Nonogaki, JP
Akihiro Nonogaki, Tochigi JP
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20090197146 | FUEL CELL SEPARATOR AND MOLDING METHOD FOR FUEL CELL SEPARATOR - The present invention provides a resin molding method for fuel cell separator. The fuel cell separator includes: a resin mold region formed inward a predetermined distance from an edge; a through hole formed at the resin mold region; and a front end region formed between the through hole and the edge at the resin mold region. The resin molding method includes: a die set process that the resin mold region of the fuel cell separator is set in the die such that the front end region is held by a pair of anti-deformation pins of the die; and a resin filling process that a resin is filled in the die, wherein the resin is molded on the resin mold region of the fuel cell separator so as to be filled in the through hole, and a resin member is thereby molded on the resin mold region so as to extend outward from the edge. | 08-06-2009 |
Akihiro Nonogaki, Sakura-Shi JP
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20090042086 | FUEL CELL - A fuel cell according to the present invention includes a power generation cell. The power generation cell is formed by sandwiching a membrane electrode assembly between a first metal separator and a second metal separator. An oxygen-containing gas flow field is formed on one surface of the first metal separator, and a coolant flow field is formed on the other surface of the first metal separator. The first metal separator includes a corrugated metal plate. A resin frame member is provided on one surface of the metal plate, and a rubber seal is provided on the other surface of the metal plate. An oxygen-containing gas supply passage, an oxygen-containing gas discharge passage, a coolant supply passage, a coolant discharge passage, a fuel gas supply passage, and a fuel gas discharge passage extend through the metal plate, the resin frame member, and the rubber seal. | 02-12-2009 |
20100203425 | FUEL CELL AND METHOD OF PRODUCING THE SAME - A first separator to which a resin film is joined beforehand is set in a cavity formed between a lower die and an upper die of an injection molding machine. At the time of die locking by moving the upper die toward the lower die, in the case where the total thickness of the resin film and the first separator is larger than a predetermined dimension, the resin film is pressed by the lower die or the upper die, and thus, the resin film is deformed by compression within its elastic deformation range. | 08-12-2010 |
Hiroshi Nonogaki, Nagaokakyo-Shi JP
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20110278362 | WIRELESS IC DEVICE - A wireless IC device includes a dielectric body, a metal pattern that is provided on a surface of the dielectric body and that defines a radiator, and a wireless IC element coupled to feeding portions of the metal pattern. A plurality of slits are provided on at least one surface of the dielectric body so as to provide flexibility for the dielectric body. | 11-17-2011 |
20110279326 | WIRELESS IC DEVICE - A wireless IC device includes a substantially rectangular parallelepiped dielectric body, a metal pattern that is provided on the surface of the dielectric body via a film and functions as a radiator, and a wireless IC element coupled to feeding portions of the metal pattern. The dielectric body has a laminated structure including a folded flexible dielectric layer. Surfaces of the dielectric layer which face each other after the dielectric layer has been folded are non-bonded surfaces. | 11-17-2011 |
Katsunori Nonogaki, Miyagi JP
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20140155789 | ULTRASONIC IRRADIATION APPARATUS - An ultrasonic irradiation device | 06-05-2014 |
Keiichi Nonogaki, Aichi-Ken JP
