| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | VELOCITY/DISTANCE DETECTION SYSTEM, VELOCITY/DISTANCE DETECTION APPARATUS, AND VELOCITY/DISTANCE DETECTION METHOD | EP11732958.1 | 2011-01-14 | EP2525238A1 | 2012-11-21 | HASHIZUME, Hiromichi; SUGIMOTO, Masanori; SATO, Tomohiko |
A velocity/distance detection system includes a transmitter and a receiver and detects a distance between the transmitter and the receiver. The transmitter transmits a composite frequency signal. The receiver includes a receiving unit that receives the composite frequency signal transmitted from the transmitter, an operating unit that performs an operation so that a difference in plural power estimate values or amplitude estimate values becomes target precision, a velocity estimating unit that estimates a velocity when the difference becomes the target precision as a velocity of the transmitter or the receiver, and a distance estimating unit that extracts each phase of the plural frequency signals when the difference becomes the target precision, calculates a propagation delay time of the composite frequency signal between the transmitter and the receiver based on each extracted phase, and estimates a distance between the transmitter and the receiver based on the calculated propagation delay time. |
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| 82 | Camera mounting and alignment arrangement | EP00119593.2 | 2000-09-07 | EP1089054B1 | 2011-02-09 | Sogawa, Yoshiyuki, c/o SUBARU Laboratory; Murakami, Keiichi, c/o SUBARU Laboratory; Tozawa, Yoshio, c/o Fuji Jukogyo Kabushiki Kaisha |
| In a test method in which an image photographed by a camera apparatus 1 attached to a body of a vehicle is displayed on a display device 17 and an examiner examines compliance or non-compliance of the shooting direction of the camera apparatus 1 by comparing the position of a reference pattern and the position of a judgment pattern on the displayed photographed image, the photographed image is obtained at first by photographing with the camera apparatus 1 a test chart which is placed at a predefined position ahead of the vehicle with the reference pattern drawn on the test chart. Next, the judgment pattern is set at a specific position on the photographed image. Then, the photographed image on which the judgment pattern has been set is displayed on the display device 17. |
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| 83 | Structure for mounting an onboard sensor | EP10151778.7 | 2000-09-07 | EP2184579A1 | 2010-05-12 | Sogawa, Yoshiyuki; Murakami, Keiichi; Tozawa, Yoshio |
A structure for mounting an onboard sensor, comprising: |
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| 84 | A SYSTEM A METHOD AND AN APPARATUS FOR PERFORMING WIRELESS MEASUREMENTS, POSITIONING AND SURFACE MAPPING BY MEANS OF A PORTABLE COORDINATE SYSTEM | EP05709119 | 2005-02-23 | EP1743137A4 | 2008-06-25 | ASH CHAIM; VOLODINE YURI G; NOVIKOV LENNY M; KOVTUN MICHAEL |
| The present invention is a new multifunctional low-cost solution for performing measurements and positioning in construction sites and automatically extracting a three-dimensional virtual model, plans, elevations and sections drawings based on these measurements. The preferred embodiment of the present invention consists of a field beacon FB3 or a set of field beacons FB1-FB14, spread around the measured area, communicating by omnidirectional signals with at least one central signal collector 100, which communicates with a computer. Dedicated computer software performs the spatial calculations and other applicable functions. The disclosed system is used for laying out axes and columns at the beginning stage of construction while ensuring the exact match of each mark to its planned position, and for quality and exactitude control of constructions or assembling. In addition the system may be used for locating and tracking objects in a predefined area and automatic directing of machinery to target points. | ||||||
