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:
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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:
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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
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.
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
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
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.
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
7.
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
8.
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
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
12.
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
13.
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
18.
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
20.
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
22.
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
23.
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
25.
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
26.
PROCESSING APPARATUS, PROCESSING METHOD, BUILD APPARATUS, BUILD METHOD, COMPUTER PROGRAM AND RECORDING MEDIUM
A processing apparatus is a processing apparatus that performs a process for irradiating an object with an energy beam, the processing apparatus is provided with: an energy beam irradiation apparatus that irradiates at least a part of a surface of the object with the energy beam; and a position change apparatus that changes an irradiation position of the energy beam at the surface of the object, the processing apparatus controls the irradiation position of the energy beam by using a shape information relating to a shape of the object.
The problem of the presence of excess flare in maskless photolithography systems is addressed by systems and methods that utilize an aerial imaging system to monitor flare associated with the maskless photolithography systems.
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
28.
MICROSCOPE OBJECTIVE LENS, MICROSCOPE OPTICAL SYSTEM, AND MICROSCOPE APPARATUS
A microscope objective lens (OL) comprises a first lens group (G1) having positive refractive power, a second lens group (G2) having negative refractive power, and a third lens group (G3) having positive refractive power, the third lens group (G3) having a cemented lens (CL31) including a positive lens and a negative lens. The microscope objective lens satisfies the following conditional expression. 0.1
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 27/00 - Systèmes ou appareils optiques non prévus dans aucun des groupes ,
A scanning optical system (SL) of this scanning microscope comprises a plurality of lens components and has positive refractive power as a whole, each lens component comprising one cemented lens composed of a plurality of lenses cemented to each other, or one lens. The scanning optical system satisfies the following conditional expression. 0.007<Σ(nd×tc/νd)/LA<0.021 where Σ(nd×tc/νd) is the sum total of nd×tc/νd of lenses of the plurality of lens components when a refractive index for the d line of a lens constituting the plurality of lens components is denoted by nd, the center thickness of the lens is denoted by tc, and the Abbe's number of the lens is denoted by νd, and LA is the distance on an optical axis from a lens surface on the scanning mechanism side of a lens component closest to a scanning mechanism to a lens surface on the objective optical system side of a lens component closest to an objective optical system.
A variable magnification optical system comprising a plurality of lens groups which includes a first negative lens group having negative refractive power, a second negative lens group disposed at a more image side than the first negative lens group and having negative refractive power, a third negative lens group disposed at a more image side than the second negative lens group and having negative refractive power; upon varying a magnification, distances between adjacent lens groups being varied; the first negative lens group being movable to include a component in a direction perpendicular to the optical axis as a vibration reduction lens group; the second negative lens group being moved along the optical axis upon carrying out focusing; and the predetermined conditional expression(s) being satisfied. The variable magnification optical system can attain a high optical performance and be made in small in size.
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
This measurement system comprises a first measurement device that measures at least a portion of a workpiece in a first measurement region, and a second measurement device that measures a portion of the workpiece in a second measurement region that is narrower than the first measurement region. In the measurement system, a first image including an image of the workpiece obtained from a first measurement result by the first measurement device is displayed by a display device, a measurement object pertaining to the second measurement device is displayed superimposed on the first image by the display device on the basis of the first measurement result, and the second measurement device measures a portion of the workpiece corresponding to the measurement object.
A microscope objective lens (OL) comprises a first lens group (G1) having positive refractive power, a second lens group (G2) having negative refractive power, and a third lens group (G3) having positive refractive power, the first lens group (G1) having a cemented lens (CL11) including a negative lens. The microscope objective lens satisfies the following conditional expressions. 0.625<θgF1N<0.725 22.5<νd1N<30 where νd1N is the Abbe's number of the negative lens in the cemented lens (CL11) of the first lens group (G1), and θgF1N is the partial dispersion ratio of the negative lens in the cemented lens (CL11) of the first lens group (G1).
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
An accessory mount can be inserted through the camera body mount without any of the first through third tabs being hindered by any of three camera body-side tabs at the camera body mount, as long as the accessory mount is inserted into the camera body mount at a correct interlock phase. The first, second, and third tabs extend over varying lengths along the circumferential direction. The first tab extends over a greatest length and the third tab extends over a smallest length, along the circumferential direction. The accessory mount includes a restricting member, a fitting portion, and a lock pin hole. The restricting member is disposed at a position assumed on a side substantially opposite from the lock pin hole across the fitting portion.
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
A shaping system (SYS1) comprises a shaping device (20) that can shape an object to be shaped on a workpiece (W) and that includes: a first irradiation unit (21) that has a first irradiation optical system (22) having an optical axis along the vertical direction and that is capable of irradiating the workpiece (W) with processing light (EL) from above the workpiece W; and material nozzles (24) for supplying a shaping material (M) to the position at which the processing light (EL) is projected. The shaping system (SYS1) also comprises a second irradiation unit (150L, 150R) that can heat the object to be shaped and that can irradiate the object to be shaped with heating light. The second irradiation unit (150L, 150R) can project the heating light below the position at which the processing light (EL) is projected.
This eye imaging device images an eye and comprises: a retroreflection unit for retroreflecting light from the eye; a beam splitter disposed on the optical path on which light from the eye reaches the retroreflection unit; and an acquisition unit for acquiring, from the light from the eye, light that was reflected by the retroreflection unit and that passed through the beam splitter.
A variable magnification optical system (ZL) comprises a plurality of lens groups including: a first lens group (G1) having a positive refractive power and disposed closest to the object side; and a terminal lens group (GL) having a negative refractive power and disposed closest to the image surface side. The plurality of lens groups include at least six lens groups. When varying magnification, the intervals between adjacent lens groups change, and the following conditional expression is satisfied. 2.00 < f1/(- fL) < 20.00. f1 is the focal length of the first lens group (G1), and fL is the focal length of the terminal lens group (GL).
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
37.
ELECTRONIC DEVICE, IMAGING DEVICE, IMAGE REPRODUCTION METHOD, IMAGE REPRODUCTION PROGRAM, RECORDING MEDIUM WITH IMAGE REPRODUCTION PROGRAM RECORDED THEREUPON, AND IMAGE REPRODUCTION DEVICE
An electronic device includes: a communication unit that performs communication with an external device; and a control unit that issues a command to the external device via the communication unit, on the basis of at least one of capacity of the external device, and capacity of the electronic device.
