Patent application number | Description | Published |
20100165289 | OPTICAL TOMOGRAPHIC IMAGING METHOD AND APPARATUS - An optical tomographic imaging method is provided in which light from a light source is split into a measuring beam and a reference beam, the measuring beam being moved by a scanning optical system and guided to an object to be examined, the reference beam being guided to a reference mirror, and in which a tomogram of the object is generated from a return beam of the measuring beam reflected or scattered by the object and the reference beam reflected by the reference mirror. The method includes acquiring longitudinal sectional information on the object, calculating depth-position information on the object from the longitudinal sectional information, and acquiring a three-dimensional surface image of the object by controlling a reference-path length defined by the reference mirror and a scanning operation of the scanning optical system in accordance with the depth-position information on the object. | 07-01-2010 |
20100165291 | IMAGE ACQUISITION APPARATUS AND IMAGE ACQUISITION METHOD USING OPTICAL COHERENCE TOMOGRAPHY - An image acquisition apparatus that uses optical coherence tomography includes a scanning unit provided within a light path that guides signal light to be incident on an examination object towards the examination object and configured to scan the signal light in a main scanning direction; and a control unit configured to control the scanning unit such that an integration time of an optical interference signal per pixel in at least one predetermined area other than opposite ends, in the main scanning direction, of an image acquisition region scanned by a plurality of main scan lines is increased relative to that of an area other than the predetermined area. | 07-01-2010 |
20100166293 | IMAGE FORMING METHOD AND OPTICAL COHERENCE TOMOGRAPH APPARATUS USING OPTICAL COHERENCE TOMOGRAPHY - An image forming method uses an optical coherence tomography as to an optical axis direction of plural pieces of image information of an object. First image information of an object is obtained at a first focus with respect to an optical axis direction to then object. A focusing position is changed by dynamic focusing from the first focus to a second focus along the optical axis. The second image information of the object is obtained at the second focus. A third image information, tomography image information of the object and including a tomography image of the first focus or the second focus, is obtained by Fourier domain optical coherence tomography. A tomography image or a three-dimensional image of the object is formed in positional relation, in the optical axis direction, between the first image information and the second image information using the third image information. | 07-01-2010 |
20100209925 | HYBRIDIZATION METHOD AND APPARATUS - A target nucleic acid contained in a sample solution is hybridized with a probe nucleic acid capable of binding specifically to the target nucleic acid and immobilized on a substrate. The process includes hybridizing the target nucleic acid with the probe nucleic acid, collecting the sample solution that has undergone the hybridization, amplifying the target nucleic acid contained in the collected sample solution, and hybridizing the amplified nucleic acid with the probe nucleic acid. | 08-19-2010 |
20110116042 | ADAPTIVE OPTICS APPARATUS, ADAPTIVE OPTICS METHOD, AND IMAGING APPARATUS - An adaptive optics apparatus includes an aberration measuring unit that measures an aberration caused by a subject's eye, the aberration being measured on the basis of returning light that returns from the subject's eye; an aberration correcting unit that performs aberration correction in accordance with the aberration measured by the aberration measuring unit; an irradiation unit that irradiates the subject's eye with light corrected by the aberration correcting unit; and an adjusting unit that maintains a correction characteristic of the aberration correcting unit when the subject's eye moves out of a predetermined area. | 05-19-2011 |
20110116043 | IMAGING DEVICE AND IMAGING METHOD - An imaging device includes an illuminating unit configured to illuminate a measurement object with light from a light source; an aberration correcting unit configured to correct aberration of the measurement object occurring in light returning from the measurement object, the returning light being provided by light illuminating the measurement object through an area differing from a center axis of the illuminating unit; and an image obtaining unit configured to obtain an image of the measurement object on the basis of light returning from the measurement object, the returning light being provided by light that is provided after the aberration is corrected by the aberration correcting unit and that illuminates the measurement object through the center axis of the illuminating unit. | 05-19-2011 |
20110116044 | ADAPTIVE OPTICS APPARATUS, ADAPTIVE OPTICS METHOD, AND IMAGING APPARATUS - An adaptive optics apparatus includes an aberration measuring unit that measures an aberration caused by a test object, the aberration being measured on the basis of returning light that returns from the test object; an aberration correcting unit that performs aberration correction in accordance with the aberration measured by the aberration measuring unit; an irradiation unit that irradiates the test object with light corrected by the aberration correcting unit; and an acquiring unit that acquires information based on a transmittance of the test object on the basis of the aberration measured by the aberration measuring unit. | 05-19-2011 |
20110205548 | IMAGE ACQUISITION APPARATUS AND IMAGE ACQUISITION METHOD USING OPTICAL COHERENCE TOMOGRAPHY - An image acquisition apparatus that uses optical coherence tomography includes a scanning unit provided within a light path that guides signal light to be incident on an examination object towards the examination object and configured to scan the signal light in a main scanning direction; and a control unit configured to control the scanning unit such that an integration time of an optical interference signal per pixel in at least one predetermined area other than opposite ends, in the main scanning direction, of an image acquisition region scanned by a plurality of main scan lines is increased relative to that of an area other than the predetermined area. | 08-25-2011 |
20110205550 | OPTICAL TOMOGRAPHIC IMAGING METHOD AND APPARATUS - An optical tomographic imaging method is provided in which light from a light source is split into a measuring beam and a reference beam, the measuring beam being moved by a scanning optical system and guided to an object to be examined, the reference beam being guided to a reference mirror, and in which a tomogram of the object is generated from a return beam of the measuring beam reflected or scattered by the object and the reference beam reflected by the reference mirror. The method includes acquiring longitudinal sectional information on the object, calculating depth-position information on the object from the longitudinal sectional information, and acquiring a three-dimensional surface image of the object by controlling a reference-path length defined by the reference mirror and a scanning operation of the scanning optical system in accordance with the depth-position information on the object. | 08-25-2011 |