| 85 | Camera mounting and alignment arrangement | EP00119593.2 | 2000-09-07 | EP1089054A3 | 2001-10-04 | Sogawa, Yoshiyuki, c/o SUBARU Laboratory; Murakami, Keiichi, c/o SUBARU Laboratory; Tozawa, Yoshio, c/o Fuji Jukogyo Kabushiki Kaisha |
In a test method in which an image photographed by a camera apparatus 1 attached to a body of a vehicle is displayed on a display device 17 and an examiner examines compliance or non-compliance of the shooting direction of the camera apparatus 1 by comparing the position of a reference pattern and the position of a judgment pattern on the displayed photographed image, the photographed image is obtained at first by photographing with the camera apparatus 1 a test chart which is placed at a predefined position ahead of the vehicle with the reference pattern drawn on the test chart. Next, the judgment pattern is set at a specific position on the photographed image. Then, the photographed image on which the judgment pattern has been set is displayed on the display device 17. |
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| 86 | Camera mounting and alignment arrangement | EP00119593.2 | 2000-09-07 | EP1089054A2 | 2001-04-04 | Sogawa, Yoshiyuki, c/o SUBARU Laboratory; Murakami, Keiichi, c/o SUBARU Laboratory; Tozawa, Yoshio, c/o Fuji Jukogyo Kabushiki Kaisha |
In a test method in which an image photographed by a camera apparatus 1 attached to a body of a vehicle is displayed on a display device 17 and an examiner examines compliance or non-compliance of the shooting direction of the camera apparatus 1 by comparing the position of a reference pattern and the position of a judgment pattern on the displayed photographed image, the photographed image is obtained at first by photographing with the camera apparatus 1 a test chart which is placed at a predefined position ahead of the vehicle with the reference pattern drawn on the test chart. Next, the judgment pattern is set at a specific position on the photographed image. Then, the photographed image on which the judgment pattern has been set is displayed on the display device 17. |
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| 87 | Method and system for inspecting a vehicle-mounted camera | EP00120177.1 | 2000-09-22 | EP1087236A2 | 2001-03-28 | Murakami, Keiichi, Fuji Jukogyo Kabushiki Kaisha; Miyazawa, Noriyuki, Fuji Jukogyo Kabushiki Kaisha |
An optical axis direction, a distance measurement accuracy and so on are efficiently performed for quality assurance of a vehicle-mounted camera in cooperation of an image processing unit and a vehicle-mounted navigation control unit. In a vehicle monitoring system for imaging view ahead of the vehicle with the camera (2a, 2b) installed in the vehicle body and for recognizing a running condition with the image processing unit (20), the image processing unit measures an optical axis direction and a distance measurement accuracy to determine whether the camera quality is appropriate or not for quality assurance of the vehicle-mounted camera. The determined result is displayed on a monitor (52) of the vehicle mounted navigation control unit (5) to recommend adjustment of the camera. When failure is determined in the pass/fail determination of the optical axis direction, an attachment member having a shape, the optical axis direction by which is included in the correct range in the reference pattern of the recognized image, is selected from a variety of the attachment members prepared in advance, and replacement of the attachment member with the selected attachment member is recommended. |
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| 88 | LEADING EDGE DETECTION | PCT/US2011041880 | 2011-06-24 | WO2011163621A3 | 2012-03-01 | BUDIANU PETRU CRISTIAN; EKBAL AMAL; JULIAN DAVID JONATHAN |