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20110068783 | EDDY-CURRENT FLAW DETECTION METHOD AND APPARATUS - In detecting a flaw by generating an eddy current in a conductor, it is enabled to easily detect a flaw in the vicinity of a back surface of the conductor. An exciting device and a receiving device are held in the vicinity of a conductor, and an eddy current is generated in the conductor by a primary magnetic field generated by excitation, thereby generating a secondary magnetic field, the state of the magnetic field is detected by the receiving device. The exciting device includes a coil and an iron core. The coil has a first current line and a second current line in which an electric current flows in opposite directions. The iron core is gate-shaped in cross section and includes a first leg portion, a second leg portion, and a beam portion. The iron core is oriented such that an opening thereof on a side opposite to the beam portion faces the conductor. The first current line of the coil is disposed on an inner side of the two leg portions of the iron core. The second current line is disposed on an outer side of the first leg portion. Around the first current line is formed a magnetic circuit that passes through the first leg portion, the beam portion, the second leg portion, and the conductor. Around the second current line is formed a magnetic circuit that passes through the first leg portion and the beam portion. The receiving device is disposed in a corner between the second leg portion and the conductor, on a side opposite to the second current line on the outer side of the iron core. | 03-24-2011 |
Keiichi Nonogaki, Aichi JP
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20120112767 | CAPACITIVE PROXIMITY SENSOR - A capacitive proximity sensor giving a long front detection range with less erroneous detection. | 05-10-2012 |
Masatoshi Nonogaki, Osaka JP
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20150280478 | ELECTRONIC DEVICE, METHOD OF TRANSMITTING ELECTRIC POWER, AND ELECTRIC POWER TRANSMISSION SYSTEM - A mode setting module sets a mode of a smartphone B to an electric power transmission mode or an electric power reception mode based on a state of use of a smartphone A and the smartphone B. An electric power control module allows electric power transmission of electric power transmission and electric power reception when the electric power transmission mode is set, and allows electric power reception of electric power transmission and electric power reception when the electric power reception mode is set. | 10-01-2015 |
Masayasu Nonogaki, Shizuoka JP
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20130147876 | INKJET RECORDING INK - An inkjet recording ink including: water; a first pigment dispersion; a second pigment dispersion; and a penetrating agent, wherein the first pigment dispersion includes oxidized carbon black CB-1 dispersed therein with a pH of the first pigment dispersion adjusted to 6 to 8 with an alkali metal hydroxide, where the oxidized carbon black CB-1 is oxidized with ozone and has a volatile content of 10% to 20% and a BET specific surface area of 90 m | 06-13-2013 |
20130242013 | INKJET RECORDING INK, INK CARTRIDGE, AND INKJET RECORDING METHOD - An inkjet recording ink, including: water; a wetting agent; a colorant; and polymer microparticles, wherein the polymer microparticles are each a copolymer of a monomer represented by the following structural formula (1) or the following general formula (2), a monomer represented by the following general formula (3), and a macromonomer represented by the following general formula (4): | 09-19-2013 |
20140028765 | INK FOR INKJET RECORDING, INK CARTRIDGE AND INKJET RECORDING APPARATUS - An ink for inkjet recording including a pigment, a penetrating agent and water, wherein the pigment includes: an ozone-oxidized carbon black, including carbon black oxidized by ozone and having a volatile matter content of the carbon black of 10% by mass to 20% by mass and a BET specific surface area of 90 m | 01-30-2014 |
20140072779 | INKJET INK, INK CARTRIDGE, INKJET RECORDING DEVICE, AND INKJET PRINTED MATTER - Inkjet ink contains a pigment, a hydrosoluble solvent, and water, wherein the pigment is represented by the following chemical formula 1 and has a CuKα X-ray diffraction spectrum having a wavelength of 1.541 Å such that no main peak is observed at a Bragg (2θ±0.2°) angle in a range of 2θ of from 28.0° to 29.0°, | 03-13-2014 |