H04N 1/00 - Balayage, transmission ou reproduction de documents ou similaires, p. ex. transmission de fac-similésLeurs détails
G06F 16/583 - Recherche caractérisée par l’utilisation de métadonnées, p. ex. de métadonnées ne provenant pas du contenu ou de métadonnées générées manuellement utilisant des métadonnées provenant automatiquement du contenu
H04N 5/77 - Circuits d'interface entre un appareil d'enregistrement et un autre appareil entre un appareil d'enregistrement et une caméra de télévision
H04N 5/907 - Enregistrement du signal de télévision utilisant des mémoires, p. ex. des tubes à mémoires ou des mémoires à semi-conducteurs
H04N 9/804 - Transformation du signal de télévision pour l'enregistrement, p. ex. modulation, changement de fréquenceTransformation inverse pour la reproduction comportant une modulation par impulsions codées pour les composantes du signal d'image en couleurs
H04N 9/82 - Transformation du signal de télévision pour l'enregistrement, p. ex. modulation, changement de fréquenceTransformation inverse pour la reproduction les composantes individuelles des signaux d'image en couleurs n'étant enregistrées que simultanément
H04N 23/61 - Commande des caméras ou des modules de caméras en fonction des objets reconnus
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 23/62 - Commande des paramètres via des interfaces utilisateur
H04N 23/63 - Commande des caméras ou des modules de caméras en utilisant des viseurs électroniques
H04N 23/661 - Transmission des signaux de commande de la caméra par le biais de réseaux, p. ex. la commande via Internet
H04N 23/667 - Changement de mode de fonctionnement de la caméra, p. ex. entre les modes photo et vidéo, sport et normal ou haute et basse résolutions
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
H04N 23/90 - Agencement de caméras ou de modules de caméras, p. ex. de plusieurs caméras dans des studios de télévision ou des stades de sport
38.
MOVING BODY, SHEET MEMBER, AND MANUFACTURING DEVICE
Provided is a moving body capable of moving in a fluid, wherein a surface of the moving body includes a first surface to which a first sheet member having a first riblet structure formed thereon is attached, and a second surface to which a second sheet member having a second riblet structure formed thereon is attached, a characteristic of the first riblet structure being different from a characteristic of the second riblet structure.
B64C 21/10 - Moyens permettant d'influencer l'écoulement d'air sur les surfaces des aéronefs en agissant sur la couche limite par utilisation d'autres caractéristiques de la surface, p. ex. la rugosité
39.
IMAGE PROCESSING METHOD, IMAGE PROCESSING DEVICE, AND RECORDING MEDIUM STORING PROGRAM
An image processing method, performed by a processor, includes: a step of acquiring OCT volume data including a choroid; a step of generating plural en-face images corresponding to plural planes having different depths, based on the OCT volume data; a step of deriving an image feature amount in each of the plural en-face images; and a step of identifying, as a boundary, an interval between en-face images in which the image feature amounts indicate a switch between presence and absence of choroidal blood vessels, based on the respective image feature amounts.
G06V 10/44 - Extraction de caractéristiques locales par analyse des parties du motif, p. ex. par détection d’arêtes, de contours, de boucles, d’angles, de barres ou d’intersectionsAnalyse de connectivité, p. ex. de composantes connectées
G06V 10/60 - Extraction de caractéristiques d’images ou de vidéos relative aux propriétés luminescentes, p. ex. utilisant un modèle de réflectance ou d’éclairage
40.
CAMERA BODY FOR RECEIVING FIRST AND SECOND IMAGE PLANE TRANSFER COEFFICIENTS
A lens barrel of the invention includes: an imaging optical system including a focus adjustment lens; a driver that drives the focus adjustment lens in a direction of an optical axis; a transceiver that transmits and receives a signal to and from a camera body; and a controller that controls the transceiver to repeatedly transmit a first image plane transfer coefficient which is determined in correspondence with a position of the focus adjustment lens included in the imaging optical system and a second image plane transfer coefficient which does not depend on the position of the focus adjustment lens to the camera body at a predetermined interval, and, when the controller repeatedly transmits the second image plane transfer coefficient to the camera body, the controller varies the second image plane transfer coefficient over time.
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
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
G02B 7/36 - Systèmes pour la génération automatique de signaux de mise au point utilisant des techniques liées à la netteté de l'image
G02B 7/38 - Systèmes pour la génération automatique de signaux de mise au point utilisant des techniques liées à la netteté de l'image mesurée en différents points de l'axe optique
G03B 13/36 - Systèmes de mise au point automatique
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
G03B 19/12 - Appareils reflex à un seul objectif, avec miroir mobile ou semi-transparent
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
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
41.
IMAGE PROCESSING METHOD, IMAGE PROCESSING DEVICE, AND PROGRAM
An image processing method performed by a processor includes: a step of acquiring an image captured of a choroid; a step of performing enhancement processing that enhances contrast in the acquired image; a step of performing binarization processing on the image that has been subjected to the enhancement processing; and a step of extracting a region corresponding to choroidal blood vessels in the choroid from the image that has been subjected to the binarization processing.
G06T 5/94 - Modification de la plage dynamique d'images ou de parties d'images basée sur les propriétés locales des images, p. ex. pour l'amélioration locale du contraste
G06T 3/40 - Changement d'échelle d’images complètes ou de parties d’image, p. ex. agrandissement ou rétrécissement
A pulsed light generation device includes a nonlinear optical crystal configured to cause first pulsed light emitted from a pulsed light source to enter, and to emit second pulsed light obtained by wavelength-converting the first pulsed light, and a diffraction grating that is disposed on an advancing path of the second pulsed light emitted from the nonlinear optical crystal and that is configured to emit third pulsed light obtained by reducing a ratio of an amount of change in pointing with respect to an amount of change in frequency of the entered pulsed light.
B23K 26/0622 - Mise en forme du faisceau laser, p. ex. à l’aide de masques ou de foyers multiples par commande directe du faisceau laser par impulsions de mise en forme
H01S 3/00 - Lasers, c.-à-d. dispositifs utilisant l'émission stimulée de rayonnement électromagnétique dans la gamme de l’infrarouge, du visible ou de l’ultraviolet
H01S 3/08 - Structure ou forme des résonateurs optiques ou de leurs composants
43.
ILLUMINATION UNIT, EXPOSURE DEVICE, AND EXPOSURE METHOD
An illumination unit comprising: a light source; a first optical system that forms an intermediate image of the light source; and a control mechanism that can switch between a first state in which a dimming member is disposed at or near the position of the intermediate image, and a second state in which the dimming member is not disposed there.
This image blur correction device is provided with: an imaging element having an imaging plane in which a plurality of pixels are arranged; a first support member that supports the imaging element; a second support member that movably supports the first support member; and a drive unit that drives the first support member relative to the second support member. The drive unit includes a first drive unit that drives the first support member in a first direction in the imaging plane, and two second drive units that drive the first support member in a second direction orthogonal to the first direction in the imaging plane. The first drive unit is provided with a coil wound in a substantially rectangular shape, and a magnet. When the imaging element is viewed from a third direction orthogonal to the imaging plane, one of the two long sides of the coil overlaps the imaging element.
