Patent application number | Description | Published |
20110292217 | METHOD OF AUTOMATICALLY TRACKING AND PHOTOGRAPHING CELESTIAL OBJECTS AND PHOTOGRAPHIC APPARATUS EMPLOYING THIS METHOD - A method of automatically tracking and photographing a celestial object, is provided, which moves relative to a photographic apparatus due to diurnal motion so that the celestial object image formed on an image sensor becomes stationary during a celestial-object auto-tracking photographing operation. The method includes inputting photographing azimuth angle and elevation angle information of the photographic apparatus; calculating preliminary-tracking drive control data based on the photographing azimuth angle and elevation angle information; obtaining first and second preliminary images corresponding to commencement and termination points of the preliminary tracking operation; calculating a deviation amount between a celestial object image in the first preliminary image and a corresponding celestial object image in the second preliminary image; calculating, from the deviation amount, actual-tracking drive control data with the deviation amount cancelled; and performing the celestial-object auto-tracking photographing operation based on the actual-tracking drive control data. | 12-01-2011 |
20110293139 | METHOD OF AUTOMATICALLY TRACKING AND PHOTOGRAPHING CELESTIAL OBJECTS AND PHOTOGRAPHIC APPARATUS EMPLOYING THIS METHOD - A method of automatically tracking and photographing a celestial object, includes inputting latitude information, photographing azimuth angle information and photographing elevation angle information of a photographic apparatus; inputting star map data of a certain range including data on a location of a celestial object from the latitude information, the photographing azimuth angle information and the photographing elevation angle information; calculating a deviation amount between a location of the celestial object that is imaged in a preliminary image obtained by the photographic apparatus and the location of the celestial object which is defined in the input star map data; correcting at least one of the photographing azimuth angle information and the photographing elevation angle information using the deviation amount; and performing a celestial-object auto-tracking photographing operation based on the corrected at least one of the photographing azimuth angle information and the photographing elevation angle information. | 12-01-2011 |
20120233999 | WAVE POWER GENERATOR - A wave power generator that can efficiently perform power generation in response to ocean-wave periods, which are waves of varying period, is provided. A vibration receiving portion that is provided in a float floating at a wave surface and that performs power generation by means of vibrations exerted thereon; a mass body that applies a mass loading on the vibration receiving portion from above; a plurality of elastic members that support the mass body in series; and a plurality of locking mechanisms that restrict/release the motion of the plurality of elastic members are provided. | 09-20-2012 |
20120317825 | DIRECTION DETERMINING METHOD AND APPARATUS USING A TRIAXIAL ELECTRONIC COMPASS - A method of determining a direction of a triaxial electronic compass oriented in a specific direction by using the triaxial electronic compass and an inclination sensor, the method includes obtaining an elevation angle of the specific direction from the inclination sensor to switch a selection of two output values from the three output values to another selection of two output values therefrom; determining a geomagnetic aspect from the two output values; obtaining a rotational angle about an axis extending in the specific direction from the inclination sensor; calculating a deviation angle of the direction of the triaxial electronic compass which is caused by the selection switching, in accordance with the elevation angle, the geomagnetic aspect and the rotational angle; and correcting the direction of the triaxial electronic compass in accordance with the deviation angle. | 12-20-2012 |
20120321132 | METHOD OF AUTOMATICALLY TRACKING AND PHOTOGRAPHING CELESTIAL OBJECTS, AND CELESTIAL-OBJECT AUTO-TRACKING PHOTOGRAPHING APPARATUS - A method of automatically tracking and photographing a celestial object, which moves due to diurnal motion, while moving an imaging area on an imaging surface of an image sensor so that an image of the celestial object becomes stationary, includes calculating theoretical linear movement amounts and a theoretical rotational angle amount of the imaging area per a specified time; obtaining a movable-amount data table which stores data on actual linearly-movable amounts and an actual rotatable amount of the imaging area; and setting an exposure time for completing a celestial-object autotracking photographing operation while moving the imaging area within the range of movement thereof by comparing the theoretical linear movement amounts and the theoretical rotational angle amount with the actual linearly-movable amounts and the actual rotatable amount of the imaging area stored in the movable-amount data table. | 12-20-2012 |
20130033607 | METHOD OF AUTOMATICALLY TRACKING AND PHOTOGRAPHING CELESTIAL OBJECTS, AND CAMERA EMPLOYING THIS METHOD - A method of automatically tracking and photographing celestial objects which captures a still image of a celestial object(s) where each celestial object appears stationary simply by making an exposure with a camera directed toward an arbitrary-selected celestial object and fixed with respect to the ground and without using an equatorial, and also a camera that employs this method. The method includes inputting latitude information at a photographic site, photographing azimuth angle information, photographing elevation angle information, attitude information of a photographic apparatus and focal length information of a photographing optical system; calculating movement amounts of the celestial object image relative to the photographic apparatus, for fixing the celestial object image with respect to the predetermined imaging area of an image pickup device, using all of the input information; and obtaining a photographic image by moving at least one of the predetermined imaging area and the celestial object image. | 02-07-2013 |
20140125816 | METHOD OF AUTOMATICALLY TRACKING AND PHOTOGRAPHING CELESTIAL OBJECTS, AND CELESTIAL-OBJECT AUTO-TRACKING PHOTOGRAPHING APPARATUS - Automatically tracking and photographing celestial objects and a celestial-object auto-tracking photographing apparatus, in which the burden on the CPU can be reduced by eliminating unnecessary arithmetic processes and can clearly photograph an object(s) so as to appear stationary without using an equatorial, and without using an actuator, which must be precisely controlled. The method includes moving relative to a photographic apparatus due to diurnal motion, to photograph a trimming area that has been electronically trimmed from a part of an imaging area of an image sensor, moving while the celestial object is photographed, including obtaining movement information of an image on the imaging area; setting movement data for the trimming area based on the obtained movement information of the image; and carrying out a photographing operation while moving the trimming area based on the movement data of the set trimming area at each trimming area, upon being moved. | 05-08-2014 |
20140132003 | NATURAL-FREQUENCY ADJUSTING MECHANISM FOR WAVE-POWER GENERATOR - Provided is a wave-power generator capable of adjusting a natural period (natural frequency) in response to a changing wave period. The wave-power generator includes a weight that is installed in a floating body via a spring and that linearly reciprocates in response to a fluctuation of a water surface and a generator that generates power by being driven based on the linear reciprocating motion of the weight. An additional-mass body for adding a mass to the mass of the weight is further included. | 05-15-2014 |