This exposure apparatus has a light source, an illumination optical system for illuminating a mask with light from the light source, and a projection optical system for projecting a pattern formed on the mask onto a substrate. The exposure apparatus exposes the substrate while moving the mask and the substrate in a scanning direction. The light source includes a plurality of light source elements arranged two-dimensionally on a two-dimensional plane including a first direction. When a direction corresponding to the first direction is coincident with the scanning direction in an image of the light source formed on a surface of the mask via the illumination optical system, a boundary between adjacent light source elements among the plurality of light source elements is not continuous in the first direction.
An optical processing apparatus includes: a combining element that combines a first optical path of a first light beam having a first wavelength and a second optical path of a second light beam having a second wavelength longer than the first wavelength; a condensing optical system having a positive refractive power and that condenses each of the first and second light beams from the combining element on a processing target object; and a correction optical system having a negative refractive power, the correction optical system is disposed on the first optical path at an entrance side of the combining element, one light beam of the first light beam and the second light beam is a light beam for processing the processing target object, the other light beam of the first light beam and the second light beam is a light beam for measuring the processing target object.
An imaging control device includes: a position setting unit configured to set a first position indicating a position at which tracking of a subject starts in an imaging range in which the subject is imaged; and a tracking control unit configured to track the subject on the basis of a result of detection of the subject overlapping the first position set by the position setting unit.
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
H04N 23/611 - Commande des caméras ou des modules de caméras en fonction des objets reconnus les objets reconnus comprenant des parties du corps humain
H04N 23/63 - Commande des caméras ou des modules de caméras en utilisant des viseurs électroniques
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
This exposure device comprises: a light source; an illumination optical system that illuminates a mask with light from the light source; and a projection optical system that projects a pattern formed on the mask onto a substrate. The exposure device exposes the substrate while moving the mask and the substrate in a scanning direction. The light source includes a plurality of light source elements arranged two-dimensionally on a two-dimensional plane including a first direction. When a direction corresponding to the first direction is coincident with the scanning direction in an image of the light source formed on a surface of the mask via the illumination optical system, a boundary between adjacent light source elements among the plurality of light source elements is not continuous in the first direction.
This data generation method includes: acquiring test machining condition information including the pulse count for which pulsed beams should be emitted respectively to a plurality of irradiation positions on a test workpiece in order to perform machining so as to form the test workpiece in a target shape; measuring a test workpiece shape that is the shape of the test workpiece after machining the test workpiece on the basis of the test machining condition information; and calculating a goal pulse count for which the pulsed beams should be emitted to the plurality of irradiation positions on the machining object workpiece, on the basis of the test machining condition information, the test workpiece shape, and prediction information of a shape of the portion in which machining is to be performed through the emission of the pulsed beams in the unit pulse count.
This information processing method comprises: acquiring first processing information for processing one or a plurality of first processing objects and second processing information for processing one or a plurality of second processing objects; acquiring at least one among processing device installation information pertaining to the installation of one or a plurality of processing devices and processing device vacancy information pertaining to a vacant time of the one or plurality of processing devices; and, on the basis of the first processing information, the second processing information, and at least one of the processing device installation information and the processing device vacancy information, setting a schedule for the one or plurality of processing devices to process each of the one or plurality of first processing objects and the one or plurality of second processing objects.
F02C 7/00 - Caractéristiques, parties constitutives, détails ou accessoires non couverts dans, ou d'un intérêt plus général que, les groupes Entrées d'air pour ensembles fonctionnels de propulsion par réaction
B23K 26/00 - Travail par rayon laser, p. ex. soudage, découpage ou perçage
F01D 25/00 - Parties constitutives, détails ou accessoires non couverts dans les autres groupes ou d'un intérêt non traité dans ces groupes
7.
INFORMATION OUTPUT METHOD, INFORMATION OUTPUT DEVICE, INSPECTION METHOD, INSPECTION DEVICE, PROCESSING METHOD, AND PROCESSING SYSTEM
This information output method is for outputting information on a defect in an object W, the method comprising: outputting (i) display information enabling display of inspection result information for the defect and three-dimensional shape information for the object, and (ii) output information in which the inspection result information and the three-dimensional shape information are associated with each other.
B29C 64/386 - Acquisition ou traitement de données pour la fabrication additive
B29C 64/393 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
G01N 21/91 - Recherche de la présence de criques, de défauts ou de souillures en utilisant la pénétration de colorants, p. ex. de l'encre fluorescente
B22F 10/50 - Traitement des pièces ou des articles pendant leur formation, p. ex. traitements appliqués aux couches fusionnées pendant leur formation
B22F 10/60 - Traitement de pièces ou d'articles après leur formation
B22F 10/80 - Acquisition ou traitement des données
G01B 11/245 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en utilisant plusieurs transducteurs fixes fonctionnant simultanément
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
An inspection method wherein a dye is applied to an object, a first image of the object coated with the dye is acquired, a second image of the object is acquired after the first image is acquired, and a defect, which is a detection target in the object, is detected on the basis of the first image and the second image.
A lens barrel includes an outer barrel disposed further outward than a lens holding frame holding a lens, a guide portion guiding the lens holding frame in an optical axis direction, an actuator moving the lens holding frame in the optical axis direction, a detector that includes a scale portion arranged along the optical axis direction and a sensor portion opposed to the scale portion, and detects a position of the lens holding frame in the optical axis direction, and a controller controlling the actuator based on position information detected by the detector, wherein the lens holding frame holds one of the scale and sensor portions, the outer barrel holds the other, and the one is disposed at a position corresponding to a node of a vibration mode having a lowest natural frequency among vibration modes generated in the lens and the lens holding frame.
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
G02B 7/04 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement
H04N 23/68 - Commande des caméras ou des modules de caméras pour une prise de vue stable de la scène, p. ex. en compensant les vibrations du boîtier de l'appareil photo
10.
OPTICAL SYSTEM, OPTICAL DEVICE, AND METHOD FOR MANUFACTURING OPTICAL SYSTEM
An optical system including first and second optical systems satisfies the conditional expression below. The first optical system includes a front lens group, an optical path splitter with a splitting plane, and a first rear lens group on which one of two split parts of light is incident. The second optical system includes the front lens group, the optical path splitter, and a second rear lens group on which the other split part of light is incident. The total optical length of the first optical system is equal to or greater than that of the second optical system.
An optical system including first and second optical systems satisfies the conditional expression below. The first optical system includes a front lens group, an optical path splitter with a splitting plane, and a first rear lens group on which one of two split parts of light is incident. The second optical system includes the front lens group, the optical path splitter, and a second rear lens group on which the other split part of light is incident. The total optical length of the first optical system is equal to or greater than that of the second optical system.
0.50
The purpose of the present invention is to appropriately detect local deformation of a layer. An inspection system (100) comprises: an emitting device (2) capable of emitting radiation; an imaging device (4) that outputs data indicating the internal structure of a laminate as obtained by the emitting device (2) emitting radiation toward the laminate; and a control device (5). The control device (108) outputs information relating to deformation of some of a first layer of the laminate on the basis of the data.
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
3D metrology techniques are disclosed for determining a changing topography of a substrate processed in an additive manufacturing system. Techniques include fringe scanning, simultaneous fringe projections, interferometry, and x-ray imaging. The techniques can be applied to 3D printing systems to enable rapid topographical measurements of a 3D printer powder bed, or other rapidly moving, nearly continuous surface to be tested. The techniques act in parallel to the system being measured to provide information about system operation and the topography of the product being processed. A tool is provided for achieving higher precision, increasing throughput, and reducing the cost of operation through early detection and diagnosis of operating problems and printing defects. These techniques work well with any powder bed 3D printing system, providing real-time metrology of the powder bed, the most recently printed layer, or both without reducing throughput.
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
B22F 10/80 - Acquisition ou traitement des données
B22F 12/90 - Moyens de commande ou de régulation des opérations, p. ex. caméras ou capteurs
B33Y 30/00 - Appareils pour la fabrication additiveLeurs parties constitutives ou accessoires à cet effet
B33Y 50/00 - Acquisition ou traitement de données pour la fabrication additive
An image sensor includes a first semiconductor substrate provided with a pixel, including a photoelectric conversion unit that photoelectrically converts incident light to generate an electric charge, an accumulation unit that accumulates the electric charge generated by the photoelectric conversion unit, and a transfer unit that transfers the electric charge generated by the photoelectric conversion unit to the accumulation unit, and a second semiconductor substrate provided with a supply unit for the pixel, the supply unit supplying the transfer unit with a transfer signal to transfer the electric charge from the photoelectric conversion unit to the accumulation unit.
H10F 39/00 - Dispositifs intégrés, ou ensembles de plusieurs dispositifs, comprenant au moins un élément couvert par le groupe , p. ex. détecteurs de rayonnement comportant une matrice de photodiodes
H04N 25/63 - Traitement du bruit, p. ex. détection, correction, réduction ou élimination du bruit appliqué au courant d'obscurité
H04N 25/70 - Architectures de capteurs SSISCircuits associés à ces dernières
H04N 25/75 - Circuits pour fournir, modifier ou traiter des signaux d'image provenant de la matrice de pixels
H04N 25/766 - Capteurs adressés, p. ex. capteurs MOS ou CMOS comprenant des lignes de commande ou de sortie utilisées pour une pluralité de fonctions, p. ex. pour la sortie, la commande, la réinitialisation ou l'alimentation des pixels
H04N 25/77 - Circuits de pixels, p. ex. mémoires, convertisseurs A/N, amplificateurs de pixels, circuits communs ou composants communs
A method of controlling vibration of a structural element of an exposure apparatus includes receiving data of a position of the structural element, determining a position error signal based at least in part on the position data and a specified position of the structural element, determining a force command to damp a specified vibration mode frequency of the structural element based at least in part on the position error signal and the specified vibration mode frequency, and transmitting the force command to an actuator such that the actuator applies force to the structural element and damps vibration of the structural element at least at the specified vibration mode frequency of the structural element.