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
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 17/55 - Parties constitutives des appareils ou corps d'appareilsLeurs accessoires avec des dispositions pour chauffer ou réfrigérer, p. ex. avion
G03B 30/00 - Modules photographiques comprenant des objectifs et des unités d'imagerie intégrés, spécialement adaptés pour être intégrés dans d'autres dispositifs, p. ex. des téléphones mobiles ou des véhicules
H04N 23/52 - Éléments optimisant le fonctionnement du capteur d'images, p. ex. pour la protection contre les interférences électromagnétiques [EMI] ou la commande de la température par des éléments de transfert de chaleur ou de refroidissement
H04N 23/54 - Montage de tubes analyseurs, de capteurs d'images électroniques, de bobines de déviation ou de focalisation
A processing system includes: a first processing apparatus that performs an additive manufacturing in a first processing area by emitting a first energy beam; a second processing apparatus that performs a removal processing in a second processing area by emitting a second energy beam; first and second placing apparatuses on which the additive manufacturing and the removal processing are performed; a positional change apparatus that relatively moves the first and second placing apparatuses between the first and second processing areas; and first and second light receiving apparatuses respectively disposed on the first and second placing apparatuses, wherein each of the first and second light receiving apparatuses may optically receive at least one of the first and second energy beams, and information related to a position of the first placing apparatus is acquired by an optical received result by the first light receiving apparatus, and information related to a position of the second placing apparatus is acquired by an optical received result by the second light receiving apparatus.
A zoom optical system consists of a first lens group having negative refractive power, a second lens group having positive refractive power, and a rear lens group which are disposed in order from an object. The rear lens group comprises a last lens group and an F lens group in order from a side closest to an image. Lens groups forming the first lens group, the second lens group, and the rear lens group are configured in such a manner that, upon zooming, the respective lens groups move and a distance between the lens groups adjacent to each other changes. At least a part of the F lens group is configured to move upon focusing. Further, the following conditional expression is satisfied.
A zoom optical system consists of a first lens group having negative refractive power, a second lens group having positive refractive power, and a rear lens group which are disposed in order from an object. The rear lens group comprises a last lens group and an F lens group in order from a side closest to an image. Lens groups forming the first lens group, the second lens group, and the rear lens group are configured in such a manner that, upon zooming, the respective lens groups move and a distance between the lens groups adjacent to each other changes. At least a part of the F lens group is configured to move upon focusing. Further, the following conditional expression is satisfied.
−0.220
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 15/20 - 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
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
48.
IMAGE-FORMING OPTICAL SYSTEM, EXPOSURE APPARATUS, AND DEVICE PRODUCING METHOD
There is provided a reflective image-forming optical system which is applicable to an exposure apparatus using, for example, EUV light and which is capable of increasing numerical aperture while enabling optical path separation of light fluxes. In a reflective imaging optical system (6) forming an image of a first plane (4) onto a second plane (7), the numerical aperture on a side of the second plane with respect to a first direction (X direction) on the second plane is greater than 1.1 times a numerical aperture on the side of the second plane with respect to a second direction (Y direction) crossing the first direction on the second plane. The reflecting imaging optical system has an aperture stop (AS) defining the numerical aperture on the side of the second plane, and the aperture stop has an elliptic-shaped opening of which size in a major axis direction (X direction) is greater than 1.1 times that in a minor axis direction (Y direction).
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
G02B 17/06 - Systèmes catoptriques, p. ex. systèmes redressant et renversant une image utilisant uniquement des miroirs
49.
CORRECTION APPARATUS, EXPOSURE APPARATUS, COATER AND DEVELOPER APPARATUS, EXPOSURE SYSTEM, EXPOSURE METHOD, AND DEVICE MANUFACTURING METHOD
A correction apparatus includes a mounting device configured to allow a wafer to be mounted thereon, a heating part configured to heat the wafer mounted on the mounting device, a force application part configured to apply a force to the wafer mounted on the mounting device, a first transport device configured to transport the wafer removed from the mounting device, and a controller configured to control the heating part and the force application part, wherein the controller performs shape correction on the wafer by the force application part applying a force to the wafer while the heating part heats the wafer, and the first transport device transports the wafer to which the shape correction has been performed.
H01L 21/67 - 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
50.
IMAGE PROCESSING METHOD AND IMAGE PROCESSING DEVICE
An image processing method includes a labeled image acquisition step of acquiring a labeled image of biological samples including a plurality of structures that are labeled, a binarized image generation step of binarizing the labeled image to generate binarized images, and a ground-truth image acquisition step of inputting an unknown labeled image into a pre-trained model trained using the labeled image and the binarized images corresponding to the labeled image, thereby acquiring, as a ground-truth image, a binarized image in which the structures in the unknown labeled image appear plausible.
G06V 20/69 - Objets microscopiques, p. ex. cellules biologiques ou pièces cellulaires
G06V 10/28 - Quantification de l’image, p. ex. seuillage par histogramme visant à discriminer entre les formes d’arrière-plan et d’avant-plan
G06V 10/774 - Génération d'ensembles de motifs de formationTraitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source méthodes de Bootstrap, p. ex. "bagging” ou “boosting”
51.
OPTICAL SYSTEM, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING OPTICAL SYSTEM
An optical system comprising, in order from an object side, a first lens group, an aperture stop, and a rear group that includes a first cemented lens comprising a positive lens and a negative lens is configured so as to satisfy the following conditional expressions:
An optical system comprising, in order from an object side, a first lens group, an aperture stop, and a rear group that includes a first cemented lens comprising a positive lens and a negative lens is configured so as to satisfy the following conditional expressions:
0.350
G02B 9/64 - 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 plus de six composants
52.
VENTILATION WATERPROOF MEMBER, BOX GIRDER, AND BOX GIRDER BRIDGE
A ventilation waterproof member (30) to which a hollow structure (10) is to be attached is composed of a solid material, has a prescribed three-dimensional shape that can be attached to the hollow structure (10) in a state of being inserted into a through-hole (17) formed in the hollow structure, and has a plurality of ventilation holes capable of preventing water (liquid) from entering. This makes it possible to ventilate the interior of the hollow structure while preventing water from entering the interior of the hollow structure.
