Satonaka, JP
Hisashi Satonaka, Toyota-Shi, Aichi-Ken JP
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20160101813 | PARKING ASSIST DEVICE (AS AMENDED) - When starting automatic pulling-in control, an electronic control unit calculates a temperature increase amount ΔTi of a motor caused by the execution of the automatic pulling-in control and a temperature increase amount ΔTo of the motor caused by the execution of automatic pulling-out control. Based on the current temperature of the motor, the temperature increase amount ΔTi, and the temperature increase amount ΔTo, the electronic control unit obtains a predicted temperature of the motor of a case in which the automatic pulling-out control is executed subsequent to the automatic pulling-in control. When the predicted temperature is lower than an allowable upper limit, starting of the automatic pulling-in control is permitted. When the predicted temperature is higher than or equal to the allowable upper limit, starting of the automatic pulling-in control is prohibited. | 04-14-2016 |
Hisashi Satonaka, Susono-Shi JP
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20100042323 | COLLISION PREDICTION DEVICE - In a collision surface determination computing section | 02-18-2010 |
20130188794 | DEVICE FOR DETECTING SOUNDS OUTSIDE VEHICLE - Provided is a device for detecting sound outside vehicle capable of detecting sounds outside the vehicle with high accuracy in various surrounding environments. | 07-25-2013 |
20140129091 | PARKING ASSIST DEVICE - A parking assist device assists entry or exit of a vehicle with respect to a parking space through an automatic control of a steering device. The parking assist device includes: a calculator that obtains, to perform the automatic control of the steering device, a path for allowing the vehicle to enter or exit the parking space based on the parking space, calculates an amount of temperature rise of the steering device at the execution of the automatic control for allowing the vehicle to move along the obtained path, and calculates a predicted temperature of the steering device at the execution of the automatic control by adding the calculated amount of temperature rise to a current value of the temperature of the steering device; and a controller that inhibits the execution of the automatic control when the predicted temperature is equal to or higher than a determination value. | 05-08-2014 |
20140136096 | APPROACHING VEHICLE DETECTING SYSTEM AND APPROACHING VEHICLE DETECTING METHOD - An approaching vehicle detecting system that detects an approaching vehicle on the basis of sounds collected by a plurality of sound collectors mounted on a host vehicle determines whether a transverse moving direction of a sound source detected by the plurality of sound collectors is a direction approaching the host vehicle, determines whether a vertical position of the sound source detected using the plurality of sound collectors is in the same plane as that of the host vehicle, and detects that sound source as the approaching vehicle when it is determined that the transverse moving direction of the sound source is the direction approaching the host vehicle and the vertical position of the sound source is in the same plane as that of the host vehicle. | 05-15-2014 |
20160101813 | PARKING ASSIST DEVICE (AS AMENDED) - When starting automatic pulling-in control, an electronic control unit calculates a temperature increase amount ΔTi of a motor caused by the execution of the automatic pulling-in control and a temperature increase amount ΔTo of the motor caused by the execution of automatic pulling-out control. Based on the current temperature of the motor, the temperature increase amount ΔTi, and the temperature increase amount ΔTo, the electronic control unit obtains a predicted temperature of the motor of a case in which the automatic pulling-out control is executed subsequent to the automatic pulling-in control. When the predicted temperature is lower than an allowable upper limit, starting of the automatic pulling-in control is permitted. When the predicted temperature is higher than or equal to the allowable upper limit, starting of the automatic pulling-in control is prohibited. | 04-14-2016 |
Hisashi Satonaka, Shizuoka JP
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20090040094 | OBJECT DETECTING APPARATUS - An object detecting apparatus for detecting an object by a plurality of radars, with improved accuracy of identity determination and acquisition of position information in fusion of detection results. The object detecting apparatus is arranged to obtain a moving path of a detected point by a radar and to perform pairing as follows: if a detected point by a radar exists in a region based on the moving path and if a relative velocity thereof is matched with that of the detected point of interest, the detected point is paired as a corresponding detected point. | 02-12-2009 |
20090121899 | PARKING ASSISTANCE DEVICE - To provide a parking assistance device for accurately detecting obstacles in the periphery of a parking zone; for detecting a parking space in which a vehicle can be parked without coming into contact with the obstacles; and for satisfactorily assisting a driving operation. The parking assistance device detects a stationary object present in the periphery of a vehicle, and assists in parking the vehicle. The parking assistance device comprises surface shape detection means ( | 05-14-2009 |
Hisashi Satonaka, Shizuoka-Ken JP
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20080232198 | Object Detection Apparatus and Method - A reflection-point estimation section constituting an object detection apparatus first calculates a rotational correction angle for each estimated reflection point P | 09-25-2008 |