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
15.
ZOOM LENS, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE ZOOM LENS
A zoom lens, comprises: in order from an object, a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, wherein, upon zooming from a wide-angle end state to a telephoto end state, a distance between each of lens groups and a lens group adjacent thereto changes to satisfy the following conditional expression:
A zoom lens, comprises: in order from an object, a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, wherein, upon zooming from a wide-angle end state to a telephoto end state, a distance between each of lens groups and a lens group adjacent thereto changes to satisfy the following conditional expression:
2.
90
<
❘
"\[LeftBracketingBar]"
MV
5
/
MV
2
❘
"\[RightBracketingBar]"
<
11.5
A zoom lens, comprises: in order from an object, a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, wherein, upon zooming from a wide-angle end state to a telephoto end state, a distance between each of lens groups and a lens group adjacent thereto changes to satisfy the following conditional expression:
2.
90
<
❘
"\[LeftBracketingBar]"
MV
5
/
MV
2
❘
"\[RightBracketingBar]"
<
11.5
where,
A zoom lens, comprises: in order from an object, a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, wherein, upon zooming from a wide-angle end state to a telephoto end state, a distance between each of lens groups and a lens group adjacent thereto changes to satisfy the following conditional expression:
2.
90
<
❘
"\[LeftBracketingBar]"
MV
5
/
MV
2
❘
"\[RightBracketingBar]"
<
11.5
where,
MV5 denotes, upon zooming from a wide-angle end state to a telephoto end state, a moving amount of the fifth lens group with an image surface as a reference; and
A zoom lens, comprises: in order from an object, a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, wherein, upon zooming from a wide-angle end state to a telephoto end state, a distance between each of lens groups and a lens group adjacent thereto changes to satisfy the following conditional expression:
2.
90
<
❘
"\[LeftBracketingBar]"
MV
5
/
MV
2
❘
"\[RightBracketingBar]"
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11.5
where,
MV5 denotes, upon zooming from a wide-angle end state to a telephoto end state, a moving amount of the fifth lens group with an image surface as a reference; and
MV2 denotes, upon zooming from the wide-angle end state to the telephoto end state, a moving amount of the second lens group with the image surface as the reference.
G02B 15/20 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles ayant une lentille additionnelle mobile ou un groupe de lentilles additionnel mobile pour faire varier la distance focale de l'objectif
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
G02B 13/02 - Télé-objectifs photographiques, c.-à-d. systèmes du type + — dans lesquels la distance du sommet de l'angle avant au plan de l'image est inférieure à la distance focale équivalente
G02B 13/18 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous avec des lentilles ayant une ou plusieurs surfaces non sphériques, p. ex. pour réduire l'aberration géométrique
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 15/173 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles ayant une première lentille mobile ou un groupe de lentilles mobile et une seconde lentille mobile ou un groupe de lentilles mobile, les deux devant une lentille fixe ou un groupe de lentilles fixe ayant une lentille additionnelle frontale fixe ou un groupe de lentilles additionnel frontal fixe disposées + — +
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
An imaging element includes a photoelectric conversion part configured to convert light into charges, an accumulation part in which the charges from the photoelectric conversion part are accumulated, a transfer path part which is a transfer path for transferring charges from the photoelectric conversion part to the accumulation part and has a lower potential than a pixel separation region formed around the photoelectric conversion part, and a measurement part configured to measure the number of times a predetermined amount of charges is accumulated in the accumulation part and to measure the amount of charges accumulated in the photoelectric conversion part.
H04N 25/706 - Pixels pour la mesure de l'exposition ou de la lumière ambiante
17.
STANDARD, MEASUREMENT DEVICE, MEASUREMENT METHOD, METHOD FOR MEASURING REFLECTING MIRROR, METHOD FOR MEASURING LENS, METHOD FOR MANUFACTURING LENS, HOLOGRAM RECORDING ELEMENT, METHOD FOR REPRODUCING HOLOGRAM, MEMBER FOR DIFFRACTIVE OPTICAL ELEMENT, DIFFRACTIVE OPTICAL ELEMENT, AND METHOD FOR MANUFACTURING STANDARD
This standard is used for measuring the shape of a surface to be measured using first light, which is light for measurement, and includes: a substrate (31) transmissive to the first light; and a transmission film (36) that is provided on a first surface (32) of the substrate (31) and that transmits the first light and transmissive to the first light. The transmission film (36) contains an oxide, nitride, or oxynitride of at least one element selected from among zirconium (Zr), molybdenum (Mo), chromium (Cr), titanium (Ti), aluminum (Al), iron (Fe), magnesium (Mg), nickel (Ni), niobium (Nb), and silicon (Si), and the substrate (31) has a measurement pattern (37) formed by portions with the transmission film (36) on the first surface (32) and portions without the transmission film (36) on the first surface (32).
G03H 1/02 - Procédés ou appareils holographiques utilisant la lumière, les infrarouges ou les ultraviolets pour obtenir des hologrammes ou pour en obtenir une imageLeurs détails spécifiques Détails
G03H 1/22 - Procédés ou appareils pour obtenir une image optique à partir d'un hologramme
09 - Appareils et instruments scientifiques et électriques
Produits et services
Cinematographic cameras and their parts and accessories;
cinematographic machines and apparatus; apparatus for
editing cinematographic film; digital cinema cameras and
their parts and accessories; photographic cameras and their
parts and accessories; cameras and their parts and
accessories; digital cameras and their parts and
accessories; video cameras and their parts and accessories;
optical machines and apparatus; lenses for cameras; lenses
for cinematographic cameras; lenses for digital cinema
cameras; lenses for digital cameras; lenses for video
cameras; straps for cameras; adapters for attaching cameras
to tripods; tripods for cameras; cases for cameras; straps
for cinematographic cameras; adapters for attaching
cinematographic cameras to tripods; tripods for
cinematographic cameras; cases for cinematographic cameras;
straps for digital cinema cameras; adapters for attaching
digital cinema cameras to tripods; tripods for digital
cinema cameras; cases for digital cinema cameras; straps for
digital cameras; adapters for attaching digital cameras to
tripods; tripods for digital cameras; cases for digital
cameras; straps for video cameras; adapters for attaching
video cameras to tripods; tripods for video cameras; cases
for video cameras.
19.
PROCESSING APPARATUS, AND MANUFACTURING METHOD OF MOVABLE BODY
A processing apparatus has: a light irradiation apparatus that irradiates a surface of an object with a plurality of processing lights; and a first change apparatus that changes an intensity distribution of the plurality of processing lights from the light irradiation apparatus on the surface of the object, the processing apparatus changes a thickness of a part of the object by irradiating the surface of the object with the plurality of processing lights.
A microscope device (1) comprises: a first microscope part (10) including a first illumination optical system that irradiates a sample with a first illumination light toward a first direction and a first detection optical system that receives detection light from the sample in response to the irradiation with the first illumination light and guides the detection light to a first detector; and a second microscope part (50) including a second illumination optical system that irradiates the sample with a second illumination light toward a second direction and a second detection optical system that receives detection light from the sample in response to the irradiation with the second illumination light and guides the detection light to a second detector, the second direction being different from the first direction, wherein the microscope device comprises any one of the predetermined features.
An objective of the present invention is to provide a fixing method that can suppress positional displacement of lenses provided to LEDs in a light source unit of an exposure device that uses the LEDs as a light source. This light source unit comprises: a fixation target (21); first and second light source arrays, each including a plurality of light source elements (23) respectively provided in first and second regions aligned in a first direction on the fixation target (21); and a lens holder for holding first and second lens arrays (30) respectively provided in the first and second regions, wherein a first side surface of the first lens array and a first side surface of the second lens array are in contact in the first direction, and the lens holder is provided with a first wall section (41) that defines the position of the first lens array and the second lens array in the first direction, and a first biasing member (45) that biases the first lens array and the second lens array toward the first wall section.
The present disclosure relates to a processing system for processing an object by irradiating the object with irradiation light. The processing system comprises a supporting apparatus, and an irradiation unit movably supported by the supporting apparatus and configured to irradiate the object with the irradiation light. The supporting apparatus comprises at least a first base member and a second base member, wherein at least one of the first and second base members is movable with respect to the other one of the first and second base members, a carrier member held by the first base member and the second base member and having a first end and a second end, and a holding unit configured to hold the irradiation unit. The supporting apparatus is convertible at least between a first configuration and a second configuration. In the first configuration, the holding unit is positionable at the carrier member between the first base member and the second base member so that one of the first and second base members is positioned closer to one of the first and second ends than the holding unit and the other one of the first and second base members is positioned closer to the other one of the first and second ends than the holding unit. In the second configuration, at least one of the first end and the second end of the carrier member protrudes from the respective one of the first and second base members, and the holding unit is positionable at the carrier member so that one of the first and second base members is positioned between the other one of the first and second base members and the holding unit.
This processing system comprises an irradiation device for irradiating an energy beam, and a light-receiving device. The light-receiving device has: a beam passage member having an attenuation region in which an energy beam that is emitted from the irradiation device and incident from a first direction is attenuated, and a plurality of passage regions through which the energy beam is allowed to pass and which are disposed adjacent to the attenuation region in a second direction intersecting the first direction; and a plurality of light-receiving units. The light-receiving device receives the energy beam that has passed through at least one of the plurality of passage regions. The plurality of light-receiving units include at least a first light-receiving unit via which an energy beam that has passed through a first passage region among the plurality of passage regions is received, and a second light-receiving unit via which an energy beam that has passed through a second passage region different from the first passage is received and which is adjacent to the first light-emitting unit. At least a portion of the attenuation region is arranged so as to restrict an energy beam incident from the first direction from being incident on a boundary between the first light-receiving unit and the second light-receiving unit.