A processing apparatus is a processing apparatus that performs a riblet processing on a surface of an object by using light from a light source, and includes: a first optical system that forms an interference fringe on the surface of the object by irradiating the object with a plurality of processing lights, which are generated by dividing the light from the light source, from different incident directions, respectively; and a second optical system that adjusts a shape of a riblet, which is formed on the surface of the object, by providing at least one difference of a difference in intensity, a difference in phase and a difference in polarization between at least two processing lights, with which the object is irradiated, among the plurality of processing lights.
B23K 26/359 - Travail par rayon laser, p. ex. soudage, découpage ou perçage pour le traitement de surface en formant une ligne ou un motif linéaire, p. ex. une ligne en pointillés d'amorce de rupture
B23K 26/067 - Division du faisceau en faisceaux multiples, p. ex. foyers multiples
Various factors can degrade the quality of camera images. For example, images can be distorted by rotation, shear, horizontal lens shift, and/or vertical lens shift. Such factors may result in perspective distortion of a subject being captured in a camera image by transforming horizontal and/or vertical lines of the subject and/or subject plane into lines that are at an angle to the horizon and/or the normal to the horizon in the image. Prior techniques that rely on search processes to find a homography for perspective correction in images can be time-consuming and computationally expensive. Moreover, these prior techniques may fail to find a solution that results in a corrected image of sufficient quality. The disclosed techniques overcome these drawbacks by applying fast homography transformations based on deterministic methods to align images that exhibit perspective distortion.
G06T 3/14 - Transformations pour le recalage d’images, p. ex. ajustement ou mappage pour l’alignement d’images
G06T 7/33 - Détermination des paramètres de transformation pour l'alignement des images, c.-à-d. recalage des images utilisant des procédés basés sur les caractéristiques
55.
IMAGING DEVICE AND INFORMATION ACQUISITION SYSTEM IN WHICH AN ACQUIRED IMAGE AND ASSOCIATED INFORMATION ARE HELD ON A DISPLAY
An imaging device includes an imaging portion that images a subject; a positional information acquisition portion that acquires positional information of an imaging position; a control portion which acquires information on the subject based on the positional information, and displays image data of the subject and the information on the subject on a display portion; and a hold control portion that outputs a hold control signal, which holds the image data of the subject and the information on the subject, to the control portion.
G06V 20/20 - ScènesÉléments spécifiques à la scène dans les scènes de réalité augmentée
G06F 3/0481 - 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
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
G06Q 30/0207 - Remises ou incitations, p. ex. coupons ou rabais
G06T 7/33 - Détermination des paramètres de transformation pour l'alignement des images, c.-à-d. recalage des images utilisant des procédés basés sur les caractéristiques
G06T 19/00 - Transformation de modèles ou d'images tridimensionnels [3D] pour infographie
H04N 1/00 - Balayage, transmission ou reproduction de documents ou similaires, p. ex. transmission de fac-similésLeurs détails
H04N 1/32 - Circuits ou dispositions pour la commande ou le contrôle entre l'émetteur et le récepteur
H04N 5/77 - Circuits d'interface entre un appareil d'enregistrement et un autre appareil entre un appareil d'enregistrement et une caméra de télévision
H04N 9/82 - Transformation du signal de télévision pour l'enregistrement, p. ex. modulation, changement de fréquenceTransformation inverse pour la reproduction les composantes individuelles des signaux d'image en couleurs n'étant enregistrées que simultanément
H04N 21/422 - Périphériques d'entrée uniquement, p. ex. système de positionnement global [GPS]
An optical glass contains, by mol %, 40 to 85% of a content rate of TeO2, 10 to 40% of a content rate of ZnO, at least one of B2O3 and Bi2O3, and at least one of La2O3 and WO3.
C03C 3/155 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant du bore contenant des terres rares contenant du zirconium, du titane, du tantale ou du niobium
G02B 7/14 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles équipées de lentilles interchangeables
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
57.
IMAGE PROCESSING METHOD, PROGRAM, AND IMAGE PROCESSING DEVICE
A feature value related to a positional relationship between a vortex vein position and a characteristic point on a fundus image is computed.
A feature value related to a positional relationship between a vortex vein position and a characteristic point on a fundus image is computed.
The image processing method provided includes a step of analyzing a choroidal vascular image and estimating a vortex vein position, and a step of computing a feature value indicating a positional relationship between the vortex vein position and a position of a particular site on a fundus.
Provided is a robot hand device that can connect to a robot arm, said robot hand device comprising: a plurality of finger parts that can grip an object; a drive part that drives a driven part of at least one finger part from among the plurality of finger parts in order to cause the plurality of finger parts to grip the object; and a force increasing part that applies force to at least one finger part from among the plurality of finger parts in order to increase the gripping force on the object. Thus, the gripping force on the object can be increased without increasing the size of the robot hand or particularly increasing the complexity thereof.
The purpose of the invention is to provide a phase shift mask that can be formed in a shorter takt time than when a mask provided with a phase-shift film having a transmittance of about 5% is used. A mask (300) comprises: a phase shift film (20) that has an exposure light (wavelength λ) transmittance of 35% and a square contact hole pattern (20a), and that is formed on a mask substrate; and a light-shielding film (30) that is formed on the phase shift film (20) and that has a polygonal aperture pattern (30a) for exposing the phase shift film (20). When the target diameter of a pattern formed using a projection optical system having a numerical aperture NA is 0.45 to 0.52 λ/NA, the length of one side of the contact hole pattern (20a) is 0.71 to 0.82 λ/NA, and the distance between one side of the contact hole pattern (20a) and one side of the polygonal aperture pattern (30a) is 0.48 to 0.64 λ/NA.
This microscope system comprises: a stage having a first surface provided with a holder for accommodating an object; an electron microscope for irradiating the object accommodated in the holder with an electron beam to acquire information on the object; a first vacuum formation part disposed so as to face the first surface of the stage and locally forming a first vacuum region on a part of the first surface; and a second vacuum formation part disposed so as to face a second surface of the stage and locally forming a second vacuum region on a part of the second surface on the opposite side of the first vacuum formation part across the stage. The electron microscope irradiates the object in the holder with the electron beam through the first vacuum region in a state where the first vacuum region and the second vacuum region are formed.
A spatial light modulation element (100) is provided with: an optical member (110) which is formed using a ferroelectric material having light transmissivity, and on which processing light traveling along a Z direction is incident as incident light; positive and negative electrodes (120, 125) that are disposed on a disposition surface (113) of the optical member (110) along an X direction; and wiring (positive lines (130) and ground lines (135)) that applies voltage to the positive electrodes (120) such that a potential difference is generated between the positive and negative electrodes (120, 125). When the potential difference has been generated between the positive and negative electrodes (120, 125), the refractive index in the optical member (110) changes along the X direction.