| A leading edge associated with a received signal is detected to provide, for example, time of arrival information for a ranging algorithm. In some aspects, a method of leading edge detection involves sampling a received signal, generating a drift compensated signal based on the samples, reconstructing the received signal based on the drift compensated signal, and identifying a leading edge associated with the received signal based on the reconstructed signal. | ||||||
| 89 | A SYSTEM AND A METHOD FOR PERFORMING WIRELESS MEASUREMENTS BY MEANS OF A PORTABLE COORDINATE SYSTEM | PCT/IL2005000219 | 2005-02-23 | WO2005081630A3 | 2007-02-08 | ASH CHAIM; VOLODINE YURI G; NOVIKOV LENNY M; KOVTUN MICHAEL |
| The present invention is a new multifunctional low-cost solution for performing measurements and positioning in construction sites and automatically extracting a three-dimensional virtual model, plans, elevations and sections drawings based on these measurements. The preferred embodiment of the present invention consists of a field beacon FB3 or a set of field beacons FB1-FB14, spread around the measured area, communicating by omnidirectional signals with at least one central signal collector 100, which communicates with a computer. Dedicated computer software performs the spatial calculations and other applicable functions. The disclosed system is used for laying out axes and columns at the beginning stage of construction while ensuring the exact match of each mark to its planned position, and for quality and exactitude control of constructions or assembling. In addition the system may be used for locating and tracking objects in a predefined area and automatic directing of machinery to target points. | ||||||
| 90 | 사용자 단말 장치, 결제용 단말기, 이들을 이용한 결제 방법 및 시스템 | KR1020160065805 | 2016-05-27 | KR1020160140501A | 2016-12-07 | 백성욱; 성영아; 양필승; 장세이 |
| 사용자단말장치가개시된다. 사용자단말장치는, 적어도하나의타 사용자단말장치및 결제용단말기와통신을수행하는통신부, 결제를위한 UI 화면을디스플레이하는디스플레이부, UI 화면상에결제수단및 결제금액에대한정보를입력하기위한사용자입력부및, 적어도하나의타 사용자단말장치로부터, 적어도하나의타 사용자단말장치에서입력된결제수단및 결제금액에대한정보를수신하고, 사용자입력부를통해입력된정보및 수신된정보에기초하여, 사용자단말장치및 적어도하나의타 사용자단말장치각각에대응되는결제요청을결제용단말기로송신하도록통신부를제어하는프로세서를포함한다. | ||||||
| 91 | 이상음원 위치 추적 시스템 및 방법 | KR1020140073730 | 2014-06-17 | KR1020150144636A | 2015-12-28 | 임학수; 조성호 |
| 본발명은이상음원위치추적시스템및 방법에관한것으로, 하나이상의음원신호가포함된음향신호를획득하는다수개의음원수신부; 획득된음향신호에포함된음원신호가이상음원여부를판단하는이상음원판단부; 각각의상기음원수신부가획득한음향신호에포함된음원신호가이상음원인경우에음원신호의음원세기값을추출하는음원세기추출부; 및상기음원세기추출부의추출결과에따라상기이상음원의발생위치를추정하는위치추정부를포함한다. 이와같은본 발명에따르면, 비정상적인음원이나소음등에포함된이상음원을정확하게분석할수 있게되어, 이상음원에대한즉각적인대처가가능한이점이있다. | ||||||
| 92 | 주차장의 충돌 방지 장치 및 시스템 | KR1020150024353 | 2015-02-17 | KR101561668B1 | 2015-10-30 | 민사현 |
| 본발명은주차장의충돌방지장치및 시스템에관한것으로서, 더욱상세하게는, 차량의일부가안전거리내에서감지되는경우그 거리를표시하거나경고를출력함으로써자동차의운전자가자동차를주차장벽에충돌하는것을방지하는장치및 시스템에관한것이다. 본발명에의하면, 주차장진출입을위한곡선경사로와주차장의기둥등의벽면에주차장의충돌방지장치및 시스템을설치하여운전미숙이나부주의등으로차량이곡선경사로벽면및 기둥모서리에부딪쳐차량이손상되는것을방지하고, 운전자로하여금차량의진행방향및 벽까지의거리를올바로인지하도록하여사고방지및 올바른주차를도와줄수 있다. | ||||||
| 93 | 차량의 물체감지 센서 모듈 | KR1020100114528 | 2010-11-17 | KR1020120053316A | 2012-05-25 | 장영준 |
| PURPOSE: An object sensing sensor module is provided to shorten assembly time and assembling man-hour of product by supporting the sensor module with front and rear parts and elastic member. CONSTITUTION: An object sensing sensor module(100) comprises an ultrasonic sensor(110) and a mounting member(120). The ultrasonic sensor is inserted into a front bumper or a combining hole formed in a rear bumper. The mounting member is combined with outer circumference of the ultrasonic sensor. The mounting member is composed of a rear ring unit(123) and a front ring part(121). The rear ring part fixes the ultrasonic sensor on inner side of the front bumper or the rear bumper. The front ring part has same material as the rear ring part. The front ring part is connected to an elastic member(125) which is extended from the rear ring part. | ||||||
| 94 | 모터제어유닛 자동 개폐 기능을 구비한 모터제어반 | KR1020100101298 | 2010-10-18 | KR101027705B1 | 2011-04-12 | 곽기영 |