An image processing method includes acquiring a first direction fundus image imaged in a state in which an examined eye is directed in a first direction, and a second direction fundus image imaged in a state in which the examined eye is directed in a second direction different to the first direction, generating a combined image for analyzing a fundus-peripheral portion of the examined eye by combining the first direction fundus image and the second direction fundus image, and outputting the combined image.
A61B 3/12 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour examiner le fond de l'œil, p. ex. ophtalmoscopes
A61B 3/00 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux
An electronic device includes: an imaging unit including a region having a pixel group that has a plurality of first pixels, and second pixels that are fewer than the first pixels in the pixel group; and a control unit that reads out the signals based upon exposure of the second pixels during exposure of the plurality of first pixels.
H04N 23/73 - Circuits de compensation de la variation de luminosité dans la scène en influençant le temps d'exposition
H04N 23/12 - Caméras ou modules de caméras comprenant des capteurs d'images électroniquesLeur commande pour générer des signaux d'image à partir de différentes longueurs d'onde avec un seul capteur
H04N 23/63 - Commande des caméras ou des modules de caméras en utilisant des viseurs électroniques
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
H04N 23/84 - Chaînes de traitement de la caméraLeurs composants pour le traitement de signaux de couleur
H04N 25/13 - Agencement de matrices de filtres colorés [CFA]Mosaïques de filtres caractérisées par les caractéristiques spectrales des éléments filtrants
H04N 25/44 - Extraction de données de pixels provenant d'un capteur d'images en agissant sur les circuits de balayage, p. ex. en modifiant le nombre de pixels ayant été échantillonnés ou à échantillonner en lisant partiellement une matrice de capteurs SSIS
H04N 25/79 - Agencements de circuits répartis entre des substrats, des puces ou des cartes de circuits différents ou multiples, p. ex. des capteurs d'images empilés
H10F 39/00 - Dispositifs intégrés, ou ensembles de plusieurs dispositifs, comprenant au moins un élément couvert par le groupe , p. ex. détecteurs de rayonnement comportant une matrice de photodiodes
An optical processing device (1) includes: a robot arm (10); and a beam-transmission optical system (30), wherein the robot arm (10) includes a first arm part (11), a first joint part (16), a second arm part (12), a second joint part (17), and a third arm part (13), and the beam-transmission optical system (30) includes a first optical-path changing part (31) that changes the traveling direction of a laser beam (BM) such that the laser beam (BM) travels along a first optical path (C1) beside the first arm part (11) in accordance with the rotation of the first arm part (11) performed by the first joint part (16), and a second optical-path changing part (41) that changes the traveling direction of the laser beam (BM) having passed through the first optical path (C1) such that the laser beam (BM) travels along a second optical path (C2) beside the second arm part (12) in accordance with the rotation of the second arm part (12) and the rotation of the third arm part (13) performed by the second joint part (17).
A camera body, to which an accessory is mountable, includes a first communicator that transmits a first clock signal to the accessory to communicate with the accessory in synchronization with the first clock signal, and a second communicator that receives a second clock signal output from the accessory to communicate with the accessory in synchronization with the second clock signal. A value specifying a communication specification of the second communicator is transmitted between the first communicator and the accessory.
G03B 17/14 - Corps d'appareils avec moyens pour supporter des objectifs, des lentilles additionnelles, des filtres, des masques ou des tourelles de façon interchangeable
An exposure apparatus for exposing a pattern formed in a mask on a substrate, said exposure apparatus comprising: a holder for holding the mask or the substrate; an x-ray ionizer that emits x-rays and eliminates static electricity that has built up on the mask or the substrate; a shutter for shielding the mask or the substrate from irradiation with the x-rays; and a first control unit that controls the opening and the closing of the shutter, wherein the first control unit performs shutter opening control at a timing when the mask or the substrate is moving relative to the holder.
This interchangeable lens is attachable to a camera body, and is provided with: a variable magnification optical system capable of varying magnification; an operation member for receiving an operation instructing the magnification of the variable magnification optical system from a user; a detection unit for detecting the operation received by the operation member; a transmission unit for transmitting information indicating the operation detected by the detection unit to the camera body; a control unit for performing in-lens control for controlling the magnification of the variable magnification optical system on the basis of the information indicating the operation detected by the detection unit; and a reception unit for receiving, from the camera body, a signal indicating whether the in-lens control can be performed.
G03B 17/14 - Corps d'appareils avec moyens pour supporter des objectifs, des lentilles additionnelles, des filtres, des masques ou des tourelles de façon interchangeable
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
G03B 5/00 - Réglage du système optique relatif à l'image ou à la surface du sujet, autre que pour la mise au point présentant un intérêt général pour les appareils photographiques, les appareils de projection ou les tireuses
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
H04N 23/663 - Commande à distance de caméras ou de parties de caméra, p. ex. par des dispositifs de commande à distance pour commander des éléments de caméra interchangeables sur la base de signaux de capteurs d'images électroniques
In order to accurately continue focusing on a subject, this imaging device comprises: an imaging unit having a first pixel that photoelectrically converts light transmitted through an optical system and outputs a signal to be used for focus detection of the optical system, and a second pixel that photoelectrically converts light transmitted through the optical system and outputs a signal to be used for image generation; a detection unit that detects a deviation amount between an image plane of the optical system and an imaging surface of the imaging unit on the basis of the signal output from the first pixel; and a control unit that, when the subject is not performing a predetermined movement, controls the position of the optical system on the basis of the deviation amount if the deviation amount is within a first range, and when the subject is performing the predetermined movement, controls the position of the optical system on the basis of the deviation amount if the deviation amount is in a second range narrower than the first range.
This imaging device includes: an imaging portion having a first pixel that photoelectrically converts light transmitted through an optical system and outputs a signal used for focus detection, and a second pixel that photoelectrically converts the light transmitted through the optical system and outputs a signal used for image generation; a focus detection portion that performs focus detection of the optical system on the basis of the signal output from the first pixel; an evaluation portion that evaluates, in a region including a subject in an image based on the signal output from the second pixel, contrast of the image on the basis of the signal output from the second pixel; and a control portion that controls the focus detection by the focus detection portion on the basis of the evaluation by the evaluation portion.
This exposure apparatus exposes a pattern onto a substrate. The exposure apparatus comprises a holder that holds the substrate or a mask on which the pattern is formed, an X-ray ionizer that emits X-rays and removes static electricity built up on the mask or the substrate, a shutter that shields the mask or the substrate from irradiation with the X-rays, and a first control unit that controls the opening and the closing of the shutter. The first control unit controls the shutter to open at a moment in time when the mask or the substrate is moving relative to the holder.
This interference type refractometer comprises a light source (2), a light detector (4) which detects the intensity of received light, an optical system (6; 8; 10; 12) which causes the optical path of light emitted from the light source (2) to branch into a first optical path and a second optical path, then causes the first optical path and the second optical path to merge, and guides interference light of the light from the first optical path and the light from the second optical path to the light detector, a phase modulating unit (18; 20) which is disposed on the first optical path and/or the second optical path and which electrically modulates a phase difference between the light on the first optical path and the light on the second optical path, a control unit (22) which is configured to cause a drive voltage of the phase modulating unit (18; 20) to change over time with a prescribed amplitude and periodicity, to cause the intensity of the interference light detected by the light detector (4, 4') to change over time, a storage unit (24) which stores the intensity of the interference light detected by the light detector (4, 4'), and a calculating unit (26) which performs calculation processing using the intensity of the interference light stored in the storage unit (24), wherein: the control unit (22) is configured to cause the storage unit (24) to store the change over time in the intensity of the interference light in a reference state in which no sample is present on the first optical path and the change over time in the intensity of the interference light in a measurement state in which a sample is present on the first optical path, in association with the change over time in the drive voltage of the phase modulating unit (18; 20); and the calculating unit (26) is configured to obtain an amount of change in the phase of the interference light due to the sample, using a relationship between the change over time in the intensity of the interference light and the change over time in the drive voltage, stored by the storage unit (24), in the reference state, and a relationship between the change over time in the intensity of the interference light and the change over time in the drive voltage in the measurement state, and to obtain the refractive index of the sample on the basis of the amount of change in the phase.
G01N 21/45 - RéfringencePropriétés liées à la phase, p. ex. longueur du chemin optique en utilisant des méthodes interférométriquesRéfringencePropriétés liées à la phase, p. ex. longueur du chemin optique en utilisant les méthodes de Schlieren
34.
ORIGINAL PLATE, RIBLET MOLDING METHOD, RIBLET TRANSFER SHEET AND METHOD FOR MANUFACTURING THE SAME, AND TOOL
An original plate for transferring a riblet pattern to a resin by an imprinting technique includes a member with a predetermined thickness having one surface on which recessed grooves serving as a plurality of riblets after transfer to the resin are formed with a predetermined interval therebetween, and a plurality of projecting portions protruding from the one surface are disposed on the one surface with a predetermined second interval therebetween wider than the predetermined interval.
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
This imaging device comprises: an imaging unit having an imaging surface for capturing an image formed by a variable magnification optical system; a generation unit for generating image information on the basis of a signal output from at least a part of a region of the imaging surface; and a control unit for performing electronic variable magnification control for changing the size of the partial region in parallel with the magnification of the variable magnification optical system.
