	JP27252398	1998-09-09	JP2000090429A	2000-03-31	MATSUNAGA TADAHIRO; ARAI TSUTOMU
PROBLEM TO BE SOLVED: To obtain an excellent transparent magnetic recording medium having good transparency which causes no error of magnetic input and output. SOLUTION: Relating to the magnetic recording medium having at least one magnetic recording layer containing magnetic particles on a supporting body, a layer containing the following substances is applied by coating as an upper layer on the magnetic recording layer side of the medium. This layer contains at least one kind of spherical inorg. particles having 6 to 8 Mohs' hardness which are subjected to surface treatment with at least one kind of primary to tertiary amine-based silane coupling agents, and a higher fatty acid ester lubricant.
20	PHOTOGRAPHIC ELEMENT WITH FORMED IMAGE	JP23262999	1999-08-19	JP2000089412A	2000-03-31	YAU HWEI-LING; CHEN TIENTEH; TAYLOR JEFFREY FACER; FLOOD ELMER CHARLES; DECKER DAVID EDWARD
PROBLEM TO BE SOLVED: To provide a water-resistant protective coating having resistance against scratches and fingerprints which can be easily applied as an aq. coating on a photographic product after an image is formed and treated and which can be dried to form a continuous layer under typical drying conditions without emitting volatile org. compds. SOLUTION: This photographic element with an image formed consists of a supporting body, at least one photosensitive silver halide emulsion layer laminated on the supporting body, and an overcoat layer formed on the photosensitive silver halide emulsion layer. The protective overcoat layer contains a first polymer insoluble with water and having <25 deg.C Tg (glass transition temp.) and a second polymer insoluble with water and having >25 deg.C Tg. The first or second polymer is prepared by incorporating monomers of the formula by 20 to 100 wt.%. In the formula, X is selected from a group of -Cl, -F and -CN, and Y is independently selected from a group of H, Cl, F or the like.

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