20140077486 | INKJET INK, INK CARTRIDGE CONTAINING THE INKJET INK, INKJET RECORDING METHOD USING THE INKJET INK, INKJET RECORDING APPARATUS USING THE INK CARTRIDGE, AND PRINT FORMED BY THE INKJET INK - An inkjet ink is provided. The inkjet ink includes water; a penetrant, a pigment, and a polymer compound. The polymer compound includes a unit (A) including a functional group having the below-mentioned formula (1) or (2), and another unit (B) including a carboxyl group. The unit (A) is included in the polymer compound in an amount of from 30% to 90% by weight based on the total weight of the polymer compound. | 03-20-2014 |
20140092180 | INK COMPOSITION, RECORDING METHOD, PRINTED MATTER, INK CARTRIDGE, AND INKJET RECORDING DEVICE - An ink composition contains a pigment represented by the following chemical formula 1; a hydrosoluble solvent; and water, wherein the pigment satisfies the following relation 1: 0.04004-03-2014 | |
20140120331 | INK FOR INKJET RECORDING - An ink for inkjet recording includes water, a water-soluble solvent, a pigment and a copolymer including a salt of phosphonic acid group. The copolymer including a salt of phosphonic acid group includes structural units having the following formulae (1) and (2) or (3): | 05-01-2014 |
20140141209 | INK FOR INKJET RECORDING, AND INK CARTRIDGE, INKJET RECORDING METHOD, INKJET RECORDER AND INK-RECORDER MATTER USING THE INK - An ink for inkjet recording includes water; a water-soluble solvent; a pigment; and a copolymer including a salt of phosphonic acid group. The copolymer including a salt of phosphonic acid group includes structural units having the following formulae (1) and (2): | 05-22-2014 |
20140199530 | INK FOR INKJET RECORDING, AND INK CARTRIDGE, INKJET RECORDING METHOD, INKJET RECORDER, INK-RECORDED MATTER AND METHOD OF PRODUCING THE INK-RECORDED MATTER USING THE INK - An ink for inkjet recording, which is used for recording on a paper having a concentration of an eluted Ca ion of from 1.0×10 | 07-17-2014 |
20140242352 | INKJET INK, INK STORAGE CONTAINER, INKJET RECORDING DEVICE, AND RECORDED MATTER - An inkjet ink that contains at least water; a water-soluble organic solvent; a pigment; and a copolymer or a salt thereof. The copolymer or the salt thereof has at least a structural unit represented by Formula 1, a structural unit represented by Formula 2, and a structural unit represented by Formula 3 or 4. | 08-28-2014 |
20140267516 | INKJET RECORDING INK AND INK CARTRIDGE USING THE INK, INKJET RECORDING APPARATUS, INKJET RECORDING METHOD AND INK RECORDING MATTER - An inkjet recording ink, including: water; a water-soluble solvent; a pigment; and a phosphate group-containing copolymer, wherein the phosphate group-containing copolymer includes a structural unit represented by the following general formula (1) and a structural unit represented by the following general formula (2): | 09-18-2014 |
20140275401 | INKJET RECORDING INK AND INK CARTRIDGE USING THE INK, INKJET RECORDING APPARATUS, INKJET RECORDING METHOD AND INK RECORDED MATTER - An inkjet recording ink, including: water; a water-soluble solvent; a pigment; and a phosphate group-containing copolymer, wherein the phosphate group-containing copolymer includes a structural unit represented by the following general formula (1) and a structural unit represented by the following structural formula (1): | 09-18-2014 |
20150056425 | INK FOR INKJET RECORDING - An ink for inkjet recording includes water; a hydrosoluble solvent, a pigment, and a copolymer including a salt of a diphosphonic acid group. The copolymer including a salt of a diphosphonic acid group includes structural units having the following formulae (1) and (2): | 02-26-2015 |
20150064418 | INK COMPOSITION, INK CARTRIDGE, INKJET RECORDING DEVICE, AND INKJET PRINTED MATTER - An ink composition contains a pigment; a copolymer containing a phosphoric acid group or phosphonic acid group; a hydrosoluble solvent; and water, wherein the pigment is represented by the following chemical formula 1 and satisfies the following relation 1: Y03-05-2015 | |
20150064425 | INK COMPOSITION, INK CARTRIDGE, INKJET RECORDING DEVICE, AND INKJET PRINTED MATTER - An ink composition contains a pigment; a copolymer comprising a phosphoric acid group or phosphonic acid group; a hydrosoluble solvent; and water, wherein the pigment is represented by the following chemical formula 1 and satisfies the following relation 1: | 03-05-2015 |