20090123028 | Target Position Setting Device And Parking Assist Device With The Same - A target position setting device includes a distance meter, an imager, first and second calculating portions, a determination portion, and a setting portion. The distance meter measures a distance to an object around a vehicle. The imager takes an image of an environment around the vehicle. The first calculating portion calculates a first candidate of a target position of the vehicle according to a measuring result of the distance meter. The second calculating portion calculates a second candidate of the target position of the vehicle according to an imaging result of the imager. The determination portion determines whether a relationship between the first candidate and the second candidate meets a given condition. The setting portion sets the target position according to the second candidate of the target position when the determination portion determines that the relationship between the first candidate and the second candidate meets the given condition. | 05-14-2009 |
Hisashi Satonaka, Susono-Shi, Shizuoka JP
Patent application number | Description | Published |
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20150307090 | PARKING ASSISTANCE DEVICE - A parking assistance device includes an obstacle detection unit configured to detect an obstacle around a vehicle, a parking point detection unit configured to detect a parking target point where the vehicle can be parked based on the result of the obstacle detection, and a parking assistance control unit configured to guide the vehicle from a parking start point to the parking target point according to a guidance route based on the result of the obstacle detection and the result of the parking target point detection in a case where a traveling of the vehicle is detected during a period of time from a time when the vehicle reaches the parking start point to a time when a shift range is changed, the parking assistance control unit does not execute the guidance of the vehicle. | 10-29-2015 |
Kenya Satonaka, Osaka JP
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20110117034 | ULTRAVIOLET ABSORBER WATER-DISPERSED COMPOSITION - Disclosed is an ultraviolet absorber water-dispersed composition, comprising the following components (A) and (B); | 05-19-2011 |
Takao Satonaka, Toyota-Shi JP
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20090319200 | DEVICE FOR VEHICLE RUNNING TEST - In a running test, wheels | 12-24-2009 |
Tomoya Satonaka, Kanagawa-Ken JP
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20100323505 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In one embodiment, a method is disclosed for manufacturing a semiconductor device. The method can include forming a resist on a subject layer containing silicon. The method can etch the subject layer using the resist as a mask and with a gas containing a halogen element, which is introduced into a processing chamber. After the etching of the subject layer, the method can slim a planner size of the resist with oxygen gas and a gas containing a halogen element, which are introduced into the same processing chamber. | 12-23-2010 |
20110201167 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - According to one embodiment, a method for manufacturing a semiconductor device is disclosed. The method can include forming a stacked body by alternately stacking a plurality of insulating layers and a plurality of conductive layers above a substrate and forming a resist film above the stacked body. The method can include plasma-etching the insulating layers and the conductive layers by using the resist film as a mask. The method can include forming a hardened layer in an upper surface of the resist film by plasma treatment using a gas containing at least one selected from a group consisting of boron, phosphorus, arsenic, antimony, silicon, germanium, aluminum, gallium, and indium. The method can include slimming a plane size of the resist film by plasma treatment using an oxygen-containing gas in a state where the hardened layer is formed in the upper surface of the resist film. | 08-18-2011 |
Tomoya Satonaka, Kawasaki-Shi JP
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20100176368 | METHOD OF MANUFACTURING SEMICONDUCTOR MEMORY DEVICE, AND SEMICONDUCTOR MEMORY DEVICE - A method of manufacturing semiconductor memory device comprises forming a first wiring layer and a memory cell layer above a semiconductor substrate; forming a plurality of first trenches extending in a first direction in the first wiring layer and the memory cell layer, thereby forming first wirings and separating the memory cell layer; burying a first interlayer film in the first trenches to form a stacked body; forming a second wiring layer above the stacked body; forming a plurality of second trenches, extending in a second direction intersecting the first direction and reaching an upper surface of the first interlayer film in depth, in the first stacked body with the second wiring layer formed thereabove, thereby forming second wirings; removing the first interlayer film isotropically; and digging the second trenches down to an upper surface of the first wirings, thereby forming memory cells. | 07-15-2010 |
Tomoya Satonaka, Kanagawa JP
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20090098705 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device according to one embodiment includes: forming a gate electrode by shaping a semiconductor film formed above a semiconductor substrate; forming a protective film on a side face of the gate electrode by plasma discharge of a first gas or a second gas, the first gas containing at least one of HBr, Cl | 04-16-2009 |
20110070727 | Method of Fabricating Semiconductor Device - A method of fabricating a semiconductor device according to one embodiment includes: forming a gate electrode by shaping a semiconductor film formed above a semiconductor substrate; forming a protective film on a side face of the gate electrode by plasma discharge of a first gas or a second gas, the first gas containing at least one of HBr, Cl | 03-24-2011 |