子分类:
| 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 | Device for measuring position of brilliant body | JP23235585 | 1985-10-19 | JPS61286712A | 1986-12-17 | ANDORE SARU; DANIERU MISHIYOO; MAAKU BURUUON |
| 82 | JPS6136603B2 - | JP16618479 | 1979-12-20 | JPS6136603B2 | 1986-08-19 | KUSAMA SHIGERU |
| 83 | Sun position sensor | JP11487084 | 1984-06-05 | JPS60257372A | 1985-12-19 | MIYAZAKI KIKUJI |
| PURPOSE:To enable a correct chasing accuracy by detecting the position of the sun as a declination and hour angle. CONSTITUTION:A two-dimensional position sensor 9 detects the light passing through a center axis 6 of a pinhole and outputs the current proportionate to the light receiving position which is on the sensor surface. Due to a detecting head 1 rotating clockwise, now then, the position of the sun is initially positioned to + side than the hour angle of a center axis 6, so the hour angle output current which is from the sensor 9 is started from + maximum output as well and when the hour angle of the center axis 6 and the hour angle of the sun position are allowed to coincide, the hour angle current goes to zero. Consequently the output value of an encoder 3 of the time of the hour angle output current of the sensor 9 being zero shows the hour angle of the sun position. The output current of the declination of the time of the hour angle output current of the sensor 9 being zero shows then the value proportionate to the declination. By the hour angle output current and declination output current, the hour angle of the sun position and declination are obtd. from a detecting circuit 20 of the sun position and a correct chasing is enabled. | ||||||
| 84 | Image multiple-object separating circuit | JP962383 | 1983-01-24 | JPS59135379A | 1984-08-03 | NAKAJIMA YOSHIMOTO |
| PURPOSE:To enable the realization of a firearms control apparatus or a missile guiding apparatus capable of simultaneously tracking a plurality of targets and the application of the titled circuit to an apparatus for measuring or acquiring a plurality shapes in a real time, by performing that a plurality of targets in an image are mutually separated by numbering in a real time. CONSTITUTION:In a region number control part 12 in which a multi-value video signal is received, the video signal binary-coded by a threshold is stored as the content 8 of a region number control register and multiplied by target detection windows A-E to control region numbering according to the logic of a specific formula. Because it is necessary to apply a new number in a picture element satisfying a certain specific formula, an order is issued to a new region number generating part 13 from the region number control part 12 to generate a new region number which is, in turn, transmitted to and stored in a first register 14 as well as stored in a register line 15 through the first register 14 while sent to a region finish detecting part 19 and a flag for detecting region finish is erected. | ||||||
| 85 | Setting system of initial direction of sensor in picture tracking device | JP222483 | 1983-01-12 | JPS59126973A | 1984-07-21 | KOSAKA MITSUTAKA; KOUNO KATSUMI; MIYAMOTO SHIYOUJI |
| PURPOSE:To perform an accurate processing with a simple constitution, by utilizing tracking data of another wide-range monitoring system to determine the initial azimuth and aiming a sensor at a target. CONSTITUTION:A controller 6 receives information of a moving object in the acquisition area of the wide-range monitoring system by a receiver 7 and transfers this information to a processor 8. Required information is selected and is stored in a storage device 9. The processor 8 outputs the position and the speed of the target and a forecasted position after a time T to a man-machine response device 10. The initial direction of the picture sensor, namely, an azimuth theta and an elevation angle phi and initial sensor moving control speeds theta' and phi' are calculated and are sent to a picture tracking processor 13 together with an interrupt signal. Further, this data is sent to a sensor controller 12 to start the picture tracking. | ||||||
