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Ishida, Shizuoka
Akira Ishida, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20100156896 | METHOD OF CREATING THREE-DIMENSIONAL MODEL AND OBJECT RECOGNIZING DEVICE - This invention aims to ensure accuracy of a three-dimensional model to be registered. With information a of three-dimensional information a, b, c restored by measuring an actual model of a work, which is a target of three-dimensional recognition, from different directions as a reference, other three-dimensional information b, c are coordinate transformed so as to be aligned with the reference three-dimensional information, and three-dimensional information d including all of three-dimensional information b′, c′ after the transformation and the reference three-dimensional information a is created. The three-dimensional information d is temporarily registered as the three-dimensional model. A difference amount among the integrated three-dimensional information a, b′, c′ is calculated, and an evaluation index based on the difference value is displayed with an image view of a contour pattern represented by the three-dimensional model. A user checks the accuracy of the three-dimensional model on this display screen from a degree of variation of the contour line representing the same site and a value of the evaluation index, and determines whether or not to actually register the three-dimensional model d. | 06-24-2010 |
Hitoshi Ishida, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110010028 | BOAT PROPELLING SYSTEM - A boat propelling system capable of determining an abnormality regarding steering of a propelling system main body includes an outboard engine main body, a steering section arranged to steer the outboard engine main body, a steering angle sensor arranged to detect a steering angle of the steering section, a pivot sensor arranged to detect an actual pivot angle of the outboard engine main body, and an ECU. The ECU calculates a target pivot angle change amount based on a target pivot angle derived from the steering angle and a baseline target pivot angle, calculates an actual pivot angle change amount based on the actual pivot angle and a baseline actual pivot angle, and obtains a gap amount between the target pivot angle change amount and the actual pivot angle change amount. Then, the ECU determines an abnormality regarding steering of the outboard engine main body based on a result of comparison between the gap amount and the first threshold value. Setting of the baseline target pivot angle and the baseline actual pivot angle is based on a result of a comparison between the gap amount and a second threshold value. | 01-13-2011 |
Keiko Ishida, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110117780 | WATERPROOF CONNECTOR - There is provided a waterproof connector including a plurality of terminals ( | 05-19-2011 |
| 20110119913 | METHOD FOR PRODUCING TERMINALS - The goal is to enhance the productivity by reducing the cost of a die. A method for selectively forming a female terminal ( | 05-26-2011 |
Masahiko Ishida, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110201139 | METHOD OF MANAGING SUBSTRATE - The electrostatic chuck is made up of: a chuck main body having electrodes; a chuck plate of a dielectric material and having a rib portion with which a peripheral edge portion of the substrate is capable of coming into surface contact, and a plurality of supporting portions which are vertically disposed at a predetermined distance from one another in an inner space enclosed by the rib portion; and a gas introduction means for introducing a predetermined gas into the inner space. When the substrate is held by the electrostatic chuck which is arranged to attract the substrate by the chuck plate and to form a gas atmosphere by supplying a predetermined gas into the inner space, a current value is monitored by causing an AC current to flow in a capacitance of the chuck plate through an AC power supply, a gas flow amount is monitored by causing the gas to flow through the gas introduction means, and a substrate state is managed based on a variation in at least one of the current value and the gas flow amount to prevent damages to the substrate. | 08-18-2011 |
| 20110256810 | METHOD OF MANUFACTURING CHUCK PLATE FOR USE IN ELECTROSTATIC CHUCK - There is provided a method of manufacturing a chuck plate for an electrostatic chuck of good productivity which is free from poor releasing of a wafer which is a to-be-processed substrate, from the initial time of putting the electrostatic chuck to a new use. The method of manufacturing a chuck plate for electrostatic chuck ES which is made up of a dielectric body to cover a surface of the chuck main body having electrodes, includes the steps of: obtaining a sintered body by compression-forming raw material powder (or raw meal) into a predetermined shape and then sintering the same; forming, by polishing, such a surface of the sintered body as will come into contact with a substrate to be attracted, into a predetermined surface roughness and flatness; and performing blast processing for selectively removing only ready-to-be-separated particles that come into existence on the surface as a result of the polishing. | 10-20-2011 |
Tomohiro Ishida, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110236791 | ANODE CATALYST LAYER FOR POLYMER ELECTROLYTE FUEL CELL - An object of the present invention is to optimize an anode catalyst layer such that high output performance can be achieved even under low-humidity conditions. In addition, another object of the present invention is to provide a polymer electrolyte fuel cell having such an anode catalyst layer. | 09-29-2011 |