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Ezoe, JP
Shinsuke Ezoe, Kumamoto-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20100003279 | VACCINE FOR IN OVO INOCULATION - A purpose of the present invention is to provide a vaccine for in ovo inoculation effective for prevention of any fowl viral diseases. A fowl vaccine for in ovo inoculation with high efficacy in view of safety as well wherein, by holding such live viruses on a virus-adsorbing agent through adsorption that have been difficult for practical usage as a vaccine for in ovo inoculation, viral growth in embryonated chicken eggs after in ovo inoculation is retarded to thereby reduce pathogenicity of the viruses to embryo to avoid reduction in hatching rate and to alleviate severity in clinical symptoms after hatching. A virus-adsorbing agent to be used in the vaccine includes an aluminum compound such as aluminum hydroxide gel, potassium alum and the like. | 01-07-2010 |
Shiro Ezoe, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20090200781 | Brake apparatus for vehicle - A brake apparatus ( | 08-13-2009 |
| 20110172883 | STEERING CONTROL SYSTEM FOR VEHICLE - A steering control section has a first steering angle correction amount calculating section, a second steering angle correction amount calculating section, and a motor rotational angle calculating section. The first correction amount calculating section calculates a first correction amount based on a vehicle speed and an actual steering wheel angle. The second correction amount calculating section calculates a second correction amount through multiplying a control gain corresponding to the vehicle speed with a value calculated by low-pass filtering a differential value of steering wheel angle. The motor rotational angle calculating section calculates a motor rotational angle corresponding to the value adding the first and second steering angle correction amount, and outputs it to a motor driving section so as to drive an electric motor for correcting the steering angle. Thereby, an unstable vehicle behavior due to a resonance of a yaw motion caused in the steering operation can be suppressed. | 07-14-2011 |
Tomonori Ezoe, Kawasaki-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110304989 | SUBSTRATE UNIT AND ELECTRONIC DEVICE - According to one embodiment, a substrate unit includes an electronic circuit substrate which includes a first width dimension portion, and a second width dimension portion continuous with the front direction side of the first width dimension portion. A first concave portion is formed on the first direction side of the first width dimension portion and a second concave portion is formed on the second direction side of the first width dimension portion in the electronic circuit substrate. The substrate unit includes a heat sink which includes a first side frame portion fixed to the first width dimension portion from the first concave portion, a second side frame portion fixed to the first width dimension portion from the second concave portion, and a sink main body portion continuous from the first side frame portion to the second side frame portion. | 12-15-2011 |
Toshihide Ezoe, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20100221845 | BIOSENSOR - One object of the present invention is to provide a biosensor and a production method therefor, by which hydrogel that enables immobilization of a physiologically active substance can be conveniently produced using safe raw materials. The present invention provides a biosensor which comprises a substrate having a metal layer on its surface, wherein a hydrophilic polymer having a reactive functional group capable of reacting with a hydroxyl group or an amino group of a physiologically active substance is bound to the metal layer directly or indirectly via an intermediate layer. | 09-02-2010 |
| 20100324281 | BIOSENSOR AND METHOD FOR IMMOBILIZING A PHYSIOLOGICALLY ACTIVE SUBSTANCE - An object of the present invention is to provide a biosensor and a method for immobilizing a physiologically active substance, by which preconcentration effects can be obtained at a pH that is equivalent to or higher than the isoelectric point of the physiologically active substance and the physiologically active substance can be covalently bound to the surface. The present invention provides a biosensor comprising a solid substrate to which a polymer having a primary or secondary amino group is bound, by which a physiologically active substance can be chemically immobilized following preconcentration of the substance at a pH that is equivalent to or higher than the isoelectric point of the substance. | 12-23-2010 |
Toshihiro Ezoe, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20110234832 | Control device, camera system and program - A control device of present invention includes a display control portion that performs control such that a whole image display region, in which a whole image captured by a camera is displayed, and an enlarged image display region, in which a region corresponding to a position specified on the whole image is enlarged and an enlarged image is displayed, are displayed, and a control portion that performs control such that the region corresponding to the position specified on the whole image is changed. The region includes at least one preset region, and the display control portion displays, on the whole image, a section that corresponds to the preset region. | 09-29-2011 |