G02F 1/05 - 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 avec des propriétés ferro-électriques
This optical device inspects a surface to be inspected, the surface having a riblet structure in which a plurality of convex sections lying in a first direction are provided in a second direction intersecting the first direction. The optical device comprises: a condensing optical system for projecting light from a light source onto an irradiation region on the surface to be inspected and condensing light reflected by the irradiation region; a light-receiving element for detecting the light condensed by the condensing optical system; and a light amount-modifying member capable of modifying a ratio between a light amount of first reflected light which is reflected by a section of the irradiation region where the convex sections are not provided and which is oriented toward the light-receiving element, and a light amount of second reflected light which is reflected by the convex sections in the irradiation region and oriented toward the light-receiving element.
This imaging control device comprises: an acquisition unit that acquires a positional relationship between a first object and a second object; and a control unit that controls imaging of at least one of the first object and the second object by an imaging device. The control unit controls the imaging by the imaging device when the positional relationship acquired by the acquisition unit satisfies a predetermined imaging condition.
G06T 7/246 - Analyse du mouvement utilisant des procédés basés sur les caractéristiques, p. ex. le suivi des coins ou des segments
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
65.
OPTICAL SYSTEM, OPTICAL DEVICE, AND METHOD FOR MANUFACTURING OPTICAL SYSTEM
Provided are an optical system, an optical device, and a method for manufacturing an optical system which achieve miniaturization, widen the angle of view, reduce distortion aberration, and ensure an amount of peripheral light. An optical system OL to be used in an optical device such as a camera 1 is configured from, in order from an object side, a front group GA, an aperture stop S, and a rear group GB. The rear group GB includes a focusing group Gf that moves along the optical axis during focusing, and an image-side group Gr that is fixed during focusing and arranged closer to the image surface side than the focusing group Gf. The optical system is configured to satisfy a condition according to a prescribed conditional expression.
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
66.
ZOOM OPTICAL SYSTEM, OPTICAL APPARATUS AND IMAGING APPARATUS USING THE ZOOM OPTICAL SYSTEM, AND METHOD FOR MANUFACTURING THE ZOOM OPTICAL SYSTEM
A zoom optical system (ZL) comprises, in order from an object: a first lens group (G1) having a positive refractive power; a second lens group (G2) having a negative refractive power; a third lens group (G3) having a positive refractive power; and a subsequent lens group (GR), wherein upon zooming, a distance between the first lens group (G1) and the second lens group (G2) changes, a distance between the second lens group (G2) and the third lens group (G3) changes, and a distance between the third lens group (G3) and the subsequent lens group (GR) changes, the subsequent lens group (GR) comprises a focusing lens group that moves upon focusing, and the second lens group (G2) comprises a partial group that satisfies following conditional expressions, 1.40
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 9/14 - 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 trois composants disposés + — +
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 15/20 - 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
The purpose of the present invention is to suppress the occurrence of stray light in an exposure device. A spatial light modulation unit (CHP) of an exposure device comprises: a modulation unit (10) that has a plurality of mirrors arranged two-dimensionally; a spatial light modulator that includes a frame (CFL) surrounding the modulation unit, and a substrate (SB) on which the modulation unit (10) and the frame (FRM) are mounted; and a cover (CVR) that is positioned on a side of the spatial light modulator where light impinges on the modulation unit, the cover (CVR) being attached to the spatial light modulator and restricting incidence of light on the frame. The cover (CVR) has an opening (OPN1). Light impinges on the modulation unit (10) via the opening (OPN1).
A processing apparatus has: a light irradiation apparatus that irradiates a surface of an object with a processing light; and a measurement apparatus that measures a position of an irradiation area, which is formed on the surface of the object by the light irradiation apparatus, relative to the object.
A measurement condition that enables accurate shape measurement can be set easily. An image analysis device includes an image analyzer 83 configured to detect, in a case of capturing an image of light projected onto an object to be measured, an improper image for shape measurement of the object to be measured, on the basis of design information on the object to be measured, and a measurement condition, and an output unit 88 configured to output detection result information that is information based on a detection result of the image analyzer 83.
G01B 11/24 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes
G01B 11/14 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la distance ou la marge entre des objets ou des ouvertures espacés
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
70.
MICROSCOPE, IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM
A first three-dimensional point spread function based on optical system in first state is different from second three-dimensional point spread function based on optical system in second state. A generator that generates image group including first image of first focal plane acquired through optical system in first state and second image of second focal plane acquired through optical system in second state, and estimator that estimates respective structures of plurality of planes including first estimated sample plane, on basis of image group, and first three-dimensional point spread function and second three-dimensional point spread function, and outputs estimated image. The estimator i) outputs image obtained by weighting and integrating respective estimated structures of planes. The estimator ii) outputs, image obtained by weighting first three-dimensional point spread function and second three-dimensional point spread function differently in optical axis direction, then estimating structures, and integrating estimated structures in state of weighting of 1.
An image sensor includes a plurality of pixels each including: a first and a second photoelectric conversion unit that perform photoelectric conversion upon light that has passed through a micro lens and generates a charge; a first accumulation unit that accumulates the charge generated by the first conversion unit; a second accumulation unit that accumulates the charge generated by the second conversion unit; a third accumulation unit that accumulates the charges generated by the first and second conversion units; a first transfer unit that transfers the charge generated by the first conversion unit to the first accumulation unit; a second transfer unit that transfers the charge generated by the second onversion unit to the second accumulation unit; and a third transfer unit that transfers the charges generated by the first and second conversion units to the third accumulation unit.
H01L 27/148 - Capteurs d'images à couplage de charge
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
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
72.
PROCESSING APPARATUS, PROCESSING METHOD, MARKING METHOD, BUILD METHOD, COMPUTER PROGRAM AND RECORDING MEDIUM
A processing apparatus and a build apparatus including an energy beam irradiation part that irradiates a surface of an object with an energy beam to form a melt pool on the surface and a material supply part that supplies build materials to the melt pool; and a change apparatus that changes a positional relationship between the object and the melt pool, wherein the processing apparatus changes a size of a build object, which is built along a first direction by supplying the build materials to the melt pool while changing a positional relationship in the first direction between the object and the melt pool, in a second direction, which intersects with the first direction, on the basis of a position of the build object in the first direction.
Provided is a robot device comprising: a robot hand to which a plurality of finger parts are provided; an arm part that drives the robot hand; a plurality of gripping parts that follow the plurality of finger parts and can grip an object; at least one identification part on at least one of the plurality of gripping parts; and a control unit that uses position information regarding the identification part and drives the robot hand via the arm part to position the plurality of gripping parts with respect to the object. Thus, positional alignment of the object and the robot hand can be efficiently performed.
