Takao Goto
Takao Goto, Shinagawa-Ku JP
Patent application number | Description | Published |
---|---|---|
20080212957 | Camera with built-in projector and projector device - A camera with a built-in projector includes: a camera unit equipped with photographing components including an optical system; and a projector module equipped with a projecting optical system, with an optical axis extending along a longer side of the projector module running substantially parallel to an optical axis of the camera unit extending along a longer side of the camera unit. | 09-04-2008 |
20100086816 | Electronic Device and Electronic Device Operating Control Method - Described is an electronic device and an electronic device control method. If voltage generated by the fuel cell, acquired from the voltage detection part, is greater than a specified voltage reference value (VRV), a display part displays the fuel cell as normal. However, if the generated voltage is smaller than the VRV, the residual fuel amount (RFA) detection part detects the RFA. If the RFA is smaller than a specified fuel reference value (FRV), the display part displays that the fuel is insufficient. However, if the RFA is greater than the FRV, the oxidizing agent concentration (OAC) detection part detects the OAC of the fuel cell. If the OAC is smaller than a specified OAC reference value, the display part displays that the oxidizing agent is insufficient. However, if the OAC is greater than the OAC reference value, the display part displays that the fuel cell is abnormal. | 04-08-2010 |
20100316370 | CAMERA WITH BUILT-IN PROJECTOR AND PROJECTOR DEVICE - A camera with a built-in projector includes: a camera unit equipped with photographing components including an optical system; and a projector module equipped with a projecting optical system, with an optical axis extending along a longer side of the projector module running substantially parallel to an optical axis of the camera unit extending along a longer side of the camera unit. | 12-16-2010 |
20120251093 | CAMERA WITH BUILT-IN PROJECTOR AND PROJECTOR DEVICE - A camera with a built-in projector includes: a camera unit equipped with photographing components including an optical system; and a projector module equipped with a projecting optical system, with an optical axis extending along a longer side of the projector module running substantially parallel to an optical axis of the camera unit extending along a longer side of the camera unit. | 10-04-2012 |
Takao Goto, Tokyo JP
Patent application number | Description | Published |
---|---|---|
20080212863 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND MAGNETIC RESONANCE IMAGING APPARATUS - An image processing method of performing an imaging process on an original image having a connection figure including a first figure and a second figure connected to the first figure to generate an extraction image of the first figure extracted, includes the steps of: obtaining a first image in which the connection figure in the original image is selectively extracted by performing a segmentation process on the original image; obtaining a second image including a third figure separated from the second figure and a fourth figure separated from the first figure in the connection figure by sequentially performing an erosion process and a dilation process in a morphologic operation so as to separate the first and second figures from each other, in the connection figure included in the first image; obtaining a third image by performing a segmentation process so as to selectively extract the third figure in the second image; obtaining a fourth image by performing a process of obtaining the difference between the first image and the third image; obtaining a fifth image by determining whether the size of a figure included in the fourth image obtained in the fourth image processing step is equal to or larger than a reference value, and when the size is equal to or larger than the reference value, eliminating the figure from the fourth image and, when the size is less than the reference value, processing the fourth image so as to leave the figure in the fourth image; and obtaining the extraction image by adding the third image and the fifth image. | 09-04-2008 |
20090270125 | MOBILE PHONE EQUIPPED WITH A CAMERA - The present invention relates to a portable terminal in which the orientation of the displayed subject is the same as the actual orientation of the subject. The reference attitude when taking a picture is shown in FIG. | 10-29-2009 |
20100172566 | MEDIAN PLANE DETERMINATION APPARATUS AND MAGNETIC RESONANCE IMAGING SYSTEM - A median plane determination apparatus determines a median plane based on volume data of a brain of a subject. The median plane is determined based on voxel values of voxels which intersect with a reference surface cutting across the brain. | 07-08-2010 |
20100290688 | SLICE DETERMINATION APPARATUS, MAGNETIC RESONANCE IMAGING SYSTEM, AND SLICE SETTING METHOD - A slice determination apparatus includes a feature point setting unit for setting a plurality of feature points to a subject, a reference axis determination unit for determining a reference axis, based on the feature points, and a slice setting unit for setting a plurality of slices, based on the reference axis. | 11-18-2010 |
20120212711 | ILLUMINATING OPTICAL SYSTEM AND PROJECTOR DEVICE - An illuminating optical system includes: a substantially rectangular-shaped light source that includes a light emitting surface with a split pattern formed thereat by a splitting line, the splitting line extending along a predetermined direction and splitting the light emitting surface into a plurality of separate areas; an illumination-target member that includes a rectangular radiation-target area; and an optical member in that condenses light departing the light emitting surface and radiates the condensed light toward the radiation-target area, wherein: an extent of uneven illumination attributable to an image of the split pattern at the light emitting surface of the light source, formed at the illumination-target member, is reduced. | 08-23-2012 |
Takao Goto, Shijonawate-Shi JP
Patent application number | Description | Published |
---|---|---|