| 86 | 照明配置図作成器 | JP2017554593 | 2016-04-18 | JP2018514065A | 2018-05-31 | ニューランズ エリック ヨハネス ヘンドリクス コーネリスマリア; ワン シチュアン; ザオ チン |
| 内部空間の天井に配置された複数のライトユニットの場所のマップを含む照明配置図を作成するように構成された照明配置図作成器であって、この照明配置図作成器は、モバイルデバイスが内部空間内を移動するのに従って、モバイルデバイスによって、異なる場所から取り込まれた、重複画像から照明配置図を作成するように構成されている、照明配置図作成器である。照明配置図作成器は、少なくとも2つの画像を受信するように構成された入力部であって、少なくとも2つの画像は、少なくとも部分的に重複する区域を含む、入力部と、少なくとも2つの画像を修正するように構成された画像修正器と、修正された少なくとも2つの画像からのデータを結合するように構成された画像データ結合器であって、修正された少なくとも2つの画像からの結合されたデータから照明配置図が作成される、画像データ結合器とを備える。 | ||||||
| 87 | Wireless communication terminal and how to display the relative direction and distance between the wireless communication terminal in response to the acceleration data | JP2010548198 | 2008-09-02 | JP4880782B2 | 2012-02-22 | クリスティアン, トマス ハナー, |
| 88 | Wireless communication terminal and method of displaying the relative direction and distance between the wireless communication terminal in response to the acceleration data | JP2010548198 | 2008-09-02 | JP2011518452A | 2011-06-23 | クリスティアン, トマス ハナー, |
| 無線通信端末間の方向と距離とを表示し、それによって、例えばユーザがお互いに離れる方向へ進み、その後お互いを見つけることができるようにする無線通信端末が開示される。 これらの端末は加速度データを用いて自分の移動を追跡するように構成される。 これらの端末のうちのいくつかはスレーブ端末として動作することができ、これらの端末はスレーブ端末として自分の移動データをマスタ端末へ送信し、マスタ端末は端末間の相対的な方向と距離を上記スレーブ端末の移動データから決定する。 次いで、マスタ端末は相対的な方向と距離データをスレーブ端末へ送信することができ、このスレーブ端末において上記データはスレーブ端末のユーザに表示されることができる。 | ||||||
| 89 | Sensor, system and method for ultraviolet lamp system | JP2008291525 | 2008-10-17 | JP2009107341A | 2009-05-21 | JAMES W SCHMITKONS; SMITH JAMES C; WEYANDT PAUL |
| PROBLEM TO BE SOLVED: To provide a light sensor for an ultraviolet lamp system. SOLUTION: The light sensor for the ultraviolet lamp system of a type having an electrodeless lamp excited by microwave energy comprises a detector constituted to detect light generated by the electrodeless lamp. An elongated channel is constituted to be interposed between the detector and the electrodeless lamp. The elongated channel has a first aperture and a second aperture defined at both ends thereof. The first aperture is constituted to receive light generated by the electrodeless lamp. The second aperture is positioned in proximity to the detector to transmit at least a portion of light received in the first aperture to the detector. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 90 | Photovoltaic module with indicator | JP2595199 | 1999-02-03 | JPH11285166A | 1999-10-15 | KULIK DAVID; CHARLES MARTIN; SCHIFF MORTON |
| PROBLEM TO BE SOLVED: To adjust electric energy for an electronic apparatus by mounting a stand system having a hinge element between a photovoltaic module surface and a supporting surface, and connecting a multiple-voltage controller between a module and a load, thus disposing the module in the optimum direction to an incidence angle. SOLUTION: A stand system having a hinge element between the front surface of a module 50, and a supporting surface is mounted so that the front surface of the module 50 may be directed in the vertical direction to the sunlight from an electromotive light source. The electric output from the module 50 is fed to a multiple-voltage controller 71 involving a voltage regulator through a conductor 70 to supply light source to electronic apparatuses 73, 75. Therefore, the maximum efficiency of power output from a photovoltaic cell 51 is displayed on a display assembly 52, thus it is possible to adjust the angle of the stand system to the front surface of the module 50 for maximum power output of the cell 51, and feed maximum energy from the photovoltaic module to a load. COPYRIGHT: (C)1999,JPO | ||||||
| 91 | JPH052111B2 - | JP9494485 | 1985-05-02 | JPH052111B2 | 1993-01-11 | TANAHASHI TOORU; IMAMURA KAZUO |
| 92 | JPS6366469B2 - | JP9447378 | 1978-08-01 | JPS6366469B2 | 1988-12-20 | MOORISU FUOORUNE |
| 93 | Direction detector | JP9539485 | 1985-05-07 | JPS61253482A | 1986-11-11 | NAKAMURA YOSHITERU; KOMORIYA HITOSHI; ARAKI MAKOTO; SUGIYAMA KENICHI; IIDA YOSHITAKA |