20150109382 | INK FOR INKJET RECORDING, INK CONTAINER, INKJET RECORDER AND RECORDED MATTER - An ink for inkjet recording includes water; a hydrosoluble organic solvent; a pigment; and a polymer including a first structural unit represented by the following formula (1): | 04-23-2015 |
20150116421 | INKJET RECORDING INK, INK CARTRIDGE USING THE INK, AND INKJET RECORDING DEVICE USING THE INK - An inkjet recording ink, including: water; a water-soluble solvent; a pigment; and a phosphoric acid group-containing copolymer, | 04-30-2015 |
20150125672 | INK FOR INKJET RECORDING, AND INK CARTRIDGE, INKJET RECORDING METHOD, INKJET RECORDER, INK-RECORDED MATTER AND METHOD OF PRODUCING THE INK-RECORDED MATTER USING THE INK - An ink for inkjet recording, which is used for recording on a paper having a concentration of an eluted Ca ion of from 1.0×10 | 05-07-2015 |
20150247049 | INKJET INK, INK CARTRIDGE, INKJET RECORDING DEVICE, AND INKJET PRINTED MATTER - Inkjet ink contains a pigment, a hydrosoluble solvent, and water, wherein the pigment is represented by the following chemical formula 1 and has a CuKα X-ray diffraction spectrum having a wavelength of 1.541 Å such that no main peak is observed at a Bragg (2θ±0.2°) angle in a range of 2θ of from 28.0° to 29.0°, | 09-03-2015 |
20150252203 | INK COMPOSITION, INK CARTRIDGE, INK RECORDING DEVICE, AND RECORDED MATTER - An ink composition contains a pigment, a polymer having a structure unit having a diphosphonic acid group, a hydrosoluble solvent, and water, and satisfies the following A and B. | 09-10-2015 |
20150259555 | INK FOR INKJET RECORDING, INK CONTAINER, AND INKJET RECORDING DEVICE - An ink for inkjet recording contains water, an organic solvent, a pigment, and a compound represented by the following Chemical formula 1: | 09-17-2015 |
20150291817 | INK FOR INKJET RECORDING, INK CARTRIDGE, AND INK-RECORDED MATTER - An ink for inkjet recording includes water; a hydrosoluble solvent; a pigment; and a copolymer including a phosphonic acid group. The copolymer including a phosphonic acid group includes structural units having the following formulae (1) and (2): | 10-15-2015 |
20150307734 | INKJET INK, METHOD OF MANUFACTURING INKJET INK, INK CARTRIDGE, AND INKJET RECORDING DEVICE - An inkjet ink contains water, a hydrosoluble organic solvent, a pigment, polyvinyl pyrolidone, and a copolymer, wherein the copolymer contains a structure unit represented by Chemical formula 1, | 10-29-2015 |
20150376425 | INKJET RECORDING INK, INK CARTRIDGE, INKJET RECORDING METHOD, INKJET RECORDING DEVICE AND INK RECORDED MATTER - An inkjet recording ink, including: water; a water-soluble organic solvent; a pigment; and a phosphate group-containing copolymer, wherein the phosphate group-containing copolymer contains a structural unit represented by the following General Formula (1) and a structural unit represented by the following General Formula (2): where R1 denotes a hydrogen atom or a methyl group; M | 12-31-2015 |
Mitsuhiro Nonogaki, Chiyoda-Ku, Tokyo JP
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20160118512 | METHOD FOR MANUFACTURING SOLAR-POWER-GENERATOR SUBSTRATE AND APPARATUS FOR MANUFACTURING SOLAR-POWER-GENERATOR SUBSTRATE - A method for manufacturing a solar-power-generator substrate by cutting out a semiconductor substrate by slicing a semiconductor ingot and then by forming a texture structure on a surface of the semiconductor substrate by performing a surface treatment on the surface of the semiconductor substrate, includes: cleaning including cleaning and removing an organic impurity and a metal impurity adhering to the surface of the semiconductor substrate with a cleaning fluid containing an oxidizing chemical; and etching including removing a damaged layer on a substrate surface generated by the slicing and forming the texture structure on the surface of the semiconductor substrate by performing anisotropic etching on the surface of the semiconductor substrate with an alkaline aqueous solution, the etching being performed subsequent to the cleaning. | 04-28-2016 |
Ryozo Nonogaki, Machida-City JP
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20130293093 | alpha-SIALON, LIGHT-EMITTING DEVICE AND USE THEREOF - Provided are an α-SiAlON activated by Eu, which can realize a higher luminance in a light-emitting device such as a white LED, and also a light-emitting device. The α-SiAlON is represented by the general formula: (M) | 11-07-2013 |