G03B 17/14 - Corps d'appareils avec moyens pour supporter des objectifs, des lentilles additionnelles, des filtres, des masques ou des tourelles de façon interchangeable
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
G03B 5/00 - Réglage du système optique relatif à l'image ou à la surface du sujet, autre que pour la mise au point présentant un intérêt général pour les appareils photographiques, les appareils de projection ou les tireuses
G03B 7/00 - Réglage de l'exposition par le réglage des obturateurs, des diaphragmes ou des filtres séparément ou conjointement
H04N 23/60 - Commande des caméras ou des modules de caméras
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
H04N 23/663 - Commande à distance de caméras ou de parties de caméra, p. ex. par des dispositifs de commande à distance pour commander des éléments de caméra interchangeables sur la base de signaux de capteurs d'images électroniques
36.
SPATIAL PHASE MODULATION ELEMENT, SPATIAL PHASE MODULATOR, AND LIGHT MODULATOR
In a spatial phase modulation element (50) in which the phase of light passing through an optical member (110) can be changed by generating a potential difference between a second electrode (130) and a first electrode (120) to change the refractive index of the optical member (110), a plurality of second electrodes (130) are arranged side by side in an arrangement direction perpendicular to the extension direction of a second side surface (114), and a potential difference can be individually generated between the plurality of second electrodes (130) and the first electrode (120).
G02F 1/03 - Dispositifs ou dispositions pour la commande de l'intensité, de la couleur, de la phase, de la polarisation ou de la direction de la lumière arrivant d'une source lumineuse indépendante, p. ex. commutation, ouverture de porte ou modulationOptique non linéaire pour la commande de l'intensité, de la phase, de la polarisation ou de la couleur basés sur des céramiques ou des cristaux électro-optiques, p. ex. produisant un effet Pockels ou un effet Kerr
Provided is a laminate 1a which includes: a substrate layer 10; a layer 121 including first conductive particles on the substrate layer 10; and a layer 122 including second conductive particles on the layer 121 including the first conductive particles. The average particle diameter of the first conductive particles is larger than the average particle diameter of the second conductive particles.
B32B 5/16 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par le fait qu'une des couches est formée de particules, p. ex. de copeaux, de fibres hachées, de poudre
B32B 7/02 - Propriétés physiques, chimiques ou physicochimiques
B32B 9/00 - Produits stratifiés composés essentiellement d'une substance particulière non couverte par les groupes
B32B 38/00 - Opérations auxiliaires liées aux procédés de stratification
40.
DRIVING METHOD, LIGHT SOURCE UNIT, ILLUMINATION UNIT, EXPOSURE DEVICE, AND EXPOSURE METHOD
This driving method is for a light source element that emits light in a first light emission amount if a current having a first current value is supplied when the temperature of the light source element is within a first temperature range, the driving method comprising: starting current supply to the light source element at a second current value lower than the first current value; and increasing the current value of the current supplied to the light source element from the second current value to the first current value at a first rate. The second current value and/or the first rate is controlled according to the temperature of the light source element.
An imaging system (100) comprises: an image-forming optical system (110); a light-splitting member (120) that splits light (LT) that has passed through the image-forming optical system (110); a first imaging device (140) that images a first image (Im1) formed by one light resulting from splitting by the light-splitting member (120); a second imaging device (150) that images a second image (Im2) formed by the other light resulting from splitting by the light-splitting member (120); and a distance measurement device (170) that irradiates a target object with measurement light (LM) via the image-forming optical system (110) on the basis of image information of the first image (Im1) including an image of at least a portion of the target object imaged by the first imaging device (140), and generates distance information regarding the target object.
G01C 3/06 - Utilisation de moyens électriques pour obtenir une indication finale
A01M 27/00 - Appareils déclenchés par les animaux, destinés à lancer des projectiles ou à projeter d'autres objets destinés à les tuer, p. ex. par balles ou en les transperçant
G01S 7/481 - Caractéristiques de structure, p. ex. agencements d'éléments optiques
G01S 17/66 - Systèmes de poursuite utilisant d'autres ondes électromagnétiques que les ondes radio
42.
CONTROL DEVICE, CONTROL SYSTEM, ROBOT SYSTEM, CONTROL METHOD, AND COMPUTER PROGRAM
This control device: generates a first control signal for controlling a robot such that a holding device approaches a first object, which is one of a group of first objects accommodated in a container, in order to hold the first object, on the basis of an imaging result obtained by imaging the group of first objects from a first imaging height by means of an imaging system; and, after the holding device has approached the first object on the basis of the first control signal and the first object held by the holding device has been released outside the container, generates a second control signal for controlling the robot such that the holding device approaches a second object, which is one of a group of second objects accommodated in the container, in order to hold the second object, on the basis of an imaging result obtained by imaging the second object group from a second imaging height lower than the first imaging height by means of the imaging system.
A beam scanning apparatus is a beam scanning apparatus configured to perform a scanning of a processing beam that is used by a processing apparatus, and includes: a condensing optical system that condenses the processing beam entering the beam scanning apparatus in a divergent state; a beam split member that transmits the processing beam from the condensing optical system; and a scanning optical member which scans the processing beam from the beam split member, the beam split member reflects light that enters the beam split member through the scanning optical member to direct the light toward a light receiving apparatus.
An imaging element comprises: a first pixel and a second pixel that respectively have a pair of photoelectric conversion units for receiving light fluxes passing through different pupil regions of an exit pupil in an optical system, and output a signal used for focus detection in the optical system; and a control unit that performs a first control for outputting both the signal of one pixel selected from the first pixel and the second pixel and the signal of the other pixel out of the first pixel and the second pixel, and a second control for outputting the signal of the one pixel out of the first pixel and the second pixel.
This drive method for a light source element which emits light in a first light emission amount when supplied with a current of a first current value includes: initiating current supply to the light source element at a second current value lower than the first current value; and increasing the current value of the current being supplied to the light source element to the first current value. The current value of a current to be supplied to the light source element at a first time point is a corrected current value obtained by: acquiring the current value of a current to be supplied to the light source element at the first time point from first information in which the current value of a current to be supplied to the light source element at each time point, in a period during which the current supply to the light source element is initiated at a predetermined third current value and the current value of a current being supplied to the light source element is increased to the first current value, is predetermined; and correcting the acquired current value on the basis of the temperature of the light source element.
An image processing device illuminates light from a light source through an optical system with a first numerical aperture onto an examined eye, transmits signal light returning from the examined eye through an optical system with a second numerical aperture, and divides a reference light from the light from the light source. The image processing device detects interference light between the signal light and the reference light, and acquires information representing the obtained interference light. The image processing device performs a first process of projecting the information representing the interference light onto a four-dimensional frequency aperture formed by the optical system with the first numerical aperture and the optical system with the second numerical aperture, in a four-dimensional space of frequencies of the light source and frequencies of light from the examined eye according to the signal light, and a second process of projecting the projected information into three-dimensional space.
G01N 21/17 - Systèmes dans lesquels la lumière incidente est modifiée suivant les propriétés du matériau examiné
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
H01L 23/532 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées caractérisées par les matériaux
H10K 10/46 - Transistors à effet de champ, p. ex. transistors organiques à couche mince [OTFT]
H10K 10/84 - Électrodes ohmiques, p. ex. électrodes de source ou de drain
H01L 29/417 - Electrodes caractérisées par leur forme, leurs dimensions relatives ou leur disposition relative transportant le courant à redresser, à amplifier ou à commuter
49.
COMPOUND, PHOTOSENSITIVE SURFACE TREATMENT AGENT, LAMINATE PRODUCTION METHOD, AND TRANSISTOR PRODUCTION METHOD
This compound is represented by formula (1). [In formula (1), R represents an alkyl group having 1-5 carbon atoms, X represents a halogen element or an alkoxy group, n1 represents an integer of 0-5, and n2 represents an integer of 1 or more.]
A sheet member 1 has a riblet structure RB on one surface and an adhesive layer 11 on the other surface. The sheet member 1 comprises a first sheet portion 151 and a second sheet portion 152. A convex structure 13 is formed on a surface of the first sheet portion. The second sheet portion includes an end portion 1FE of the sheet member and is disposed adjacent to the first sheet portion. The thickness T of a first portion 1521 of the second sheet portion is thinner than the thickness T of a second portion 1522 that is farther from the end portion in an extension direction of the convex structure than the first portion of the second sheet portion.
B32B 3/30 - Produits stratifiés comprenant une couche ayant des discontinuités ou des rugosités externes ou internes, ou une couche de forme non planeProduits stratifiés comprenant une couche ayant des particularités au niveau de sa forme caractérisés par une couche continue dont le périmètre de la section droite a une allure particulièreProduits stratifiés comprenant une couche ayant des discontinuités ou des rugosités externes ou internes, ou une couche de forme non planeProduits stratifiés comprenant une couche ayant des particularités au niveau de sa forme caractérisés par une couche comportant des cavités ou des vides internes caractérisés par une couche comportant des retraits ou des saillies, p. ex. des gorges, des nervures
B64C 21/00 - Moyens permettant d'influencer l'écoulement d'air sur les surfaces des aéronefs en agissant sur la couche limite
F03D 80/00 - Détails, composants ou accessoires non prévus dans les groupes
An exposure apparatus according to the present invention comprises a static electricity elimination unit that, while a substrate support member that supports a substrate is moving, eliminates static electricity which has built up on the substrate support member, wherein the substrate support member comprises a conductive main body and a conductive member that faces the substrate supported by the substrate support member and guides static electricity that has built up on the substrate to the main body, and the static electricity elimination unit eliminates the static electricity guided to the main body.
