| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 359369000 | With viewed screen | 10 |
| 20090015911 | Motor-operated microscope system and software for controlling motor-operated microscopes - A motor-operated microscope system has a motor-operated microscope section including an illumination optical system, an electric stage, an image forming optical system having an objective lens and an image forming lens, and an image pickup device; a housing; a control device having a screen display and an arithmetic processing section; and software displaying an operating condition setting screen of the motor-operated microscope section on the screen display and controlling an operation of the motor-operated microscope section in accordance with a set condition. The operating condition setting screen has, on one screen, a setting section for an exposure condition with the image pickup means; a setting section for a focusing condition with the objective lenses; an objective interchange setting section; a setting section for wavelength and luminance of illumination light; a setting section for an image pickup range; a display section for a picked-up image; and an operation commanding section for the motor-operated microscope section. | 01-15-2009 |
| 20090116101 | MICROSCOPE ENCLOSURE SYSTEM - A light-tight enclosure system for housing an automated microscope. | 05-07-2009 |
| 20100091362 | Complex type microscopic device - A complex type microscopic device includes a slider unit moving a stage, an optical microscope, a scanning electron microscope with an electron axis intersecting with an optical axis of the optical microscope, an optical measurement/observation unit having a magnification between those of the scanning electron microscope and the optical microscope and co-using an objective lens with the optical microscope, and a control unit controlling the entire device, and a display unit having a display screen. During display of a low-magnification optical microscopic image, the control unit controls the display unit to display, on the image, a representation to designate an area to be observed at a magnification of the optical measurement/observation unit, and to display, on the image, another representation to designate an area to be observed at a magnification of the scanning electron microscope during display of a high-magnification optical microscopic image. | 04-15-2010 |
| 20100118393 | Electronic device for biological microscopy - An electronic device for biological microscopy includes a display unit and a main body adapted to the display unit, wherein an auto-focus microscope, an inspection area, and a computer are housed within the main body. The inspection area includes a first side and a second side opposite to the first side. The microscope includes an object lens, an eye lens, and an extension lens configured between the object lens and the eye lens. The object lens is configured at the first side of the inspection area, and a lighting component is configured at the second side of the inspection area. A thermostat apparatus is configured on the inspection area. A camera electrically connected to the computer is configured on the eye lens and transmits the captured image to the computer for analysis with a pre-installed software. | 05-13-2010 |
| 20110286090 | LINKING OF MICROSCOPES FOR ANALYSIS OF OBJECTS COMPRISING TOOL MARKS - There is provided a method for analyzing at least one object under a first microscope and a second microscope concurrently by linking the two microscopes together. Movement of one microscope will result in movement of the other. This is done by computing a transformation to link a first coordinate system and a second coordinate system and generating guidance data when one of the two microscopes is displaced, the guidance data corresponding to a set of operations to be applied to the other microscope to follow movement of the microscope that is displaced. | 11-24-2011 |
| 20140240823 | METHOD AND APPARATUS FOR PRODUCING A SUPER-MAGNIFIED WIDE-FIELD IMAGE - A wide-field optical microscope and method capable of resolving images down to 0.1 Å with a magnification range in excess of 250 million power includes an objective having a primary and a secondary element. A sample is held so that the area of interest is at a location that is closer to the primary element than the focal length of the primary element. The primary element collects and collimates light reflected from the sample. The secondary element then focuses the collimated light onto a pinhole aperture, which blocks all light rays that were not parallel, thus producing a non-focused reflected pattern. The non-focused reflected pattern passes through a field stop and is then magnified by one or more negative optical elements and additional field stops to produce an enlarged pattern. | 08-28-2014 |
| 20150338625 | MICROSCOPE - A microscope for investigating a microscopic sample is disclosed, the microscope comprising a receiving apparatus that furnishes primary signals which contain at least one information item regarding at least one property of the sample, and the microscope comprising an output apparatus that generates, from the primary signals, secondary signals perceptible by the user. Provision is made that the output apparatus furnishes secondary signals perceptible auditorily and/or perceptible olfactorily and/or perceptible gustatorily and/or perceptible tactilely and/or perceptible by thermoreception; and/or that the microscope comprises a feedback apparatus with which the user can control the receiving apparatus in real time during the sensing of information regarding at least one property of the sample. | 11-26-2015 |
| 20150338632 | MICROSCOPE SYSTEM - The invention provides a microscope system including a correction-gain storage portion that calculates a correction gain for performing shading correction of an image related to optical images of a specimen, obtained by a microscope, and stores specimen information indicating features of the specimen and optical information at the time of obtaining the image in association with the correction gain; a correction-gain selecting portion that selects the correction gain for use when performing the shading correction of the image to be corrected; and a correction portion that performs the shading correction of the image to be corrected, on the basis of the selected correction gain, wherein the correction-gain selecting portion selects, on the basis of the specimen information or a result of the shading correction with the plurality of correction gains, the correction gain to be used in the shading correction of the image to be corrected. | 11-26-2015 |
| 20150346472 | MICROSCOPE SYSTEM WITH DEPTH PREVIEW AND MICROSCOPY METHOD - A microscope system includes a microscope for generating a microscopic image of an observation region to be examined and a display unit for visualizing the microscopic image. The system further includes a registration unit and an evaluation unit. The registration unit is configured to register the three-dimensional structure of an observation object from available data to the position of the observation object in the observation region. The evaluation unit is configured to calculate a depth preview map of the three-dimensional structure of the observation object from available data and to transmit the depth preview map to the display unit for visualizing the three-dimensional structure in relation to the position of the observation object in the observation region. | 12-03-2015 |
| 20160124207 | MICROSCOPE SYSTEM - A microscope system including a microscope main unit that acquires an image of a specimen; a focus-evaluation-value calculating portion that calculates a focus evaluation value in at least one or more evaluation areas defined in a field-of-view range, while moving the focal position with the microscope main unit; and a display portion that displays the focus evaluation value calculated by the focus-evaluation-value calculating portion in chronological order. | 05-05-2016 |