20150137037 | METHOD FOR TREATING SURFACE OF PHOSPHOR, PHOSPHOR, LIGHT-EMITTING DEVICE, AND ILLUMINATION DEVICE - Provided are a method for treating the surface of a (Sr,Ca)AlSiN | 05-21-2015 |
20150307353 | METHOD FOR PRODUCING PHOSPHOR - Provided is a method for producing a phosphor, using a nitride raw material, that gives a high-reliability (Sr,Ca)AlSiN | 10-29-2015 |
Ryozo Nonogaki, Gunma JP
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20100194262 | ELECTRON SOURCE - An electron source producing an electron beam which is highly reliable and stable even when it is externally oscillated. The electron source comprises a cathode ( | 08-05-2010 |
20100237762 | ELECTRON SOURCE AND ELECTRON BEAM APPARATUS - Provided is an electron source which outputs a stable electron beam even when vibration is applied from the external to an apparatus which uses the electron source. The electron source is provided with an insulator ( | 09-23-2010 |
20110036810 | MANUFACTURING METHOD OF ELECTRON SOURCE - An electron gun with a truncated-cone-shaped cathode with uniform emission current density is efficiently manufactured. A manufacturing method of a cathode electron gun equipped with a supply source for diffusing oxide of a metal element on a single crystal needle of tungsten or molybdenum includes steps of forming a truncated-cone-shape having a flat plane at a single crystal edge serving as the cathode by machining beforehand, thereafter thinning and removing a front layer of the flat plane by a focused gallium ion beam, and re-flattening it. | 02-17-2011 |
Ryozo Nonogaki, Tokyo JP
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20100090581 | ELECTRON SOURCE - Provided is an electron source which provides a stable electron beam even when vibration is applied from external to a device which uses the electron source. The electron source is provided with a needlelike chip ( | 04-15-2010 |
Ryozo Nonogaki, Shibukawa-Shi JP
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20080315089 | Electron gun, electron beam exposure apparatus, and exposure method - An electron gun includes an electron source configured to emit electrons. The electron source includes an electron emission region configured to emit the electrons and an electron emission restrictive region configured to restrict emission of the electrons. The electron emission restrictive region is located on a side surface of the electron source except an electron emission surface on a tip of the electron source and is covered with a different material from the electron source. The electron gun emits thermal field-emitted electrons by applying an electric field to the tip while maintaining a sufficiently low temperature to avoid sublimation of a material of the electron source. The material of the electron source may be lanthanum hexaboride (LaB | 12-25-2008 |
Ryozo Nonogaki, Shibukawa-City JP
Takahiko Nonogaki, Ichinomiya-Shi JP
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20080210575 | OXYGEN SENSOR FOR DETECTING NOx CONTAINED IN ENGINE EXHAUST GAS AND METHOD OF EVALUATING THE RECEPTIVITY OF THE OXYGEN SENSOR TO NOx - In an oxygen sensor for installation in the exhaust gas system of a vehicle for detecting a concentration of NOx in exhaust gas downstream from a catalytic converter, in which the exhaust gas is passed through a protective layer to an electrode disposed at one side of a solid electrolyte in a sensor element of the oxygen sensor, the protective layer is formed with a combination of values of thickness and porosity which provide improved sensitivity in detecting low levels of NOx in the exhaust gas. | 09-04-2008 |
Tsuyoshi Nonogaki, Aichi-Ken JP
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20090089940 | Oxidation Hair Dye Composition - An oxidation hair dye composition that provides an improved dyeing property. The oxidation hair dye composition comprises an oxidation dye, an alkaline chemical, and an oxidizing agent. The oxidation hair dye composition further comprises at least one selected from the group consisting of microbial hyaluronic acids and salts thereof. | 04-09-2009 |