This mask case comprises: a case body that houses a mask and has at least a portion thereof possessing conductivity; a conductive member that guides static electricity charged on the mask to the conductive portion of the case body; and a first static elimination member that is electrically connected to the conductive portion and that eliminates the static electricity charged on the conductive portion.
H01L 21/673 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants utilisant des supports spécialement adaptés
53.
CONTROL DEVICE, CONTROL SYSTEM, ROBOT SYSTEM, CONTROL METHOD, AND COMPUTER PROGRAM
This control device controls a robot that moves a processing device, which performs processing on an object, and an imaging system. When it is determined, on the basis of first image data which is generated by imaging a target object by the imaging system when the positional relationship between the object and the imaging system is a first relationship, that there is no target object that can be processed by the processing device, the control device generates a first control signal for controlling the robot so that the positional relationship between the target object and the imaging system changes to a second positional relationship, on the basis of second image data which is generated by imaging the target object by the imaging system, and generates a second control signal for controlling the robot, on the basis of the target object-related position and posture data which is generated on the basis of third image data which is generated by imaging the target object by the imaging system when the positional relationship between the target object and the imaging system is the second positional relationship.
This control device: generates a first control signal for controlling a robot so that an imaging system is separated from a first target object group when a first determination is made that there is no target object that can be processed by a processing device within the first target object group on the basis of an imaging result obtained by the imaging system with regard to the first target object group; and, after the imaging system moves due to control of the robot based on the first control signal, generates a second control signal for controlling the robot so that the position and the orientation of the imaging system with respect to one target object within a second target object group change when a second determination is made that there is no target object that can be processed by the processing device within the second target object group on the basis of an imaging result obtained by the imaging system with regard to the second target object group.
This beam scanning device comprises: a first focusing optical system that focuses a processing beam entering the beam scanning device; a beam branching member that allows the processing beam from the first focusing optical system to pass therethrough; a second focusing optical system that focuses the processing beam that has passed through the beam branching member; and a scanning optical member that performs scanning using the processing beam that has traveled through the beam branching member. The beam branching member comprises an optical member provided with an opening and a light-reflecting part at different positions, and uses the light-reflecting part to reflect light that enters via the scanning optical member. The first focusing optical system forms a focal point at or near the position of the opening.
H01L 23/532 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées caractérisées par les matériaux
H01L 21/288 - Dépôt de matériaux conducteurs ou isolants pour les électrodes à partir d'un liquide, p. ex. dépôt électrolytique
H01L 21/3205 - Dépôt de couches non isolantes, p. ex. conductrices ou résistives, sur des couches isolantesPost-traitement de ces couches
H01L 21/336 - Transistors à effet de champ à grille isolée
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
H01L 29/417 - Electrodes caractérisées par leur forme, leurs dimensions relatives ou leur disposition relative transportant le courant à redresser, à amplifier ou à commuter
An eyepiece optical system (EL) has a first positive lens (Lp1) having positive refractive power and a second positive lens (Lp2) having positive refractive power, and satisfies the following conditional expressions. 1.700
A build system includes: a build apparatus that is configured to irradiate an object with an energy beam from a position above the object and that is configured to build a build object on the object by supplying a build material to an irradiation position of the energy beam; a support apparatus that includes three or more support members for supporting the object; and a heating apparatus configured to heat the object from a position under the object, each support member includes: a connecting part that contacts the object; and a support part configured to support the object, a stiffness of the support part in a first direction is lower than a stiffness of the support part in a second direction that intersects the first direction, the second direction is a direction that intersects a plane including the connecting parts of the three or more support members.
This cutting insert comprises a rake face (32), a flank face (34), and a cutting edge (35) provided on an intersection line between the rake face (32) and the flank face (34). The cutting edge (35) is provided with a cut-out part (36).
B23B 27/22 - Outils de coupe comportant des dispositifs pour briser les copeaux
B23B 27/14 - Outils de coupe sur lesquels les taillants ou éléments tranchants sont en matériaux particulier
B23B 27/20 - Outils de coupe sur lesquels les taillants ou éléments tranchants sont en matériaux particulier à éléments tranchants constitués par des diamants
B23P 15/30 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe d'outils de coupe d'outils de tour ou outils équivalents
61.
CUTTING INSERT, METHOD FOR MANUFACTURING CUTTING INSERT, MOLDING DIE, AND METHOD FOR MANUFACTURING MOLDING DIE
This cutting insert has a substantially polygonal plate shape, and has a rake face (32) on the upper surface, a flank face (34) on the side surface, and a cutting edge (35) formed at the intersecting ridge line part between the rake face (32) and the flank face (34). The rake face (32) has a cutting edge-side region (32a) in contact with the cutting edge (35), and a groove part (38) extending along the cutting edge (35) on the inner side of the cutting edge-side region (32a). In the vicinity of the tip part of the cutting edge (35), a cutout part (36) is formed by cutting out the cutting edge-side region (32a) and the groove part (38).
B23B 27/22 - Outils de coupe comportant des dispositifs pour briser les copeaux
B23B 27/14 - Outils de coupe sur lesquels les taillants ou éléments tranchants sont en matériaux particulier
B23B 27/20 - Outils de coupe sur lesquels les taillants ou éléments tranchants sont en matériaux particulier à éléments tranchants constitués par des diamants
B23P 15/30 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe d'outils de coupe d'outils de tour ou outils équivalents
An image sensor includes: a plurality of pixels each having a photoelectric conversion unit that converts incident light into an electric charge, the incident light being incident from one side of a substrate, and an output unit that outputs a signal caused by the electric charge, the plurality of pixels being arranged in a first direction and a second direction intersecting the first direction; and an accumulation unit provided to be stacked on the photoelectric conversion unit on a side opposite to the one side of the substrate, the accumulation unit accumulating the signal.
H04N 25/65 - Traitement du bruit, p. ex. détection, correction, réduction ou élimination du bruit appliqué au bruit de réinitialisation, p. ex. le bruit KTC lié aux structures CMOS par des techniques autres que le CDS
H04N 25/75 - Circuits pour fournir, modifier ou traiter des signaux d'image provenant de la matrice de pixels
H04N 25/77 - Circuits de pixels, p. ex. mémoires, convertisseurs A/N, amplificateurs de pixels, circuits communs ou composants communs
63.
SIGNAL PROCESSING METHOD FOR OPHTHALMOLOGIC APPARATUS, OPHTHALMOLOGIC APPARATUS, AND PROGRAM
According to the present invention, a signal processing method performed by a processor of an ophthalmologic apparatus includes a step for obtaining an interference signal of measurement light and reference light, a step for obtaining a peak value component determined by a distribution of brightness in the interference signal, a step for obtaining a corrected interference signal by subtracting a signal of a magnitude determined by the peak value component from the interference signal, a step for obtaining the peak value component for the interference signal by using the corrected interference signal as the interference signal, a step for obtaining the corrected interference signal, a step for repeatedly executing the above steps until the corrected interference signal that is the subtraction result is no greater than a threshold value that is set in advance, and a step for obtaining OCT data on the basis of the corrected interference signal that is no greater than the threshold value.
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
G01N 21/17 - Systèmes dans lesquels la lumière incidente est modifiée suivant les propriétés du matériau examiné
64.
IMAGE DETERMINING DEVICE TO DETERMINE THE STATE OF A SUBJECT
To determine the state of a subject person with a simple structure, an image determining device includes: an imaging unit that captures an image from a first direction, the image including the subject person; a first detector that detects size information from the image, the size information being about the subject person in the first direction; a second detector that detects position-related information, the position-related information being different from the information detected by the first detector; and a determining unit that determines the state of the subject person, based on a result of the detection performed by the first detector and a result of the detection performed by the second detector.
There is provided a method of generating drawing data representing a drawing pattern to be formed by a spatial light modulator to form a predetermined exposure pattern on a substrate with exposure light via the spatial light modulator, the method being implemented by a computer, the method including generating design data representing a design pattern corresponding to the predetermined exposure pattern by using a function defined by a user, and generating the drawing data of the drawing pattern by converting the design data.
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
66.
IMAGE SENSOR AND IMAGE-CAPTURING DEVICE THAT SELECTS PIXEL SIGNAL FOR FOCAL POSITION
An image sensor includes: a first pixel having a first photoelectric conversion unit that photoelectrically converts light having entered therein, and a first light blocking unit that blocks a part of light about to enter the first photoelectric conversion unit; and a second pixel having a second photoelectric conversion unit that photoelectrically converts light having entered therein and a second light blocking unit that blocks a part of light about to enter the second photoelectric conversion unit, wherein: the first photoelectric conversion unit and the first light blocking unit are set apart from each other by a distance different from a distance setting apart the second photoelectric conversion unit and the second light blocking unit.
G02B 7/34 - Systèmes pour la génération automatique de signaux de mise au point utilisant des zones différentes dans un plan pupillaire
G03B 13/36 - Systèmes de mise au point automatique
H01L 27/14 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des composants semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit ra
A variable power optical system (ZL (1)) includes a plurality of lens groups (G1-G7). During variable magnification, an interval between adjacent lens groups changes. The plurality of lens groups include: a first focusing lens group (G5) that moves during focusing; and a second focusing lens group (G6) that is disposed more toward an imaging surface side than the first focusing lens group and that moves along a different trajectory than the first focusing lens group during focusing. The first focusing lens group and the second focusing lens group both have a negative refractive power. The first focusing lens group or the second focusing lens group includes at least one lens having a positive refractive power, and is configured so as to satisfy the following condition: 1.40
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 13/18 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous avec des lentilles ayant une ou plusieurs surfaces non sphériques, p. ex. pour réduire l'aberration géométrique
G02B 15/16 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles
68.