20120019780 | OPHTHALMIC APPARATUS, CONTROL METHOD FOR THE SAME, AND STORAGE MEDIUM - An ophthalmic apparatus comprises: aberration correction unit arranged to correct aberration of at least one of irradiating light directed to an eye to be examined and return light from the eye; light-receiving unit arranged to receive, as return light from the eye, the light whose aberration is corrected by the aberration correction unit and then which irradiates the eye; measurement unit arranged to measure the aberration of the return light; and control unit arranged to control the aberration correction unit based on a measurement result obtained by the measurement unit and a light reception result obtained by the light-receiving unit. | 01-26-2012 |
20120154746 | FUNDUS IMAGING METHOD, FUNDUS IMAGING APPARATUS, AND STORAGE MEDIUM - A fundus imaging apparatus includes an aberration measurement unit adapted to measure an aberration of reflected light obtained by irradiating an object to be examined with measurement light; an aberration correction unit adapted to correct an aberration of light in accordance with the measured aberration; a control unit adapted to repeatedly control processing of the aberration measurement unit and the aberration correction unit; and a changing unit adapted to change a first function of a predetermined order representing the aberration to a second function including an order higher than the predetermined order in accordance with at least one of a measurement result obtained by the aberration measurement unit and a control result obtained by the control unit. The aberration correction unit corrects an aberration expressed by the second function. | 06-21-2012 |
20120218557 | IMAGE FORMING METHOD AND OPTICAL COHERENCE TOMOGRAPH APPARATUS USING OPTICAL COHERENCE TOMOGRAPHY - An image forming method uses an optical coherence tomography as to an optical axis direction of plural pieces of image information of an object. First image information of an object is obtained at a first focus with respect to an optical axis direction to then object. A focusing position is changed by dynamic focusing from the first focus to a second focus along the optical axis. The second image information of the object is obtained at the second focus. A third image information, tomography image information of the object and including a tomography image of the first focus or the second focus, is obtained by Fourier domain optical coherence tomography. A tomography image or a three-dimensional image of the object is formed in positional relation, in the optical axis direction, between the first image information and the second image information using the third image information. | 08-30-2012 |
20120242872 | OPTICAL-IMAGE PICKUP APPARATUS AND METHOD FOR CONTROLLING THE SAME - The present invention relates to an optical-image pickup apparatus including a setting unit configured to set the effective region or the resolution of a correction unit configured to correct the aberration of a subject; an aberration measuring unit configured to measure an aberration generated at the subject; and a control unit configured to control the correction unit on the basis of the measured aberration and the set effective region or the measured aberration and the set resolution. | 09-27-2012 |
20120293771 | COMPENSATION OPTICAL APPARATUS AND IMAGE SENSING APPARATUS - A compensation optical apparatus for obtaining and image of an object without reduction in image quality irrespective of aberration compensation, includes: a division unit for dividing a return beam from a measured object; an aberration measurement unit for measuring an aberration caused by the measured object, with a divided beam from the division unit; an aberration compensation unit for performing aberration compensation based on the aberration measured by the aberration measurement unit; a projection unit for projecting a beam obtained by the aberration compensation in the aberration compensation unit to the measured object; an acquirement unit for acquiring a value exhibiting a state of the measured object based on the return beam from the measured object, which is obtained by the beam projected from the projection unit; and a control unit for retreating the division unit from an optical path based on the value acquired by the acquirement unit. | 11-22-2012 |
20130201448 | ABERRATION CORRECTION METHOD AND ABERRATION CORRECTION APPARATUS - To increase the speed of aberration correction, provided is an aberration correction method, including: a step of selecting a first polarized component of reflected light obtained by irradiating an object to be inspected with measuring light; a step of measuring an aberration of the first polarized component; a step of correcting the aberration of the first polarized component by controlling a first aberration correction unit in accordance with a measured value of the aberration of the first polarized component; and a step of correcting, in a case where a value of the aberration corrected in the first aberration correcting step is smaller than a predetermined value, an aberration of a second polarized component of the reflected light, which is different from the first polarized component, by controlling a second aberration correction unit based on a control for the first aberration correction unit in the case. | 08-08-2013 |
20130215387 | FUNDUS IMAGING APPARATUS AND METHOD - In order to suppress a load on a subject when a fundus is irradiated with multiple beams, a fundus imaging apparatus for forming an image of a first area in the object, includes: a determination unit for determining a second area other than the first area in the object to be inspected; a detection unit for detecting moving of the object to be inspected on the basis of return light from the second area, which is irradiated with second light; a correction unit for correcting the first area on the basis of the detected moving; and a forming unit for forming an image of the object to be inspected on the basis of the return light from the corrected first area, which is irradiated with the first light. | 08-22-2013 |
20130265546 | IMAGING METHOD AND IMAGING APPARATUS - To promptly take a high quality image of an object to be inspected, provided is an imaging method for taking an image of the object to be inspected by irradiating the object to be inspected with measuring light, in which an aberration generated in the object to be inspected is corrected by an aberration correction unit. The method includes the repeatedly performed steps of measuring the aberration generated in the object to be inspected, correcting the aberration by controlling the aberration correction unit in accordance with the measured aberration, and storing, in a storage unit, a control state of the aberration correction unit in association with the measured aberration. The aberration correction unit is controlled in a predetermined control state stored in the storage unit. | 10-10-2013 |