FUJIFILM CORPORATION patent applications on January 2nd, 2025
Patent Applications by FUJIFILM CORPORATION on January 2nd, 2025
FUJIFILM CORPORATION: 22 patent applications
FUJIFILM CORPORATION has applied for patents in the areas of G03F7/039 (2), H04N23/67 (2), C09D11/033 (2), G03F7/004 (2), B41M3/00 (2) A61B6/482 (1), G03F7/039 (1), H04N23/6812 (1), H04N23/671 (1), H04N23/611 (1)
With keywords such as: layer, having, light, material, group, region, resin, optical, image, and lens in patent application abstracts.
Patent Applications by FUJIFILM CORPORATION
Inventor(s): Tomoko TAKI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): A61B6/00, A61B6/50, G06N3/08, G06T7/00
CPC Code(s): A61B6/482
Abstract: an estimation device includes at least one processor, in which the processor functions as a learned neural network that derives a result of estimation relating to a bone density of a bone part from a simple radiation image acquired by simply imaging a subject including the bone part. the learned neural network is learned by using, as teacher data, (i) two radiation images acquired by imaging the subject including the bone part with radiation having different energy distributions, or (ii) the radiation image of the subject and a bone density image representing the bone density of the bone part of the subject, and information relating to the bone density of the bone part of the subject.
Inventor(s): Takehiko NAKAYAMA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B26D5/00, B26F1/44, G02B5/18, G06T7/60
CPC Code(s): B26D5/007
Abstract: an object of the present invention is to provide an optical sheet manufacturing method and an optical sheet manufacturing apparatus capable of cutting out an optical sheet having a concentric circular pattern from an optical sheet base material, on which the optical sheet is formed, with high accuracy, low cost, and simplicity. the object is achieved by detecting a center of the concentric circular pattern of the optical sheet and determining a cutout position of the optical sheet in the optical sheet base material in accordance with a detection result of the center.
20250001727. LAMINATE AND IMAGE DISPLAY DEVICE_simplified_abstract_(fujifilm corporation)
Inventor(s): Naoya SHIBATA of Kanagawa (JP) for fujifilm corporation, Yuya HAMAGUCHI of Kanagawa (JP) for fujifilm corporation, Takehiro KASAHARA of Kanagawa (JP) for fujifilm corporation, Naoki KOITO of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B32B7/023, B32B27/00, G02B5/30, H10K50/00, H10K59/00
CPC Code(s): B32B7/023
Abstract: a laminate including, in the following order: a first pressure sensitive adhesive layer; a plastic substrate; a photo-alignment layer; a light-absorbing anisotropic layer; a second pressure sensitive adhesive layer; an optically anisotropic layer, wherein the light-absorbing anisotropic layer contains an organic dichroic substance, a thickness of the light-absorbing anisotropic layer is 5 to 300 �m, a thickness of the plastic substrate is 5 �m or less, the first and second pressure sensitive adhesive layers are each a pressure sensitive adhesive layer at a closest position as viewed from the light-absorbing anisotropic layer in the laminate, and h represented by expression (i) is 0.5 to 8.2, h=(thickness of the first pressure sensitive adhesive layer+thickness of the second pressure sensitive adhesive layer)/total thickness of layers on inner side than the first pressure sensitive adhesive layer and the second pressure sensitive adhesive layer expression (i).
20250001769. DRYING SYSTEM AND PRINTING SYSTEM_simplified_abstract_(fujifilm corporation)
Inventor(s): Takashi MITSUYASU of Kanagawa (JP) for fujifilm corporation, Kensuke TAKADA of Kanagawa (JP) for fujifilm corporation, Yoichi KIMURA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41J11/00, F26B3/30, F26B13/08, F26B13/18
CPC Code(s): B41J11/00216
Abstract: a drying system constituting a drying zone that supports substrates having a wide range of absorption rates, and a printing system are provided. this object is addressed by a drying system that dries a substrate which has a first surface to which a liquid is applied and which is transported along a transport path, in which a second drying zone in which a second heating apparatus for drying a high-absorption substrate having a relatively high absorption rate with respect to the liquid is disposed is configured upstream of a contact roll that comes into contact with the first surface to which the liquid is applied, on the transport path, and a first drying zone in which a first heating apparatus for drying a low-absorption substrate having a relatively low absorption rate with respect to the liquid is disposed is additionally configurable upstream of the contact roll on the transport path.