OPTICAL SYSTEM, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING OPTICAL SYSTEM
An optical system including, in order from an object side, a first negative lens having negative refractive power, a second negative lens having negative refractive power, and a rear group is configured so as to satisfy the following conditional expressions:
An optical system including, in order from an object side, a first negative lens having negative refractive power, a second negative lens having negative refractive power, and a rear group is configured so as to satisfy the following conditional expressions:
5.6
<
TL
/
f
<
1
3
.
0
0
0.3
<
f
1
/
f
2
<
2.
1.66
<
Nave
12
<
2
.
2
0
80.
<
2
ω
An optical system including, in order from an object side, a first negative lens having negative refractive power, a second negative lens having negative refractive power, and a rear group is configured so as to satisfy the following conditional expressions:
5.6
<
TL
/
f
<
1
3
.
0
0
0.3
<
f
1
/
f
2
<
2.
1.66
<
Nave
12
<
2
.
2
0
80.
<
2
ω
where TL is the total length of the optical system; f, f1, and f2 are the focal lengths of the optical system, the first negative lens, and the second negative lens, respectively; Nave12 is an average of the refractive indices of the first and second negative lenses; and 2ω is the total field angle of the optical system.
G02B 9/60 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement cinq composants
G02B 9/62 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement six composants
69.
ENCODER, DECODER, ENCODING METHOD, DECODING METHOD, AND RECORDING MEDIUM
An encoder includes: a correction unit configured to execute gradation correction on RAW image data from an image capture element having optical black on the basis of a gamma coefficient and an optical black value of the optical black; and an encoding unit configured to encode gradation correction RAW image data that has undergone gradation correction by the correction unit.
H04N 19/85 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le pré-traitement ou le post-traitement spécialement adaptés pour la compression vidéo
H04N 23/76 - Circuits de compensation de la variation de luminosité dans la scène en agissant sur le signal d'image
70.
IMAGE SENSOR, IMAGE-CAPTURING APPARATUS, AND ELECTRONIC DEVICE
An image sensor includes: a readout circuit that reads out a signal to a signal line, the signal being generated by an electric charge resulting from a photoelectric conversion; a holding circuit that holds a voltage based on an electric current from a power supply circuit; and an electric current source including a transistor having a drain part connected to the signal line and a gate part connected to the holding circuit and the drain part, the electric current source supplying the signal line with an electric current generated by the voltage held in the holding circuit.
H04N 25/709 - Circuits de commande de l'alimentation électrique
H04N 25/75 - Circuits pour fournir, modifier ou traiter des signaux d'image provenant de la matrice de pixels
H04N 25/77 - Circuits de pixels, p. ex. mémoires, convertisseurs A/N, amplificateurs de pixels, circuits communs ou composants communs
H04N 25/79 - Agencements de circuits répartis entre des substrats, des puces ou des cartes de circuits différents ou multiples, p. ex. des capteurs d'images empilés
71.
IMAGE CAPTURING DEVICE AND IMAGE CAPTURING APPARATUS
An image capturing device including a pixel chip having pixel blocks each including one or more pixels; and a signal processing chip having a first control block including a first converting unit for converting a signal from a pixel in at least a first pixel block into a digital signal, and a first storage unit storing the digital signal, and a second control block next to the first control block in a column direction and including a second converting unit for converting a signal from a pixel included in at least a second pixel block into a digital signal, and a second storage unit storing the digital signal, wherein the second converting unit and the second storage unit in the second control block are reversed vertically to the first converting unit and the first storage unit in the first control block.
H04N 25/771 - Circuits de pixels, p. ex. mémoires, convertisseurs A/N, amplificateurs de pixels, circuits communs ou composants communs comprenant des moyens de stockage autres que la diffusion flottante
H04N 25/50 - Commande des paramètres d'exposition de capteurs SSIS
H04N 25/766 - Capteurs adressés, p. ex. capteurs MOS ou CMOS comprenant des lignes de commande ou de sortie utilisées pour une pluralité de fonctions, p. ex. pour la sortie, la commande, la réinitialisation ou l'alimentation des pixels
72.
OPTICAL SYSTEM, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE OPTICAL SYSTEM
An optical system (LS) has a lens (L11) that satisfies the following conditional expressions.
An optical system (LS) has a lens (L11) that satisfies the following conditional expressions.
-
0.01
<
ndLZ
-
(
2.015
-
0.0068
×
vdLZ
)
50.
<
vdLZ
<
65.
0.545
<
θ
gFLZ
-
0.01
<
θ
gFLZ
-
(
0.6418
-
0.00168
×
vdLZ
)
where ndLZ is the refractive index to the d line of the lens, vdLZ is the Abbe number with respect to the d line of the lens, and θgFLZ is the partial dispersion ratio of the lens.
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
73.
OPTICAL DEVICE FOR INSPECTION, DEFECT INSPECTION DEVICE, IRRADIATION OPTICAL SYSTEM, AND INSPECTION METHOD
In a case in which the distance in a Z-direction (optical axis direction of a first irradiation optical system (30)) between a substrate (WF1) and a condensing position of a first irradiation light (La) is a second distance longer than a first distance, a numerical aperture setting member (39) of the first irradiation optical system (30) sets an illumination numerical aperture of the first irradiation light (La) to be smaller than the illumination numerical aperture of the first irradiation light (La) in a case in which the distance in the Z-direction between the substrate (WF1) and the condensing position of the first irradiation light (La) is the first distance.
A focus adjustment method includes: obtaining at least two first microscopic images by performing image capturing of a first subject using a microscope including an objective lens and using a stop brought, the image capturing being performed a plurality of times while changing a position of the objective lens; by inputting the at least two first microscopic images to a learned model, estimating the direction of movement; processing to move the focus relative to the first subject based on the direction of movement; wherein the estimating includes generating a plurality of first partial images; inputting the plurality of first partial images to the learned model to have the learned model estimate a position of the focus of the objective lens; and calculating an estimation position, based on an estimation results on the position of the focus of the objective lens.
A zoom optical system includes, in order from an object, a first lens group having positive refractive power, a second lens group having negative refractive power, and a third lens group having positive refractive power. The first lens group moves toward an object and air distances between the first to the third lens groups are varied upon zooming from a wide-angle end state to a tele-photo end state. The first lens group comprises a cemented lens consisting of a negative lens and a positive lens in order from the object. The following conditional expressions are satisfied:
A zoom optical system includes, in order from an object, a first lens group having positive refractive power, a second lens group having negative refractive power, and a third lens group having positive refractive power. The first lens group moves toward an object and air distances between the first to the third lens groups are varied upon zooming from a wide-angle end state to a tele-photo end state. The first lens group comprises a cemented lens consisting of a negative lens and a positive lens in order from the object. The following conditional expressions are satisfied:
4.4
<
f
1
/
(
-
f
2
)
<
8.
0.6
<
f
3
/
f
w
<
3.
5
0
0.6
<
(
-
f
2
)
/
f
3
<
1
.
0
5
30.
°
<
ω
w
<
80.
°
A zoom optical system includes, in order from an object, a first lens group having positive refractive power, a second lens group having negative refractive power, and a third lens group having positive refractive power. The first lens group moves toward an object and air distances between the first to the third lens groups are varied upon zooming from a wide-angle end state to a tele-photo end state. The first lens group comprises a cemented lens consisting of a negative lens and a positive lens in order from the object. The following conditional expressions are satisfied:
4.4
<
f
1
/
(
-
f
2
)
<
8.
0.6
<
f
3
/
f
w
<
3.
5
0
0.6
<
(
-
f
2
)
/
f
3
<
1
.
0
5
30.
°
<
ω
w
<
80.
°
where f1 denotes a focal length of the first lens group, f2 denotes a focal length of the second lens group, f3 denotes a focal length of the third lens group, fw denotes a focal length of the zoom optical system in the wide-angle end state, and ωw denotes a half angle of view in the wide-angle end state
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 5/00 - Éléments optiques autres que les lentilles
G02B 27/00 - Systèmes ou appareils optiques non prévus dans aucun des groupes ,
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
Provided is a robot device comprising: a robot hand; a robot arm that moves the robot hand with respect to at least three-degree-of-freedom directions including a rotation direction on a first coordinate system; a sensor that detects position information of the robot hand with respect to the at least three-degree-of-freedom directions; a detection unit that detects rotation axis information of the robot hand with respect to the rotation direction; and a control unit that controls the robot arm on the basis of the detected information of the sensor and the rotation axis information detected by the detection unit in order to control the position of the robot hand with respect to the at least three-degree-of-freedom directions so that a position error of the robot hand due to the rotation is compensated. The position error of the robot hand due to the rotation of the robot hand can be reduced.
The purpose of the present invention is to provide a base support device capable of suppressing deformation of a base. A base support device (810) comprises: a plurality of actuators (81b) that are disposed on an installation surface, each support a base (81a) at each of a plurality of support points on the lower surface side of the base (81a), and generate thrust in a support direction with respect to the support points; a plurality of detection units (82) that each detect a first position in the support direction of each of the plurality of support points with respect to the installation surface; and a control unit (CNT) that calculates an approximate plane of the lower surface of the base (81a) on the basis of the first position detected by each of the plurality of detection units (82), calculates a second position in the support direction with respect to the installation surface of each point where an axis passing through the support point and extending in the support direction and the approximate plane cross each other, and controls the plurality of actuators (81b) on the basis of the difference between the second position and the first position of each of the support points.
H01L 21/68 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le positionnement, l'orientation ou l'alignement
This drive mechanism comprises: a first member fixed to an output shaft of a motor; a rotary shaft which has a screw groove and of which the center axis is substantially parallel to the output shaft; and a second member which engages at one end with the first member and engages at the other end with one end of the rotary shaft. The second member is allowed to move in a first direction orthogonal to the output shaft and restricted from moving in a second direction substantially orthogonal to the first direction with respect to the first member. The second member is allowed to move in the second direction and restricted from moving in the first direction with respect to the rotary shaft.