This defect inspection device includes: an illumination unit that irradiates a sample with illumination light emitted from a light source; a detection unit that is disposed in an oblique direction with respect to the sample and detects scattered light generated from the sample; a pupil division mechanism that divides the pupil of the detection unit into a first detection angle and a second detection angle; a first photoelectric conversion unit that converts scattered light at the first detection angle detected by the detection unit into an electric signal; a second photoelectric conversion unit that converts scattered light at the second detection angle detected by the detection unit into an electric signal; and a signal processing unit that processes the electric signals converted by the first photoelectric conversion unit and the second photoelectric conversion unit to detect a defect in the sample. The pupil division mechanism divides the pupil such that the pupil allocation corresponds to the object being inspected or the inspection conditions.
G01N 21/956 - Inspection de motifs sur la surface d'objets
G01B 11/06 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
G02B 5/00 - Éléments optiques autres que les lentilles
75.
DATA GENERATION METHOD, CLOUD SYSTEM, PROCESSING APPARATUS, COMPUTER PROGRAM, AND RECORDING MEDIUM
A data generation method performs subtractive manufacturing by irradiating object with pulse energy beam and measures shape after; calculates information related to light penetration depth into object based on shape information before subtractive manufacturing and measured result of shape after subtractive manufacturing; calculates for each irradiation target position based on information related to an inclination at each irradiation target position of object that is irradiated with pulse energy beam with respect to an irradiation direction of the pulse energy beam and the information related to light penetration depth, a unit processing amount of object in a case where object is irradiated with pulse energy beam a unit number of times; and calculates, based on a target processing amount for each irradiation target position and the unit processing amount for each irradiation target position, a target number of times which each irradiation target position is irradiated with the pulse energy beam.
The present invention provides a defect inspecting device and defect inspecting method capable of reducing influence due to height variation of a sample surface and achieving high sensitivity. In order to achieve the above-mentioned purpose, this defect inspecting device includes: an illumination unit that irradiates a sample with light emitted from a light source; a detection unit that detects scattered light generated from the sample; a sample height detection unit that measures a variation amount of the sample in a direction perpendicular to a surface of the sample; a photoelectric conversion unit that converts the scattered light detected by the detection unit into an electric signal; and a signal processing unit that processes the electric signal converted by the photoelectric conversion unit to detect a defect of the sample. The detection unit has a mechanism for adjusting its position after divergence from an opening in accordance with the variation amount of the surface of the sample acquired by the sample height detection unit, and a mechanism for separately detecting scattered light, which has been generated from the sample after divergence from the opening, at a plurality of elevation angles for detection. The signal processing unit has a mechanism for correcting the positions of a plurality of images formed by divergence from the opening in accordance with the variation amount of the surface of the sample acquired by the sample height detection unit.
G01N 21/956 - Inspection de motifs sur la surface d'objets
G02B 5/00 - Éléments optiques autres que les lentilles
G01B 11/06 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
Disclosed is an organic semiconductor composition containing an organic semiconductor material and a thiophene solvent, wherein: the organic semiconductor material contains a compound having a thiophene ring; and the thiophene solvent contains thiophene as a main component. It is preferable that the organic semiconductor material has liquid crystallinity, and it is also preferable that the thiophene solvent is a non-halogen solvent.
H10K 10/46 - Transistors à effet de champ, p. ex. transistors organiques à couche mince [OTFT]
H10K 71/15 - Dépôt d'une matière active organique en utilisant un dépôt liquide, p. ex. revêtement par centrifugation caractérisé par le solvant utilisé
78.
LEARNING APPARATUS, PREDICTION APPRARATUS, AND IMAGING APPRARATUS
A learning apparatus includes a processor that executes a program; and a storage device that stores the program, wherein the processor is configured to execute an acquisition process of acquiring an image data group, and correct data pertaining to sale of each piece of image data in the image data group; and a generation process of generating a learning model that predicts an ease of selling the image data on the basis of the image data group and the correct data acquired during the acquisition process.
G06V 10/82 - Dispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant les réseaux neuronaux
G06Q 30/0202 - Prédictions ou prévisions du marché pour les activités commerciales
A data generation method includes: generating, based on an input of an input apparatus, model data representing a three-dimensional shape of an object that is additively built on a placement apparatus by using a build head; generating, based on the model data, display data for displaying a three-dimensional model related to the object on a display apparatus; and generating, based on the model data, build data for additively building the object, the three-dimensional model related to the object includes a three-dimensional model of a build object before the additive building is completed, the display data includes interference information indicating an interference between the build head and at least one of the build object and the placement apparatus, when the re-input of the input apparatus is performed, the model data and the display data are re-generated based on the re-input, the interference information is updated based on the re-input.
This training device includes: a storage unit that stores a trained model that is trained to receive input of a training image and a training feature amount obtained by digitizing a predetermined interpretable feature related to a subject of the training image, and output a result of determination for the training image and the training feature amount; a determination unit that uses the trained model stored in the storage unit to output a result of determination for an explanation target image and a first feature amount obtained by digitizing a predetermined interpretable feature related to a subject of the explanation target image; and an explanation output unit that outputs the degree of contribution of the explanation target image and the degree of contribution of the first feature amount in relation to the result of determination for the explanation target image and the first feature amount by the trained model.
A bright-field reflection microscope according to the present embodiment includes an illumination optical system that includes an aperture pattern turret that can form a plurality of annular illumination lights having annulus radiuses different from each other and an objective lens and illuminates the sample S with the illumination light; a detection optical system that gathers a first reflected light from the sample S and a second reflected light from an interface of surroundings of the sample S at the capturing device via the objective lens; and a control unit, and the capturing device detects the first reflected light and the second reflected light at each of the plurality of positions with different relative positions to the objective lens and the sample S by using each of the plurality of annular illumination lights formed by the control unit controlling the aperture pattern turret.
A substrate stacking apparatus that stacks first and second substrates on each other, by forming a contact region where the first substrate held by a first holding section and the second substrate held by a second holding section contact each other, at one portion of the first and second substrates, and expanding the contact region from the one portion by releasing holding of the first substrate by the first holding section, wherein an amount of deformation occurring in a plurality of directions at least in the first substrate differs when the contact region expands, and the substrate stacking apparatus incudes a restricting section that restricts misalignment between the first and second substrates caused by a difference in the amount of deformation. In the substrate stacking apparatus above, the restricting section may restrict the misalignment such that an amount of the misalignment is less than or equal to a prescribed value.