20250001787. INK JET RECORDING METHOD_simplified_abstract_(fujifilm corporation)
Inventor(s): Masao IKOSHI of Kanagawa (JP) for fujifilm corporation, Takashi Mitsuyasu of Kanagawa (JP) for fujifilm corporation, Yuji Asano of Kanagawa (JP) for fujifilm corporation, Taiga Mizoe of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41M3/00, B41J11/00, B41J15/16, B41M5/00, C09D11/033, C09D11/40, C09D11/54
CPC Code(s): B41M3/008
Abstract: provided is an ink jet recording method including an applying step of applying a pretreatment liquid onto a resin base material during transportation in a state where a tension t of 20 n/m or greater is applied to the resin base material and applying a first ink and a second ink in this order respectively by an ink jet recording system, in which a value x defined by equation (x) is 85 or greater. in equation (x), d represents a thickness of the resin base material in units of �m, a represents a total amount of the water-soluble organic solvent to be applied in units of g/min the pretreatment liquid and the first ink applied onto the resin base material in the applying step, and �hsp represents an hsp distance in units of mpabetween the water-soluble organic solvent in the pretreatment liquid and the first ink applied onto the resin base material in the applying step and the resin base material.
20250001787. INK JET RECORDING METHOD_simplified_abstract_(fujifilm corporation)
Inventor(s): Masao IKOSHI of Kanagawa (JP) for fujifilm corporation, Takashi Mitsuyasu of Kanagawa (JP) for fujifilm corporation, Yuji Asano of Kanagawa (JP) for fujifilm corporation, Taiga Mizoe of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41M3/00, B41J11/00, B41J15/16, B41M5/00, C09D11/033, C09D11/40, C09D11/54
CPC Code(s): B41M3/008
Abstract:
Inventor(s): Tatsuya SHIMOYAMA of Kanagawa (JP) for fujifilm corporation, Toshihiro KARIYA of Kanagawa (JP) for fujifilm corporation, Yishi HONGO of Kanagawa (JP) for fujifilm corporation, Ryuji SHINOHARA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C09D11/38, B41M3/00, C09D11/033, C09D11/40
CPC Code(s): C09D11/38
Abstract: provided is an ink jet ink including water, a pigment, a surfactant (a) which is an acetylene glycol-based nonionic surfactant, a surfactant (b) which is a compound represented by formula (1), and an organic solvent (c), in which the organic solvent (c) includes a glycol ether (c-1) which is at least one selected from the group consisting of an alkylene glycol monoalkyl ether having a boiling point of 250� c. or lower and a polyalkylene glycol monoalkyl ether having a boiling point of 250� c. or lower. in formula (1), rand reach independently represent a branched alkyl group having 3 to 20 carbon atoms, and n represents an integer of 1 to 20.
Inventor(s): Tatsuya SHIMOYAMA of Kanagawa (JP) for fujifilm corporation, Toshihiro KARIYA of Kanagawa (JP) for fujifilm corporation, Yishi HONGO of Kanagawa (JP) for fujifilm corporation, Ryuji SHINOHARA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C09D11/38, B41M3/00, C09D11/033, C09D11/40
CPC Code(s): C09D11/38
Abstract:
Inventor(s): Katsuhiro SHIMONO of Ashigarakami-gun (JP) for fujifilm corporation
IPC Code(s): C12N1/38
CPC Code(s): C12N1/38
Abstract: an object of the present invention is to provide a manufacturing method of a powder for obtaining a powder having excellent solubility and having a liquid property neutral (ph of 6.0 to 8.5) in a case of being dissolved in water, with respect to insoluble cystine, and to provide the powder and a powder medium containing the powder. the manufacturing method of a mixed powder of the present invention includes a dissolving step of dissolving cystine and a specific component which is at least one selected from the group consisting of tryptophan, threonine, and serine in a solvent to obtain a solution containing the cystine and the specific component, and a powdering step of drying the solution to obtain a mixed powder of the cystine and the specific component.