G02B 7/04 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement
80.
ZOOM LENS, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING ZOOM LENS
A zoom lens includes, in order from an object along an optical axis: a first lens group having a negative refractive power; a second lens group having a positive refractive power; a third lens group having a negative refractive power; a fourth lens group; and a fifth lens group. When the zoom lens performs varying magnification, the distance between the first and second lens groups changes, the distance between the second and third lens groups changes, the distance between the third and fourth lens groups changes, the distance between the fourth and fifth lens groups changes, the second and fourth lens groups move along the same trajectory along the optical axis, and at least the third lens group moves along the optical axis.
G02B 9/60 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement cinq composants
G02B 13/02 - Télé-objectifs photographiques, c.-à-d. systèmes du type + — dans lesquels la distance du sommet de l'angle avant au plan de l'image est inférieure à la distance focale équivalente
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 15/177 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles ayant une lentille frontale négative ou un groupe de lentilles frontal négatif
G02B 27/00 - Systèmes ou appareils optiques non prévus dans aucun des groupes ,
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
81.
IMAGE SENSOR AND IMAGE-CAPTURING DEVICE INCLUDING ADJUSTMENT UNIT FOR REDUCING CAPACITANCE
An image sensor includes: a first pixel having a first photoelectric conversion unit that photoelectrically converts light to generate a charge, a first accumulation unit that accumulates the charge generated by the first photoelectric conversion unit, and a first output unit that is connected to the first accumulation unit; a second pixel having a second photoelectric conversion unit that photoelectrically converts light to generate a charge, a second accumulation unit that accumulates the charge generated by the second photoelectric conversion unit, and a second output unit that is connected to and disconnected from the second accumulation unit via a second connection unit; and an adjustment unit that adjusts capacitances of the first accumulation unit and the second accumulation unit if a signal based on the charges generated by the first photoelectric conversion unit and the second photoelectric conversion unit is output from the first output unit.
H04N 25/46 - Extraction de données de pixels provenant d'un capteur d'images en agissant sur les circuits de balayage, p. ex. en modifiant le nombre de pixels ayant été échantillonnés ou à échantillonner en combinant ou en groupant les pixels
H04N 25/75 - Circuits pour fournir, modifier ou traiter des signaux d'image provenant de la matrice de pixels
82.
OPHTHALMIC DEVICE, OPHTHALMIC DEVICE CONTROL METHOD, AND PROGRAM
An ophthalmic device including an interference optical system that detects interference light between signal light obtained by scanning an examined eye with light from a light source and reference light configured from light divided from the light source, an adjustment section that is disposed on an optical path of at least one out of the signal light or the reference light, and that adjusts a polarization state of light propagating along the at least one optical path such that a polarization state of the signal light is the same as the polarization state of the reference light, and a control section that controls the adjustment section according to a scan angle scanned on the examined eye.
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
G16H 50/20 - TIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour le diagnostic assisté par ordinateur, p. ex. basé sur des systèmes experts médicaux
This lens barrel comprises: a lens holding frame that holds a lens; a rotation shaft that is rotated by a motor; a fitting portion that moves in a first direction in accordance with the rotation of the rotation shaft around the first direction; a plurality of bearing members that sandwich a portion of the fitting part; and a straight-moving member that is connected to the lens holding frame, rotatably holds the fitting portion through the plurality of bearing members, and moves in the first direction along with the movement of the fitting portion in the first direction.
G02B 7/04 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement
To take security into account and increase user friendliness, an information processing device includes: an input unit to which information is input; an extracting unit extracting predetermined words from the information input to the input unit; a classifying unit classifying the words extracted by the extracting unit into first words and second words; and a converting unit converting the first words by a first conversion method and converting the second words by a second conversion method, the second conversion method being different from the first conversion method.
Provided is a substrate bonding device that bonds a first substrate and a second substrate to each other. The substrate bonding device comprises a first stage that holds the first substrate, a second stage that holds the second substrate, a control device that controls the movement of at least the first stage, a first measurement device that measures the position of the first stage, and a second measurement device that measures the position of the first stage. The control device uses a position measurement value from the first measurement device to control the movement during a first time period that is before a time point at which a contact region between the first substrate and the second substrate is formed and uses a position measurement value from the second measurement device to control the movement during a second time period that is after the first time period and includes at least the time point.
H01L 21/02 - Fabrication ou traitement des dispositifs à semi-conducteurs ou de leurs parties constitutives
H01L 21/68 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le positionnement, l'orientation ou l'alignement
H01L 21/683 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le maintien ou la préhension
86.
VARIABLE MAGNIFICATION OPTICAL SYSTEM, OPTICAL DEVICE, AND METHOD FOR MANUFACTURING VARIABLE MAGNIFICATION OPTICAL SYSTEM
A variable magnification optical system comprising a first lens group, a second lens group, a third lens group, and a rear group in order from object side is configured so that at varying magnification the distances between adjacent lens groups are varied; at a predetermined object distance the variable magnification optical system has focused states with different amounts of aberration; the rear group includes a first focusing lens group and a second focusing lens group disposed closer to an image side than the first focusing lens group, the first and second focusing lens groups moving along different trajectories at focusing; at the object distance the first and second focusing lens groups move at transition from a first focused state to a second focused state; and the following conditional expression is satisfied:
A variable magnification optical system comprising a first lens group, a second lens group, a third lens group, and a rear group in order from object side is configured so that at varying magnification the distances between adjacent lens groups are varied; at a predetermined object distance the variable magnification optical system has focused states with different amounts of aberration; the rear group includes a first focusing lens group and a second focusing lens group disposed closer to an image side than the first focusing lens group, the first and second focusing lens groups moving along different trajectories at focusing; at the object distance the first and second focusing lens groups move at transition from a first focused state to a second focused state; and the following conditional expression is satisfied:
−6.80
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
87.
PROCESSING SYSTEM, MEASUREMENT DEVICE, AND PROCESSING METHOD
A processing system according to the present invention is provided with: an object placement device which is capable of supporting a first surface and a second surface of a plate-shaped workpiece respectively on a plurality of support sections; a processing device which uses processing light to process the workpiece placed on the object placement device; a measurement device which measures the workpiece placed on the object placement device; and a control device. The control device performs control so as to measure the first surface of the workpiece while the second surface thereof is supported, and, after measurement of the first surface, performs control so as to measure the second surface of the workpiece while the first surface thereof is supported. Furthermore, after the measurement of the second surface, the control device performs control so as to process the second surface on the basis of the measurement result of the first surface and the measurement result of the second surface.
An imaging device wherein: an optical unit (20) of an imaging optical system has a diaphragm (25) having a first opening (21) formed at a position separated from the optical axis of the imaging optical system and a second opening (22) formed at a position on the opposite side of the optical axis of the imaging optical system from the first opening (21), a first polarized light element (23) provided in the first opening (21) and transmitting only light having a first polarization direction; and a second polarized light element (24) provided in the second opening (22) and transmitting only light having a second polarization direction perpendicular to the first polarization direction; and an imaging element has a first polarized light unit that transmits only light having the first polarization direction within incident light to a first pixel among a plurality of pixels, and a second polarized light unit that transmits only light having the second polarization direction within the incident light.
G03B 11/00 - Filtres ou autres intercepteurs spécialement adaptés pour les besoins photographiques
H04N 13/218 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant un seul capteur d’images 2D utilisant le multiplexage spatial
A zoom lens includes, in order from an object, a first lens group having a negative refractive power, a second lens group having a positive refractive power, a third lens group having a negative refractive power, and a fourth lens group. Zooming is performed by changing respective distances between the first and second lens groups, the second and third lens groups, and the third and fourth lens groups. The first lens group includes a negative lens disposed closest to the object, and a negative lens. Specified conditional expressions are satisfied.
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 5/00 - Éléments optiques autres que les lentilles
G02B 13/18 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous avec des lentilles ayant une ou plusieurs surfaces non sphériques, p. ex. pour réduire l'aberration géométrique
G02B 15/177 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles ayant une lentille frontale négative ou un groupe de lentilles frontal négatif
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
92.
OBSERVATION DEVICE, OBSERVATION METHOD, AND PROGRAM
Provided is an observation device for analyzing a cell image, the observation device comprising: an image acquisition unit that, at a pixel resolution lower than the pixel resolution of a first image used for analysis, acquires a second image in a region wider than a region used for the analysis; an index calculation unit that calculates a value of an index pertaining to a cell for each partial region included in the second image and corresponding to the region used for analysis; and a region selection unit that selects a region to be used for analysis from a plurality of the partial regions on the basis of the values of the indexes calculated by the index calculation unit.
C12M 1/34 - Mesure ou test par des moyens de mesure ou de détection des conditions du milieu, p. ex. par des compteurs de colonies
C12M 1/00 - Appareillage pour l'enzymologie ou la microbiologie
C12Q 1/02 - Procédés de mesure ou de test faisant intervenir des enzymes, des acides nucléiques ou des micro-organismesCompositions à cet effetProcédés pour préparer ces compositions faisant intervenir des micro-organismes viables
An image display device includes: an input unit into which image signals are inputted, the image signals being outputted from image capturing pixels disposed in correspondence to image capturing micro-lenses, each of the image capturing pixels receiving light that has passed through a corresponding one of the image capturing micro-lenses; display micro-lenses; display pixels that emit light for forming a three-dimensional image to each of the display micro-lenses, the display pixels being disposed in correspondence to the display micro-lenses; and a generator that generates display image data that includes three-dimensional information, based upon the image signals inputted into the input unit. The generator allocates the image signals outputted from the image capturing pixels to the display pixels arranged at symmetrical positions in a predetermined direction, using a pseudo-optical axis of each of the display micro-lenses as a reference.