20100139785 | COMPACT VALVE - A compact valve using a shape memory alloy comprises: a moving valve body that contacts an inner periphery of a guide pipe having an built-in orifice, is freely movable and has a sealing portion to seal the orifice; a biasing coil provided between the orifice and the moving valve body; and a wire formed of a shape memory alloy and held between a stationary electrode of the guide pipe and a moving electrode of the moving valve body. The orifice is sealed by moving the moving valve body due to transformation of the shape memory alloy by heating the wire. The moving valve body is enabled to be elastically deformable by providing a coil spring to reduce a stress, so that an overload to the moving valve body due to contraction of the wire is absorbed by elastic deformation of the moving valve body. Thereby, the overload to the shape memory alloy is reduced to prevent deterioration of repeatability of memorized shape, to increase durability and reliability of the valve. | 06-10-2010 |
Takao Goto, Hirakata-Shi JP
Patent application number | Description | Published |
---|---|---|
20100010397 | PASSIVE EXERCISE ASSISTING DEVICE - A housing is adapted to be placed on a floor and is provided on its top face with a left foot support | 01-14-2010 |
20100022370 | EXERCISE ASSISTING DEVICE | 01-28-2010 |
20100075813 | EXERCISE ASSISTING DEVICE | 03-25-2010 |
Takao Goto, Mie JP
Patent application number | Description | Published |
---|---|---|
20100000608 | FLOW RATE CONTROL USING MASS FLOW RATE CONTROL DEVICE - It is possible to respecify the product (mass flow controller) corresponding to multiple types of actual process gases and multiple flow rate ranges, even after the mass flow controller has been shipped. With the mass flow rate control device in an initial state, calibration gas characteristic data is derived by measuring actual flow rate versus a flow rate setting signal using a calibration gas, and this calibration gas characteristic data is then saved to control unit. Meanwhile, actual gas characteristic data is derived by measuring actual flow rate versus a flow rate setting signal for each of a plurality of types of actual gas, and this actual gas characteristic data is then saved to a storage medium. Subsequently, prior to operating the mass flow rate control device, the actual gas characteristic data for an actual process gas is read from the storage medium via a computer, and the calibration gas characteristic data that was saved to the control unit is read out. The calibration gas characteristic data is then converted to controlled flow rate correction data based on the actual gas characteristic data, and the controlled flow rate correction data is saved to the control unit. Actual gas flow rate is corrected based on this controlled flow rate correction data. | 01-07-2010 |
Takao Goto, Mie-Gun JP
Patent application number | Description | Published |
---|---|---|
20120247584 | FLOW CONTROL DEVICE - In a flow control device | 10-04-2012 |
Takao Goto, Shiga JP
Patent application number | Description | Published |
---|---|---|
20120296242 | PASSIVE EXERCISE EQUIPMENT - A drive device has a motor for generating a drive force, a power transmission unit for transmitting the force generated by the motor to first and second foot support tables, thereby moving the foot support tables, and a control unit for controlling the motor. The power transmission unit is connected to an output shaft of the motor. The power transmission unit has a left foot reciprocation mechanism for reciprocating a left foot support table, a right foot reciprocation mechanism for reciprocating a right foot support table, and a power divergence unit for diverging the force of the motor into the reciprocation mechanisms and transmitting the force thereto. The power transmission unit alternately transmits the rotation force of the motor to the left and right foot support tables, thereby causing the left and right foot support tables to alternately move in a forward and backward direction in increments of one reciprocation. | 11-22-2012 |
Takao Goto, Osaka JP
Patent application number | Description | Published |
---|---|---|
20130085039 | MOTION TRAININGS DEVICE AND MOTION TRAININGS SYSTEM - A left foot plate and a right foot plate, which are put each both feet of a trainee, are set up, and a load sensor to detect a load is set up at multiple positions on each of the left foot plate and the right foot plate. An extraction unit takes out a load information corresponding to a posture or a motion of the trainee from the load detected by the load sensor. A measurement unit calculates an evaluated value to evaluate a difference of a goal load information set up in a goal setting unit and the load information taken out by the extraction unit. The evaluated value is checked by the trainee at showing in a display unit through an exhibition unit. | 04-04-2013 |
Takao Goto, Toyko JP
Patent application number | Description | Published |
---|---|---|
20140002079 | DETECTING APPARATUS, MEDICAL APPARATUS AND METHOD FOR DETECTING A POSITION OF A PREDETERMINED PART OF A SUBJECT | 01-02-2014 |
Takao Goto, Kuwana-Shi JP
Patent application number | Description | Published |
---|---|---|
20130153040 | FLOW RATE CONTROL USING MASS FLOW RATE CONTROL DEVICE - A process and device enabling accurate mass flow control is described. A mass flow controller can be re-specified corresponding to multiple types of actual process gases and multiple flow rate ranges, even after the mass flow controller has been shipped. Calibration gas data is derived using actual flow rate versus a flow rate setting signal to generate calibration gas data. Actual gas data is derived by measuring actual flow rate versus a flow rate setting signal for each actual gas and saving. Subsequently, prior to operating the mass flow rate control device, the characteristic data for an actual and the calibration gas characteristic data is recalled. The calibration gas characteristic data is then converted to controlled flow rate correction data based on the actual gas characteristic data that is saved to the control unit and the actual gas flow rate is corrected based on this controlled flow rate correction data. | 06-20-2013 |