Toshiki Ezoe, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20080269997 | Automatic Brake Control Device - A stepwise brake control is automatically performed when TTC obtained according to a relative distance and a relative speed between a vehicle and an object is lower than a predetermined value. For example, a brake force or a brake reduction speed is gradually increased over a plurality of stages in time series. Moreover, a brake force or a brake reduction speed change ratio in the section from the rise point of a brake force or a brake reduction speed at each stage to a predetermined brake force or a brake reduction speed is made a predetermined value or a change process is made a change process along a curved shape defined by a predetermined function. Moreover, at the initial stage when gradually increasing the brake force or the brake reduction speed, an auxiliary brake is used. Alternatively, a caution stage having a brake force or a brake reduction speed smaller that the initial stage is provided at the stage preceding the first stage of the plurality of stages, so that the auxiliary brake is used at this caution stage. | 10-30-2008 |
| 20090102277 | Automatic Brake Control Device - A stepwise brake control is automatically performed when TTC obtained according to a relative distance and a relative speed between a vehicle and an object is lower than a predetermined value. For example, a brake pattern is modified according to the weight of a cargo and passengers. Alternatively, a driver selects a brake pattern of different (rapid or slow) speed reduction according to the type or weight of the passengers and cargo. Furthermore, the driver's psychology is acquired according to the alarm distance between vehicles set by the driver and an optimal brake pattern is selected according to this. Alternatively, an operation state of the vehicle by the driver is detected and if the detection result does not satisfy a predetermined condition, the set value of the TTC is increased. For example, the predetermined condition indicates the normal state of the driving by the driver. Alternatively, when the condition indicating the normality of driving by the driver is satisfied, the number of stages is reduced. Furthermore, brake control is adaptively performed according to the time required until collision. | 04-23-2009 |
| 20090150034 | Automatic Brake Control Device - A stepwise brake control is automatically performed when TTC obtained according to a relative distance and a relative speed between a vehicle and an object is lower than a predetermined value. For example, a brake force or a brake reduction speed is gradually increased over a plurality of stages in time series. Moreover, the affect of speed change control to the automatic brake control is removed. Alternatively, automatic brake control is supported by the speed change control. Alternatively, the friction coefficient state is estimated, and the brake force or the brake speed reduction is adjusted according to the estimated result. Alternatively, an auto-cruse function is invalidated at least the final stage. Alternatively, when the brake force or the brake speed reduction generated by a brake operation by a driver is greater than the brake force or the brake speed reduction generated by the brake control means, the brake operation by the driver is handled with a higher priority than the stepwise brake control. | 06-11-2009 |
Yuichiro Ezoe, Hachioji-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110110499 | X-RAY REFLECTING DEVICE - Provided is a technique for X-ray reflection, such as an X-ray reflecting mirror, capable of achieving a high degree of smoothness of a reflecting surface, high focusing (reflecting) performance, stability in a curved surface shape, and a reduction in overall weight. A silicon plate (silicon wafer) is subjected to thermal plastic deformation to form an X-ray reflecting mirror having a reflecting surface with a stable curved surface shape. The silicon wafer can be deformed to any shape by applying a pressure thereto in a hydrogen atmosphere at a high temperature of about 1300° C. The silicon plate may be simultaneously subjected to hydrogen annealing to further reduce roughness of a silicon surface to thereby provide enhanced reflectance. | 05-12-2011 |
Yuichiro Ezoe, Sagamihara-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090262900 | X-RAY FOCUSING DEVICE - Disclosed is an X-ray reflecting device and an X-ray reflecting element constituting the X-ray reflecting device capable of facilitating a reduction in weight and being prepared in a relatively simple manner. The X-ray reflecting element of the present invention comprises a body made of a solid silicon, and a plurality of slits formed in the body in such a manner as to penetrate from a front surface to a back surface of the body. Each of the slits has a wall surface serving as an X-ray reflecting surface. To allow the slits in the respective X-ray reflecting elements to be located in a given positional relationship with each other, the X-ray reflecting device of the present invention comprises a plural number of the X-ray reflecting elements, which are formed into a multilayered structure in such a manner or arranged side-by-side in a horizontal direction in such a manner as to allow the slits in the respective X-ray reflecting elements to be located in a given positional relationship with each other, or stacked on each other in a vertical direction to form a stacked structure in such a manner as to allow the slits in the respective X-ray reflecting elements to be located in a given positional relationship with each other. Further, the X-ray reflecting device may comprise a plural number of the stacked structures arranged side-by-side in a horizontal direction. | 10-22-2009 |