20250003631. VENTILATION TYPE SILENCER_simplified_abstract_(fujifilm corporation)
Inventor(s): Shinya HAKUTA of Kanagawa (JP) for fujifilm corporation, Shogo YAMAZOE of Kanagawa (JP) for fujifilm corporation, Yuichiro ITAI of Kanagawa (JP) for fujifilm corporation, Yoshihiro SUGAWARA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): F24F13/24
CPC Code(s): F24F13/24
Abstract: a ventilation type silencer includes a ventilation channel in which at least a part of a side wall of a flow channel of a gas is formed of a porous sound absorbing material, in which a flow resistance of the sound absorbing material is 1000 rayls/m or more, porosity of the sound absorbing material on at least a flow channel surface side is 0.9 or less or permeability thereof is 3.0�10mor less, and a minimum flow channel width on a cross section perpendicular to a flow direction of the gas in the ventilation channel is 100 mm or less. as a result, the ventilation type silencer is provided, which includes the porous sound absorbing material that can be appropriately selected for the flow channel of the gas in accordance with hydrodynamic characteristics of the sound absorbing material in a case in which the porous sound absorbing material is used in at least a part of the flow channel, that can suppress a pressure loss, and that can reduce a wind noise.
20250003890. EXAMINATION APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Yoshinobu MIURA of Kanagawa (JP) for fujifilm corporation, Daisuke HIBE of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G01N21/88, B01L3/00, G01N33/53
CPC Code(s): G01N21/8851
Abstract: an examination apparatus examines a specimen using a liquid container which accommodates a liquid and of which an opening portion is sealed with a sealing film. the examination apparatus includes: a perforating mechanism that perforates the sealing film with a perforating tool; and a camera that captures an image of a scattered state of the liquid on a front surface of the sealing film in a case where the sealing film is perforated with the perforating tool, and outputs a captured image.
20250004004. EXAMINATION APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Yoshinobu MIURA of Kanagawa (JP) for fujifilm corporation, Nobuaki TOKIWA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G01N35/10, G01N21/64, G01N35/00
CPC Code(s): G01N35/1011
Abstract: an examination apparatus includes: a detecting unit; a specimen dispensing unit that has a nozzle, on which a chip is mounted at a distal end thereof, and a moving mechanism which moves the nozzle; a camera that captures an image of the nozzle on which the chip is mounted; and a processor that is configured to control the moving mechanism and the camera, wherein the processor is configured to acquire the image of the nozzle on which the chip is mounted from the camera before the specimen is discharged to the reaction cell through the nozzle, and the processor is configured to control the moving mechanism on the basis of a distal end position of the chip in the image such that the moving mechanism moves a distal end of the chip to a predetermined target discharge position inside the reaction cell.
Inventor(s): Toshikazu SUMI of Kanagawa (JP) for fujifilm corporation, Naoya NISHIMURA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G02B5/00, G02F1/13363
CPC Code(s): G02B5/003
Abstract: a light absorption anisotropic layer, manufacturing thereof, a laminate and an image display device. the layer contains a dichroic substance and a liquid crystal compound, in which, when, in an x-ray diffraction pattern measurement using an in-plane diffraction method with x-ray irradiation, diffracted x-rays are measured in a measurement region of a rotation angle � in in-plane direction of light absorption anisotropic layer: 0� to 180� and a diffraction angle 2�:0� to 10� to determine a diffraction angle 2�max and a rotation angle �max at which a peak intensity is maximized, a peak intensity of diffracted x-rays at the diffraction angle 2�max and the rotation angle �max is represented by i(�max), and a peak intensity of diffracted x-rays at the diffraction angle 2�max and the rotation angle �max−10� is represented by i(�max−10), a relationship expressed by expression (1) i(�max)/i(�max−10)≥1.6 is satisfied.