H01L 23/544 - Marques appliquées sur le dispositif semi-conducteur, p. ex. marques de repérage, schémas de test
B23K 20/00 - Soudage non électrique par percussion ou par une autre forme de pression, avec ou sans chauffage, p. ex. revêtement ou placage
B23K 20/02 - Soudage non électrique par percussion ou par une autre forme de pression, avec ou sans chauffage, p. ex. revêtement ou placage au moyen d'une presse
B23K 37/04 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe pour maintenir ou mettre en position les pièces
B65H 31/34 - Dispositifs pour aligner des articles empilés
H01L 21/67 - 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
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
H01L 21/687 - 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 en utilisant des moyens mécaniques, p. ex. mandrins, pièces de serrage, pinces
H01L 23/00 - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
An imaging element includes a first substrate provided with a photoelectric conversion portion that photoelectrically converts light and generates charge, and a readout circuit that outputs a signal based on the charge generated by the photoelectric conversion portion, a second substrate laminated on the first substrate and provided with a processing portion that processes the signal output from the readout circuit, and a connection portion provided with a bent portion bending in a portion other than the vicinity of the first substrate and the second substrate, and electrically connecting the readout circuit to the processing portion.
Provided is a control unit for controlling a mobile robot device comprising a mobile body and an arm unit provided on the mobile body. The control unit carries out control such that the mobile body moves in accordance with a reaction force generated by a driving force of the arm unit.
A camera accessory that is attachable to and detachable from a camera body, includes: a correction optical system that is movable in a direction intersecting an optical axis thereof, and a first communication unit that transmits to the camera body a first information regarding a position of the correction optical system and a second information regarding a vibration of the camera accessory.
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
H04N 23/661 - Transmission des signaux de commande de la caméra par le biais de réseaux, p. ex. la commande via Internet
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
Surface changes are estimated using multiple speckle interferograms acquired using beams incident at different angles. Beam irradiation conditions can be changed to increase signal to noise ratio with averaging, such as weighted averaging. Irradiation conditions can be varied with a tilt plate, a wedge, or by changing beam wavelengths.
G01B 11/16 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la déformation dans un solide, p. ex. indicateur optique de déformation
87.
OPTICAL SYSTEM, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE OPTICAL SYSTEM
An optical system (ZL(1)) comprises a plurality of lens groups including a first focusing lens group (G2) and a second focusing lens group (G4) that are disposed side by side on an optical axis, and the second focusing lens group (G4) is disposed at a position closer to an image surface than the first focusing lens group (G2). The first focusing lens group (G2) has positive refractive power, and moves toward an object along the optical axis from focusing on an infinite-distance object to focusing on a short-distance object. The second focusing lens group (G4) moves toward the image surface along the optical axis from focusing on the infinite-distance object to focusing on the short-distance object. The optical system (ZL(1)) satisfies the following conditional expression. −020<βF1/βF2<0.50 where βF1 is the lateral magnification of the first focusing lens group at the time of focusing on the infinite-distance object, and βF2 is the lateral magnification of the second focusing lens group at the time of focusing on the infinite-distance object.
G02B 15/22 - 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 lentilles mobiles spécialement adaptées pour la mise au point rapprochée
88.
METHOD AND DEVICE FOR MANUFACTURING STACKED SUBSTRATE
A manufacturing method is provided, which includes processing at least one of a plurality of substrates; stacking the plurality of substrates to manufacture a stacked substrate; and correcting, in the processing, a part of an amount of positional misalignment that is generated among a plurality of substrates in the stacking and correcting, in the stacking, at least a part of the remainder of the amount of positional misalignment.
H01L 23/00 - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
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
A sheet member 1 comprises: a top surface 111 including a first region 130 and a second region 140; a reverse surface 122; and a through hole 15 formed between the top surface and the reverse surface. The first region 130 is formed as at least a portion of a riblet structure RB and is the top surface of a protruding structure 13 protruding from the second region, and an opening 151 of the through hole 15 formed in the second region 140.
An attachment optical system (AL) for a microscope is detachably mounted between an objective lens (OL) that receives light from an object and converts the light into parallel light, and an imaging lens that forms an image with the light from the objective lens (OL). The attachment optical system has a first optical element (EL1) having negative refractive power and a second optical element (EL2) having positive refractive power.
NATIONAL UNIVERSITY CORPORATION KANAZAWA UNIVERSITY (Japon)
Inventeur(s)
Miyasaka Shou
Miki Yuichiro
Izumi Keita
Okuda Satoru
Abrégé
A cell quality evaluation device comprising: a reception unit that receives a cell image; a contour extraction unit that extracts the contour of a cell included in the cell image received by the reception unit; a force information derivation unit that derives force information for the cell on the basis of the contour of the cell extracted by the contour extraction unit; a shape information derivation unit that derives shape information for the cell on the basis of the contour of the cell extracted by the contour extraction unit; and a quality evaluation unit that evaluates the quality of the cell on the basis of the shape information for the cell derived by the shape information derivation unit and the force information for the cell derived by the force information derivation unit.
A lens barrel includes a lens holding frame that holds a lens, a drive source, a lead screw that has a first thread groove formed thereon and is rotationally driven by the drive source, a ring-shaped member that has a groove on an inner periphery thereof, the groove being in contact with the first thread groove, a movement member that is connected to the lens holding frame, rotatably holds the ring-shaped member, and moves in an axial direction of the lead screw as the lead screw rotates, and a biasing portion that biases the ring-shaped member toward the lead screw in a direction orthogonal to the axial direction of the lead screw.
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
In a first aspect of the present invention, there is provided a substrate correction device which includes: an acquisition unit which acquires first information based on positional information of a plurality of alignment marks on a substrate, the alignment marks being measured externally; a stage which holds the substrate; a correction unit which corrects a misalignment between the substrate held by the stage, and another substrate to be bonded to the substrate; and a control unit which controls the correction unit based on the first information.
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 21/18 - Fabrication ou traitement des dispositifs à semi-conducteurs ou de leurs parties constitutives les dispositifs ayant des barrières de potentiel, p. ex. une jonction PN, une région d'appauvrissement ou une région de concentration de porteurs de charges les dispositifs ayant des corps semi-conducteurs comprenant des éléments du groupe IV du tableau périodique, ou des composés AIIIBV, avec ou sans impuretés, p. ex. des matériaux de dopage
H01L 21/67 - 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
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
H01L 21/687 - 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 en utilisant des moyens mécaniques, p. ex. mandrins, pièces de serrage, pinces
H01L 21/78 - Fabrication ou traitement de dispositifs consistant en une pluralité de composants à l'état solide ou de circuits intégrés formés dans ou sur un substrat commun avec une division ultérieure du substrat en plusieurs dispositifs individuels
H01L 23/544 - Marques appliquées sur le dispositif semi-conducteur, p. ex. marques de repérage, schémas de test
94.
