Shingyoji
Masahito Shingyoji, Wako-Shi JP
Patent application number | Description | Published |
---|---|---|
20100295722 | APPARATUS AND METHOD FOR DETERMINING AXIS DEVIATION OF RADAR - A radar, mounted on a vehicle, emits electromagnetic waves to a side area of a vehicle and receives reflected electromagnetic waves to detect a distance and a bearing of a physical object. A speed of the vehicle is detected. When the vehicle speed is greater than a predetermined value, it is determined whether multiple reflection occurs based on at least distances detected by the radar. If it is determined that the multiple reflection occurs, an axis deviation of the radar is determined based on a difference between the detected bearing of the multiple reflection waves and a reference bearing. | 11-25-2010 |
Masahito Shingyoji, Sakado-Shi JP
Patent application number | Description | Published |
---|---|---|
20090243822 | VEHICLE BLIND SPOT DETECTION AND INDICATOR SYSTEM - A warning system for conveying alerts and information relating to a vehicle blind spot and objects detected therein, is disclosed. The system conveys an assortment of information through a single light emitting indicator. Also disclosed are various methods of indicating the advisability of lane changes, and modes of configuring the indicator and an associated sensing system and controller. | 10-01-2009 |
Ryuji Shingyoji, Ome-Shi JP
Patent application number | Description | Published |
---|---|---|
20100019968 | GPS CLOCKING DEVICE AND TIME DETECTION METHOD - According to one embodiment, a GPS clocking device comprises a computing module, a storage module, a reading module, and a correction module. The computing module receives a GPS signal transmitted from a GPS satellite, and computes a receiving position of the GPS signal in the standard coordinate system of the GPS based on the GPS signal. The storage module stores position information which indicates areas different from each other in the employed standard time, and is represented by the standard coordinate system, and information on the time difference between the standard time of each area and standard time of the GPS. The reading module reads time-difference information corresponding to an area to which the receiving position computed by the computing module corresponds from the storage module. The correction module corrects the current time indicated by the time information included in the GPS signal by using the time-difference information. | 01-28-2010 |
Ryuji Shingyoji, Tokyo JP
Patent application number | Description | Published |
---|---|---|
20090140919 | POSITION/TIME DETECTING APPARATUS AND TIMEPIECE INCLUDING THE APPARATUS - The number of GPS satellites from which radio waves are received and the intensities of radio waves received from the GPS satellites are acquired. In a first state in which radio waves of a first signal intensity are received from four GPS satellites in a first predetermined time, orbit/time information are acquired from the respective GPS satellites. The time information indicates a radio-wave emission GMT clock time at the satellite when the radio waves were emitted from the satellite. In a second state in which radio waves of a second signal intensity lower than the first intensity are received from one or more GPS satellites within a second time longer than the first predetermined time, the time information is acquired from the respective GPS satellites. In the first state, a current time and a current position of the GPS timepiece is calculated based on the time/orbit information. In the second state, a current time is calculated based on the time information. | 06-04-2009 |
20140163871 | GPS RECEIVING APPARATUS, A METHOD OF CONTROLLING GPS RECEIVING UNIT, AND A CONTROLLING PROGRAM - GPS receiving apparatus is provided, which comprises GPS receiving unit, which detects a position, a course data storing unit, which stores course data representing a course, along which plural transit positions are set, a motion sensor, which detects motion of a user, a moving-distance obtaining unit, which obtains a moving distance of the user based on the detected user's motion, a proximity judging unit, which judges based on the obtained moving distance, whether the user has come close to a next transit position along the course, GPS start-up controlling unit, which makes GPS receiving unit start up, when the proximity judging unit determines that the user has come close to the next transit position, and GPS stop controlling unit, which brings GPS receiving unit down, when it is determined based on the position detected by GPS receiving unit, that the user has passed through the next transit position. | 06-12-2014 |
20140266879 | GPS RECEIVING APPARATUS AND COMPUTER READABLE-STORAGE MEDIUM - A GPS receiving apparatus and a computer readable storage medium are described. According to one implementation, the GPS receiving apparatus includes a GPS receiving unit, a storage unit, a position measuring unit, a reception control unit, and a movement judging unit. The storage unit stores GPS information. The reception control unit starts reception operation with a first or second mode. In the first mode, the GPS receiving unit uses the stored GPS information. In the second mode, the stored GPS information is not used. The movement judging unit judges whether the apparatus is moved a predetermined distance or more from a previous measured position. When the movement judging unit judges that the apparatus is moved the predetermined distance or more, the reception control unit starts reception operation with the second mode. | 09-18-2014 |