Yasunori Nonogaki, Kariya-Shi JP
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20110192528 | PROCESS FOR PRODUCING TUBE MEMBER MADE OF FIBER-REINFORCED RESIN - There is provided a process for producing a tube member made of fiber-reinforced resin in which it is unnecessary to fold back an end portion of a fiber layer impregnated with uncured resin, and which is capable of joining a tube member, which comprises a resin fiber, and a flanged tube material, which is to be directly rigidly coupled with an engine box or the like, while maintaining the fiber orientation in the initial orientation posture and through an extremely simple process as well. In the process, there is provided a base member | 08-11-2011 |
Yoshihisa Nonogaki, Tokyo JP
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20090321874 | EPITAXIAL WAFER AND PRODUCTION METHOD THEREOF - A small amount of oxygen is ion-implanted in a wafer surface layer, and then heat treatment is performed so as to form an incomplete implanted oxide film in the surface layer. Thereby, wafer cost is reduced; a pit is prevented from forming in a surface of an epitaxial film; and a slip is prevented from forming in an external peripheral portion of a wafer. | 12-31-2009 |
20110084367 | EPITAXIAL WAFER AND METHOD OF PRODUCING THE SAME - A method of producing an epitaxial wafer, comprising: implanting oxygen ions from a surface of a silicon wafer, thereby forming an ion implanted layer in a surface layer of the silicon wafer; after forming the ion implanted layer, implanting boron ions from the surface of the silicon wafer to the whole area in the ion implanted layer; performing heat treatment of the silicon wafer after implanting boron ions, thereby forming a thinning-stopper layer including a mixture of silicon particles, silicon oxides, and boron, and forming an active layer in the silicon wafer on the surface side of the thinning-stopper layer; and forming an epitaxial layer on the surface of the silicon wafer after the heat treatment. | 04-14-2011 |
20110089524 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device and a method of manufacturing the same capable of reducing variations in the thickness of a semiconductor device are provided. The amount of oxygen implanted ions is less than the amount of implanted oxygen ions in the conventional epitaxial SIMOX wafers. Oxygen is ion-implanted into the surface layer of a silicon wafer from the surface of the wafer. Then, by heat treating the wafer, a thinning stop layer, which is an imperfect buried oxide film, is formed along the entire plane of the wafer. As a result, variation of the thickness of the semiconductor device formed in an active layer can be reduced, since the, the reliability of the accuracy of the end point of silicon wafer thinning is higher than that of a thinning using the conventional deep trench structure as an end point detector. | 04-21-2011 |
20110136267 | METHOD OF CONTROLLING FILM THINNING OF SEMICONDUCTOR WAFER FOR SOLID-STATE IMAGE SENSING DEVICE - The thickness of a semiconductor wafer layer, extending from a mirror-finished surface thereof to a solid-state image sensing device, is measured. Based on the residual thickness data, plasma etching is performed from the mirror-finished surface until a predetermined thickness is reached by controlling the plasma etching amount. By doing this, it is possible to reduce variation in the thickness of the solid-state image sensing device at low cost without causing an increase in the number of processes. | 06-09-2011 |
20120126361 | EPITAXIAL WAFER AND PRODUCTION METHOD THEREOF - A small amount of oxygen is ion-implanted in a wafer surface layer, and then heat treatment is performed so as to form an incomplete implanted oxide film in the surface layer. Thereby, wafer cost is reduced; a pit is prevented from forming in a surface of an epitaxial film; and a slip is prevented from forming in an external peripheral portion of a wafer. | 05-24-2012 |
Yosuke Nonogaki, Tokyo JP
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20130055037 | OPERATIONS MANAGEMENT SYSTEM, OPERATIONS MANAGEMENT METHOD AND PROGRAM THEREOF - In invariant analysis applied to a plurality of the analyzed systems, delay in detecting a fault is decreased. | 02-28-2013 |