ZOOM OPTICAL SYSTEM, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE ZOOM OPTICAL SYSTEM
A zoom optical system (ZL) comprises a first negative lens group (G2) having a negative refractive power; and a second negative lens group (G4) disposed closer to an image than the first negative lens group (G2), wherein a distance between the first negative lens group (G2) and the second negative lens group (G4) changes during zooming, at least part of the first negative lens group (G2) is movable so as to have a displacement component in a direction perpendicular to an optical axis, at least part of the second negative lens group (G4) is movable along the optical axis during focusing, and the following conditional expression,
A zoom optical system (ZL) comprises a first negative lens group (G2) having a negative refractive power; and a second negative lens group (G4) disposed closer to an image than the first negative lens group (G2), wherein a distance between the first negative lens group (G2) and the second negative lens group (G4) changes during zooming, at least part of the first negative lens group (G2) is movable so as to have a displacement component in a direction perpendicular to an optical axis, at least part of the second negative lens group (G4) is movable along the optical axis during focusing, and the following conditional expression,
0.50
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 13/18 - 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 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
95.
FILM FORMING APPARATUS INCLUDING A SPRAYER PORT AND EXHAUST PORT ON A SUPPLY PIPE
A film forming apparatus, a substrate processing apparatus, and a device manufacturing method are provided, which improve the film thickness uniformity of a thin film that is formed on a substrate by spraying a thin film material. The film forming apparatus which forms a thin film on a substrate is provided with a nozzle that sprays a thin film material and an exhaust unit that discharges a gas. An exhaust port of the exhaust unit is arranged on a side that is opposite to the direction in which the gravity acts with respect to the substrate. The substrate processing apparatus performs a predetermined process on the substrate using the film forming apparatus. The device manufacturing method manufactures a device using the film forming apparatus.
H10K 71/00 - Fabrication ou traitement spécialement adaptés aux dispositifs organiques couverts par la présente sous-classe
B05B 7/08 - Pistolets pulvérisateursAppareillages pour l'évacuation avec des orifices de sortie séparés, p. ex. pour former des jets parallèles, pour former des jets croisés
B05B 13/02 - Moyens pour supporter l'ouvrageDisposition ou assemblage des têtes de pulvérisationAdaptation ou disposition des moyens pour entraîner des pièces
B05B 13/04 - Moyens pour supporter l'ouvrageDisposition ou assemblage des têtes de pulvérisationAdaptation ou disposition des moyens pour entraîner des pièces les têtes de pulvérisation étant déplacées au cours de l'opération
B05B 16/60 - Aménagements de ventilation spécialement adaptés à cet effet
B05B 17/06 - Appareils de pulvérisation ou d'atomisation de liquides ou d'autres matériaux fluides, non couverts par les autres groupes de la présente sous-classe opérant suivant des procédés particuliers utilisant des vibrations ultrasonores
B05D 1/02 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces réalisés par pulvérisation
B05D 3/06 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides par exposition à des rayonnements
B05D 3/10 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides par d'autres moyens chimiques
C23C 24/08 - Revêtement à partir de poudres inorganiques en utilisant la chaleur ou une pression et la chaleur
G03F 7/16 - Procédés de couchageAppareillages à cet effet
H10K 71/60 - Formation de régions ou de couches conductrices, p. ex. d’électrodes
A film-like sheet member 1 having a riblet structure RB formed on a surface 130 thereof, said sheet member being provided with a first surface 131, a second surface 132, and a third surface 133 positioned between the first surface and the second surface, and being configured in a manner such that: a plurality of first convex structures 191 which extend in a first direction in which the first to third surfaces are arranged and protrude in a second direction which intersects the first direction are formed on the first and second surfaces as a part of the riblet structure so as to be aligned in a third direction, which intersects the first and second directions; and the third surface is concave with respect to the first and second surfaces.
This mold for molding a sheet member comprises a molding surface with which a material of the sheet member comes into contact. A plurality of recessed structural bodies extending in a first direction are formed on the molding surface so as to be aligned along a second direction intersecting the first direction. At least one of a corner section of a first recessed structural body from among the plurality of recessed structural bodies and a boundary section of the first structural body and a second recessed structural body from among the plurality of recessed structural bodies that is adjacent thereto in the second direction includes a curved surface. If the curvature radius of the curved surface is denoted as R, the pitch of the plurality of recessed structural bodies is denoted as P, and the depth of the plurality of recessed structural bodies from the molding surface is denoted as H, the mold satisfies a first condition of "1 µm < R < 7 µm", and satisfies at least one of a second condition of "5 µm < P < 200 µm" and a third condition of "2.5µm < H < 100 µm".
A sample observation device (1) according to the present invention comprises: an illumination optical system (11) that irradiates a sample with illumination light through an objective lens (OBL); a reflection member (14) that is disposed opposite the objective lens (OBL) and reflects light; an image-formation optical system (IL) that forms an image of light received by the objective lens (OBL); an image capturing element (15) that captures the image formed by the image-formation optical system (IL); and an image processing unit (P) that performs image processing for enhancing the contrast of the image captured by the image capturing element (15).
An image-formation lens (IL) is for a microscope and forms an image of light from an objective lens. The image-formation lens comprises, in order from the object side, a first lens group (G1) that has a positive refractive power, and a second lens group (G2) that is disposed on the image side of the first lens group and that has a negative refractive power. The second lens group includes a meniscus-shaped lens component that has a concave surface on the object side, and satisfies the following conditional formula. 0.20≤BF/D≤ 0.25, where BF represents the back focus of the image-formation lens (IL), and D represents the distance along the optical axis between the image surface and the lens surface located farthest on the object side in the image-formation lens (IL).
The present invention provides a method for manufacturing a GaN light emitting element having adjustable directional characteristics. The method comprises: a step in which an n-type GaN layer (12), an MQW layer (14), and a p-type GaN layer (16) are epitaxially grown in sequence on a sapphire substrate (10) so as to form an epitaxial structure; a step in which a p-type electrode, a metal reflective film, a metal substrate, and a support substrate are formed on the p-type GaN layer (16); a step in which the epitaxial structure is inverted vertically; a step in which the sapphire substrate (10) is separated so as to expose the n-type GaN layer (12) in the surface; a step in which the n-type GaN layer (12) exposed in the surface is etched so as to adjust a resonator length between the surface of the metal reflective film and the surface of the n-type GaN layer (12); and a step in which an n-electrode (24) is formed.
H01L 33/32 - Matériaux de la région électroluminescente contenant uniquement des éléments du groupe III et du groupe V de la classification périodique contenant de l'azote