G02B 30/27 - Systèmes ou appareils optiques pour produire des effets tridimensionnels [3D], p. ex. des effets stéréoscopiques en fournissant des première et seconde images de parallaxe à chacun des yeux gauche et droit d’un observateur du type autostéréoscopique comprenant des réseaux lenticulaires
G03B 35/24 - Photographie stéréoscopique par examen simultané employant des moyens de résolution ou de réfringence sur l'écran ou entre l'œil et l'écran
H04N 13/232 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant un seul capteur d’images 2D utilisant des lentilles du type œil de mouche, p. ex. dispositions de lentilles circulaires
H04N 13/307 - Reproducteurs d’images pour visionnement sans avoir recours à des lunettes spéciales, c.-à-d. utilisant des affichages autostéréoscopiques utilisant des lentilles du type œil de mouche, p. ex. dispositions de lentilles circulaires
94.
MAGNIFICATION-VARIABLE OPTICAL SYSTEM, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING MAGNIFICATION-VARIABLE OPTICAL SYSTEM
A magnification-variable optical system having a small size, a wide angle of view, and high optical performance, an optical apparatus including the magnification-variable optical system, and a method for manufacturing the magnification-variable optical system are provided, the magnification-variable optical system ZL being used for an optical apparatus and includes a first lens group G1 having a negative refractive power, and a rear group GR including at least one lens group disposed on an image side of the first lens group G1, and is configured so that a distance between lens groups adjacent to each other changes at magnification change and a condition expressed by predetermined condition expressions is satisfied.
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 3/04 - Lentilles simples ou composées à surfaces non sphériques à surfaces continues engendrées par une rotation autour d'un axe, mais s'écartant d'une véritable sphère
A detection device includes: a detection unit that detects a predetermined non-contact operation by a detection reference; and a control unit that changes the detection reference when the predetermined non-contact operation is not detected by the detection reference.
G06F 3/041 - Numériseurs, p. ex. pour des écrans ou des pavés tactiles, caractérisés par les moyens de transduction
G06F 3/0354 - Dispositifs de pointage déplacés ou positionnés par l'utilisateurLeurs accessoires avec détection des mouvements relatifs en deux dimensions [2D] entre le dispositif de pointage ou une partie agissante dudit dispositif, et un plan ou une surface, p. ex. souris 2D, boules traçantes, crayons ou palets
G06F 3/038 - Dispositions de commande et d'interface à cet effet, p. ex. circuits d'attaque ou circuits de contrôle incorporés dans le dispositif
G06F 3/042 - Numériseurs, p. ex. pour des écrans ou des pavés tactiles, caractérisés par les moyens de transduction par des moyens opto-électroniques
G06F 3/044 - Numériseurs, p. ex. pour des écrans ou des pavés tactiles, caractérisés par les moyens de transduction par des moyens capacitifs
G06F 3/04817 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] fondées sur des propriétés spécifiques de l’objet d’interaction affiché ou sur un environnement basé sur les métaphores, p. ex. interaction avec des éléments du bureau telles les fenêtres ou les icônes, ou avec l’aide d’un curseur changeant de comportement ou d’aspect utilisant des icônes
G06F 3/04883 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] utilisant des caractéristiques spécifiques fournies par le périphérique d’entrée, p. ex. des fonctions commandées par la rotation d’une souris à deux capteurs, ou par la nature du périphérique d’entrée, p. ex. des gestes en fonction de la pression exercée enregistrée par une tablette numérique utilisant un écran tactile ou une tablette numérique, p. ex. entrée de commandes par des tracés gestuels pour l’entrée de données par calligraphie, p. ex. sous forme de gestes ou de texte
H04N 23/62 - Commande des paramètres via des interfaces utilisateur
96.
ELECTRONIC APPARATUS, METHOD FOR CONTROLLING ELECTRONIC APPARATUS, AND CONTROL PROGRAM
To generate multiple types of images of the same subject, an electronic apparatus includes a drive control unit that controls the drive of an image sensor, a division unit that divides an image capture region of the image sensor into at least first and second regions, and an image generation unit that generates a first image by capturing an image of the same subject in the first region and generates a second image by capturing an image of the same subject in the second region.
H04N 5/262 - Circuits de studio, p. ex. pour mélanger, commuter, changer le caractère de l'image, pour d'autres effets spéciaux
H04N 23/62 - Commande des paramètres via des interfaces utilisateur
H04N 25/42 - Extraction de données de pixels provenant d'un capteur d'images en agissant sur les circuits de balayage, p. ex. en modifiant le nombre de pixels ayant été échantillonnés ou à échantillonner en commutant entre différents modes de fonctionnement utilisant des résolutions ou des formats d'images différents, p. ex. entre un mode d'images fixes et un mode d'images vidéo ou entre un mode entrelacé et un mode non entrelacé
H04N 25/44 - Extraction de données de pixels provenant d'un capteur d'images en agissant sur les circuits de balayage, p. ex. en modifiant le nombre de pixels ayant été échantillonnés ou à échantillonner en lisant partiellement une matrice de capteurs SSIS
H04N 25/583 - Commande de la gamme dynamique impliquant plusieurs expositions acquises simultanément avec différents temps d'intégration
H04N 25/75 - Circuits pour fournir, modifier ou traiter des signaux d'image provenant de la matrice de pixels
H04N 25/79 - Agencements de circuits répartis entre des substrats, des puces ou des cartes de circuits différents ou multiples, p. ex. des capteurs d'images empilés
97.
INFORMATION PROCESSING METHOD, COMPUTER PROGRAM, RECORDING MEDIUM, INFORMATION PROCESSING DEVICE, AND PROCESSING DEVICE
This information processing method includes: acquiring a difference model indicating a difference between an object model obtained by measuring a three-dimensional shape of an object and a target model indicating a target shape after processing of the object generated on the basis of the object model; measuring a processed object having been subjected to the processing on the basis of the difference model to acquire a post-processing model indicating a three-dimensional shape of at least a part of the processed object; and generating difference information on a difference between the difference model and the post-processing model.
An optical system that achieves size reduction in a zoom lens with high magnification and has favorable optical performance, an optical apparatus, and a method for manufacturing the optical system are provided. An optical system OL included in an optical apparatus such as a camera 1 includes, sequentially from an object side, a first lens group G1 having positive refractive power, a second lens group G2 having negative refractive power, a middle group GM constituted by one or two lens groups and having positive refractive power, a focusing group GF that is a lens group having negative refractive power and moves in an optical axis direction at focusing, and a rear group GR constituted by at least one lens group, distance between lens groups adjacent to each other changes at magnification change from a wide-angle end state to a telephoto end state, and the optical system OL satisfies a predetermined condition.
G02B 15/14 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
G02B 15/20 - Objectifs optiques avec moyens de faire varier le grossissement par déplacement axial d'au moins une lentille ou de groupes de lentilles relativement au plan de l'image afin de faire varier de façon continue la distance focale équivalente de l'objectif avec des mouvements interdépendants en relation non linéaire entre une lentille ou un groupe de lentilles et une autre lentille ou un autre groupe de lentilles ayant une lentille additionnelle mobile ou un groupe de lentilles additionnel mobile pour faire varier la distance focale de l'objectif
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
99.
PROCESSING SYSTEM, PROCESSING METHOD, COMPUTER PROGRAM, RECORDING MEDIUM, AND CONTROL APPARATUS
A processing system is provided with: a support apparatus that is configured to support a processing target; a processing apparatus that performs an additive processing by irradiating a processed area on the processing target with an energy beam and by supplying materials to an area that is irradiated with the energy beam; and a position change apparatus that changes a positional relationship between the support apparatus and an irradiation area of the energy beam from the processing apparatus, wherein the processing system forms a fiducial build object by performing the additive processing on at least one of a first area that is a part of the support apparatus and a second area that is a part of the processing target, and the processing system controls at least one of the processing apparatus and the position change apparatus by using an information relating to the fiducial build object.
B22F 12/90 - Moyens de commande ou de régulation des opérations, p. ex. caméras ou capteurs
B29C 64/153 - Procédés de fabrication additive n’utilisant que des matériaux solides utilisant des couches de poudre avec jonction sélective, p. ex. par frittage ou fusion laser sélectif
B29C 64/393 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
B33Y 30/00 - Appareils pour la fabrication additiveLeurs parties constitutives ou accessoires à cet effet
B33Y 50/02 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
09 - Appareils et instruments scientifiques et électriques
Produits et services
Cinematographic cameras and their parts and accessories; cinematographic machines and apparatus; apparatus for editing cinematographic film; digital cinema cameras and their parts and accessories; photographic cameras and their parts and accessories; cameras and their parts and accessories; digital cameras and their parts and accessories; video cameras and their parts and accessories; optical machines and apparatus; lenses for cameras; lenses for cinematographic cameras; lenses for digital cinema cameras; lenses for digital cameras; lenses for video cameras; straps for cameras; adapters for attaching cameras to tripods; tripods for cameras; cases for cameras; straps for cinematographic cameras; adapters for attaching cinematographic cameras to tripods; tripods for cinematographic cameras; cases for cinematographic cameras; straps for digital cinema cameras; adapters for attaching digital cinema cameras to tripods; tripods for digital cinema cameras; cases for digital cinema cameras; straps for digital cameras; adapters for attaching digital cameras to tripods; tripods for digital cameras; cases for digital cameras; straps for video cameras; adapters for attaching video cameras to tripods; tripods for video cameras; cases for video cameras.