20250004255. IMAGING LENS AND IMAGING APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Taiga NODA of Saitama (JP) for fujifilm corporation
IPC Code(s): G02B13/00, G02B7/04, G02B9/64, G02B15/22
CPC Code(s): G02B13/0045
Abstract: the imaging lens consists of, in order from an object side, a first lens group having a negative refractive power, a second lens group having a positive refractive power, and a third lens group having a negative refractive power, and is configured such that, during focusing, the first lens group and the third lens group remain stationary with respect to an image plane, the second lens group moves in the direction of an optical axis, the first lens group includes a first-a negative lens and a first-b negative lens successively in order from a position closest to the object side, and that the second lens group includes an aperture stop that moves integrally with the second lens group during focusing.
Inventor(s): Michihiro SHIRAKAWA of Haibara-gun (JP) for fujifilm corporation, Satomi Takahashi of Haibara-gun (JP) for fujifilm corporation
IPC Code(s): G03F7/039, G03F7/004, G03F7/32, G03F7/38, G03F7/40
CPC Code(s): G03F7/039
Abstract: the present invention provides an actinic ray-sensitive or radiation-sensitive resin composition with high dof performance. an actinic ray-sensitive or radiation-sensitive resin composition according to the present invention includes a resin that includes a repeating unit represented by a formula (i) and a repeating unit represented by a formula (ii) and has a main chain that is cleaved by exposure, and an ionic compound represented by a formula (iii), and the resin satisfies predetermined requirements,
Inventor(s): Michihiro SHIRAKAWA of Haibara-gun (JP) for fujifilm corporation, Satomi Takahashi of Haibara-gun (JP) for fujifilm corporation
IPC Code(s): G03F7/039, G03F7/004, G03F7/32, G03F7/38, G03F7/40
CPC Code(s): G03F7/039
Abstract:
Inventor(s): Eiji FUKUZAKI of Haibara-gun, Shizuoka (JP) for fujifilm corporation, Shuhei YAMAGUCHI of Haibara-gun, Shizuoka (JP) for fujifilm corporation, Tomoaki YOSHIOKA of Haibara-gun, Shizuoka (JP) for fujifilm corporation, Taro MIYOSHI of Haibara-gun, Shizuoka (JP) for fujifilm corporation
IPC Code(s): G03F7/039, C08F212/14, C08F212/32, C08F220/30, C08F220/58, C08F226/06, C08K5/42, G03F7/00, G03F7/004, G03F7/16
CPC Code(s): G03F7/0397
Abstract: an actinic ray-sensitive or radiation-sensitive resin composition contains (a) a resin having a repeating unit (a) having a group that is decomposed by the action of an acid to generate a carboxylic acid and (b) a compound that generates an acid upon irradiation with an actinic ray or a radiation and is represented by a specified general formula (1). the repeating unit (a) is represented by a general formula (a), and the compound (b) is represented by a general formula (1).
Inventor(s): Kazuhiro HASEGAWA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G06F3/041, G03F7/40, G06F3/044
CPC Code(s): G06F3/04164
Abstract: a touch sensor where disconnection of peripheral wirings is prevented and a method of producing the touch sensor. the method includes in order: preparing a substrate including a detection region and a peripheral region; forming a metal layer in the peripheral region; forming detection electrode connection terminals, external connection terminals, and peripheral wirings that connect the plurality of detection electrode connection terminals and the plurality of external connection terminals to each other by patterning a photosensitive resist on the metal layer through photolithography and subjecting the metal layer to wet etching; forming a to-be-plated layer in the detection region, which extends to cover at least a part of each of the detection electrode connection terminals, and includes a pattern composed of a plurality of thin wires; and forming touch detection electrodes that are electrically connected to the detection electrode connection terminals on the to-be-plated layer by a wet plating method.