| PURPOSE: An MCC(Motor Control Center) including a function for automatically switching a motor control center unit is provided to improve the safety of a worker by outputting or inputting the motor control center unit by rotating a screw bolt. CONSTITUTION: A motor control panel is installed inside a motor control unit(20). An input and output control unit(40) is installed on the front of a motor control center. A driving unit(D) generates a drive force according to the control command of the input and output control unit. A driven unit(F) receives the drive force of the driving unit and outputs the motor control unit from a motor control unit mounting part or inputs the motor control unit to the motor control unit mounting part. | ||||||
| 95 | 위성 항법 시스템에서 신호 획득 장치 및 방법 | KR1020090075901 | 2009-08-17 | KR1020110018216A | 2011-02-23 | 주인원; 김재현; 최승현; 신천식; 이상욱; 김재훈 |
| PURPOSE: Signal acquiring apparatus and method in a global positioning system are provided to obtain satellite signals without an additional hardware by detecting the identifier of a satellite and calculating a code phase and Doppler. CONSTITUTION: A signal acquiring apparatus in a global positioning system includes a first calculating part(420) and a second calculating part(430). The first calculating part detects the identifier of a satellite from a signal from the satellite. A code phase and Doppler are calculated, and a time required for calculation is measured. A second calculating part corrects the code phase and the Doppler using the carrier frequency and the code frequency of the satellite and the calculated values of the first calculating part. | ||||||
| 96 | 터빈 로터 간극 측정장치 | KR1020070103857 | 2007-10-16 | KR1020090038529A | 2009-04-21 | 김만희 |
| A device for measuring a turbine robot gap is provided to obtain an exact gap value as the gap between a stationary blade and a rotor is measured by comparing a measured value and with a standard value. A device for measuring a turbine robot gap comprises: a displacement sensor(30) detecting an interval between a stationary blade and a rotor with an analog signal; an analog to digital converter(40) converting a detection result of the displacement sensor into a digital-to-analog signal; a controller(10) comparing data inputted through the analog to digital converter with a standard value stored in a memory; and a display unit(50) indicating the distance between the stationary blade and the rotor. | ||||||
| 97 | 유도 표면파를 사용한 지오로케이션 | KR20187010101 | 2016-08-18 | KR20180052704A | 2018-05-18 | CORUM JAMES F; CORUM KENNETH L; LILLY JAMES D; D'AURELIO MICHAEL J |
| 유도표면파들을사용하여위치를결정하기위한다양한접근법들이개시되어있다. 유도표면파가수신된다. 유도표면파의필드강도가식별된다. 유도표면파의위상이식별된다. 상기유도표면파를발진시킨유도표면도파로프로브로부터의거리가계산된다. 상기유도표면도파로프로브로부터의상기거리에적어도부분적으로기초하여위치가결정된다. | ||||||
| 98 | 적응형 깊이 감지 시스템 | KR20177031277 | 2016-04-27 | KR20180012746A | 2018-02-06 | |
| 본개시물은적응형깊이감지(depth sensing: DS) 시스템에관한것이다. DS 디바이스는 DS 장비모듈및 제어모듈을포함할수 있다. 제어모듈은단거리감지, 중거리감지또는장거리감지에대한 DS 장비모듈의동작모드를구성할수 있다. 제어모듈은동작모드를결정하기위해 DS 장비모듈로부터적어도깊이데이터를수신할수 있다. 제어모듈은또한 DS 디바이스및/또는 DS 디바이스가연결된호스트디바이스에관한조건데이터를수신하고, 조건데이터에기초하여구성을결정할수 있으며, 깊이데이터와함께조건데이터를이용하여 DS 장비모듈을구성할수 있다. DS 장비모듈을구성하는것은, 예를들어, DS 장비모듈내의컴포넌트들을인에이블하는것, 컴포넌트들에대한초점을구성하는것, 컴포넌트들에대한이미지방향을구성하는것 및/또는컴포넌트들에대한 DS 방법을선택하는것을포함할수 있다. | ||||||
| 99 | 투광 헤드 및 광학센서 | KR1020140140578 | 2014-10-17 | KR1020150083768A | 2015-07-20 | 이마무라신야 |
| 본발명은투광헤드로부터외륜광이출사되는것을억제하는것을과제로한다. 본발명에따른상기투광헤드는, 광을출력하는투광부와, 상기투광부의출력방향에서상기투광부의전방에배치되어, 복수의반사면및 단차부를가지는광학부재를구비하고, 상기복수의반사면은, 상기출력방향을따라동축상으로배열되고, 상기각 반사면은, 상기투광부로부터멀어질수록개구경이증대하는환상형상을이루고, 앞에위치하는반사면의후단은, 뒤에위치하는반사면의전단보다도개구경이작고, 상기단차부를개재하여상기뒤에위치하는반사면의전단에결합된다. | ||||||
| 100 | 조명 위치 측정 장치 및 방법 | KR1020130043597 | 2013-04-19 | KR1020140125952A | 2014-10-30 | 김대호; 김유진; 김현석; 김현종; 강태규; 임상규; 장일순; 김명순; 정진두; 성정식; 강현철; 강현주; 박성희; 김인수; 최종우 |
| 본 발명은 건물 내에서 가시광 무선 통신이 가능한 조명의 위치를 측정하고, 조명의 위치 정보를 제공하기 위한 장치 및 방법에 관한 것이다. 이를 위해, 본 발명의 조명 위치 측정 장치는 사용자가 위치한 건물 및 층에 대한 위치 정보를 입력받는 입력부; 사용자의 위치와 건물 내의 벽면들간의 방향별 거리들을 측정하고, 방향별 거리들을 근거로 사용자의 위치 좌표를 계산하는 위치 좌표 계산부; 위치 정보에 대응하는 평면도에 위치 좌표를 적용시켜서, 사용자의 최초 위치를 결정하는 위치 결정부; 및 사용자의 움직임에 따라 조명 식별자를 수신하고, 조명 식별자에 대응하는 조명의 위치 정보를 저장하는 위치 정보 조합부를 포함하는 것을 특징으로 한다.
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