Inventor(s): Keita OTANI of Tokyo (JP) for fujifilm corporation
IPC Code(s): G06N7/01, G06T7/00
CPC Code(s): G06N7/01
Abstract: provided is a regression estimation device that can improve accuracy of estimation in a case where estimation results obtained by performing a plurality of inputs are integrated to derive one estimated value. a regression estimation device includes one or more processors and one or more storage devices that store a program to be executed by the one or more processors. the one or more processors execute commands of the program to receive an input of a plurality of data items, to input the plurality of data items to a single regression model to estimate a plurality of sets of estimated values and certainties of the estimated values from the plurality of data items, and to integrate estimation results of the plurality of sets on the basis of the plurality of sets of the estimated values and the certainties of the estimated values estimated by the regression model.
Inventor(s): Ryoji HIMENO of Kanagawa (JP) for fujifilm corporation, Shinichi MORISHIMA of Kanagawa (JP) for fujifilm corporation, Yuki HIRAI of Kanagawa (JP) for fujifilm corporation, Makoto KAMO of Kanagawa (JP) for fujifilm corporation, Megumi SEKIGUCHI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G06V40/13, G02B5/20
CPC Code(s): G06V40/1318
Abstract: a sensor including a light-receiving element; and an optical element that includes near infrared absorbing dichroic substance. the optical element has an absorption axis with respect to near infrared light in an in-plane direction. when linearly polarized light of near infrared light orthogonal to the absorption axis is radiated from a normal direction of the optical element and from a direction inclined by 45� from the normal direction at an azimuthal angle orthogonal to the absorption axis, an absorbance during the radiation from the direction inclined by 45� from the normal direction is more than an absorbance during the radiation from the normal direction.
Inventor(s): Junya SAWADA of Minamiashigara-shi (JP) for fujifilm corporation, Norihito KASADA of Minamiashigara-shi (JP) for fujifilm corporation, Nobuhito ONOZUKA of Minamiashigara-shi (JP) for fujifilm corporation, Ryosuke YUMIYAMA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G11B5/706, G11B5/592, G11B5/714, G11B5/735, G11B5/78
CPC Code(s): G11B5/70678
Abstract: the magnetic tape includes a non-magnetic support, and a magnetic layer containing a ferromagnetic powder. a magnetic tape cartridge and a magnetic tape apparatus include the magnetic tape. a dale void volume vvv specified in iso 25178 on a surface of the magnetic layer is 0.100 nmor more and 0.350 nmor less, and standard deviation a of the vvv in a width direction of the surface of the magnetic layer is 0.020 nmor less.
Inventor(s): Kei YAMAJI of Saitama-shi (JP) for fujifilm corporation, Toshiki KOBAYASHI of Saitama-shi (JP) for fujifilm corporation, Masaru KOBAYASHI of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/611, H04N5/91, H04N23/62, H04N23/67
CPC Code(s): H04N23/611
Abstract: there are provided a recording method, a recording device, and a program for appropriately recording accessory information according to a subject in image data.
Inventor(s): Kei YAMAJI of Saitama-shi (JP) for fujifilm corporation, Toshiki KOBAYASHI of Saitama-shi (JP) for fujifilm corporation, Masaru KOBAYASHI of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/611, H04N5/91, H04N23/62, H04N23/67
CPC Code(s): H04N23/611
Abstract: according to the present invention, there is provided a recording method of recording accessory information in a frame of moving image data including a plurality of frames, the recording method including: a recognition step of recognizing a plurality of recognition subjects in the plurality of frames; a search step of searching for the accessory information which is able to be recorded for search subjects based on search items, the search subjects being at least some of the plurality of recognition subjects; a setting step of setting the search items different from each other for each of the search subjects in a case where a plurality of the search subjects are present; and a recording step of recording at least some of the search items as the accessory information based on a result of the search step.
Inventor(s): Tomonori MASUDA of Saitama-shi (JP) for fujifilm corporation, Kenkichi HAYASHI of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/67, H04N23/56
CPC Code(s): H04N23/671
Abstract: a processor measures a first distance to an object in a distance measurement target region on the basis of an irradiation timing when a light irradiator performs surface irradiation on the distance measurement target region with light and a light receiving timing when a light receiver receives reflected light of the light from distance measurement target region. in a case in which a specific pixel included in the light receiver generates a plurality of signals at different timings within a light receiving period corresponding to the surface irradiation by the light irradiator, the processor measures the first distance on the basis of a relationship between the plurality of signals.
20250008218. IMAGING APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Shingo OGAWA of Saitama (JP) for fujifilm corporation, Masahiko MIYATA of Saitama (JP) for fujifilm corporation, Naoya KUSUMOTO of Saitama (JP) for fujifilm corporation
IPC Code(s): H04N23/68, G01P3/00
CPC Code(s): H04N23/6812
Abstract: an imaging apparatus includes an angular velocity sensor for shake correction and a flexible printed circuit. the flexible printed circuit includes the angular velocity sensor and a plurality of wiring lines for transmission of a digital control signal from a control circuit to the angular velocity sensor. the flexible printed circuit is provided with a filter circuit for suppression of a specific frequency of the control signal.
Inventor(s): Akihiro UCHIDA of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/71, G06T7/11, G06T7/194, H04N23/73
CPC Code(s): H04N23/71
Abstract: a first determination section performs first determination to determine that an imaged scene of an image is a backlit scene, in which light is emitted from behind a subject, in a case where a difference in luminance between a representative value of an exposure value of a reference region and a representative value of an exposure value of a peripheral region of the reference region is equal to or greater than a first threshold value which is set in advance. the first determination section sets the first threshold value to a value lower than a value, which is obtained in a case where it is determined that the saturated region is not present, in a case where it is determined by the first determination that the imaged scene is the backlit scene and it is determined by the second determination that the saturated region is present.
FUJIFILM CORPORATION patent applications on January 2nd, 2025
- FUJIFILM CORPORATION
- A61B6/00
- A61B6/50
- G06N3/08
- G06T7/00
- CPC A61B6/482
- Fujifilm corporation
- B26D5/00
- B26F1/44
- G02B5/18
- G06T7/60
- CPC B26D5/007
- B32B7/023
- B32B27/00
- G02B5/30
- H10K50/00
- H10K59/00
- CPC B32B7/023
- B41J11/00
- F26B3/30
- F26B13/08
- F26B13/18
- CPC B41J11/00216
- B41M3/00
- B41J15/16
- B41M5/00
- C09D11/033
- C09D11/40
- C09D11/54
- CPC B41M3/008
- C09D11/38
- CPC C09D11/38
- C12N1/38
- CPC C12N1/38
- F24F13/24
- CPC F24F13/24
- G01N21/88
- B01L3/00
- G01N33/53
- CPC G01N21/8851
- G01N35/10
- G01N21/64
- G01N35/00
- CPC G01N35/1011
- G02B5/00
- G02F1/13363
- CPC G02B5/003
- G02B13/00
- G02B7/04
- G02B9/64
- G02B15/22
- CPC G02B13/0045
- G03F7/039
- G03F7/004
- G03F7/32
- G03F7/38
- G03F7/40
- CPC G03F7/039
- C08F212/14
- C08F212/32
- C08F220/30
- C08F220/58
- C08F226/06
- C08K5/42
- G03F7/00
- G03F7/16
- CPC G03F7/0397
- G06F3/041
- G06F3/044
- CPC G06F3/04164
- G06N7/01
- CPC G06N7/01
- G06V40/13
- G02B5/20
- CPC G06V40/1318
- G11B5/706
- G11B5/592
- G11B5/714
- G11B5/735
- G11B5/78
- CPC G11B5/70678
- H04N23/611
- H04N5/91
- H04N23/62
- H04N23/67
- CPC H04N23/611
- H04N23/56
- CPC H04N23/671
- H04N23/68
- G01P3/00
- CPC H04N23/6812
- H04N23/71
- G06T7/11
- G06T7/194
- H04N23/73
- CPC H04N23/71