| PURPOSE:To enable the tracking of a moving object, by providing a light- emitting element on the moving object while a light-receiving element is provided on a tracking robot to decide on the direction thereof based on the detection output of the light-receiving element. CONSTITUTION:Light from an infrared-ray emitting diode within a light emission source 2 so arranged on a moving object 1 non-directional is received with a plurality of light receiving elements 5 provided on a tracking robot 3. The element 5 which is a sensor comprising a photodiode is connected to sensor processors separately in a controller 6 and the direction of the light emission source 2 is determined by the sensor processor. Then, based on the decision data thereof, right and left wheels 4 are rotated separately by a necessary value. Thus, as long as the distance between the moving body 1 and the tracking robot 3 is within a fixed range, the tracking of the moving object 1 can be done without being restricted by the position of the moving object 1 and the position of the tracking robot 3. | ||||||
| 94 | Optical angle detector | JP792983 | 1983-01-20 | JPS59133477A | 1984-07-31 | ARAI SATOSHI |
| PURPOSE:To improve the precision of an optical angle detector and reduce in size by forming slanting surfaces which have a precise relative angle on the same chip and arranging photodetection parts on them. CONSTITUTION:The angle between light 14 and a surface S at right angles in a front-rear direction to a photodetection part 16 which has a detection window in the main surface of an epitaxial layer 7 having a V-shaped recessed part 9 formed by an anisotropic etching process is regarded as an angle theta of incidence to perform detection by using photodetection parts 15 and 16. The angle theta of incidence is derived from the ratio Re of the quantity of incident light 14 to the photodetection part 15 and the quantity of incident light 14 to the photodetector 16 and the ratio Re of the quantity of incident light 14 to a photodetection part 17 and the quantity of incident light 14 to the photodetection part 16. | ||||||
| 95 | Indicator for light incident direction | JP16618479 | 1979-12-20 | JPS5689025A | 1981-07-20 | KUSAMA SHIGERU |
| PURPOSE:To obtain an easy-to-handle direction indicator that requires no power source by supporting the 1st and 2nd solar cells rotatable on an axis and by providing the 1st and 2nd coils that generate a turning force with currents supplied from the cells and magnetic fluxes. CONSTITUTION:Supporting frame 1 is supported being rotatably on axis 2 and to this supporting frame, the 1st and 2nd partially-cylindrical solar cells 3 and 4 are so fitted that the photodetection surfaces outside of plane 5 containing the core of axis 2 will be symmetric. A magnet consists of concentric columnar N pole 6 and S pole 7, the N and S poles and axis 2 are concentric and cylindrical gap 8 where magnetic flux passes in the radius direction is formed. Further, the 1st and 2nd coils 9 and 10, positioned in gap 8, are fitted to supporting frame 1. Those 1st and 2nd coils 9 and 10 are connected to the 1st and 2nd cells 3 and 4 to generate turning forces opposite in direction. Thus, the handling is facilitated and the need for power sources is eliminated. | ||||||
| 96 | Optical device for observation | JP9447378 | 1978-08-01 | JPS5434849A | 1979-03-14 | MOORISU FUOORUNE |
| 97 | System for identifying drones | US15048911 | 2016-02-19 | US10061018B1 | 2018-08-28 | Zain Naboulsi |
| A system for identifying a drone is adapted to determine a base threat value for a drone. The system includes a scanning system, configured to obtain data that is stored in a pattern database. A timer that has a data structure for storing a counter initialized to a predetermined value, the timer being operable to iteratively increment the counter if the counter value is less than a timer increment. A microprocessor is programmed with instructions to receive information from the scanning system about the drone. Then, to store the information in a pattern database. After that, to determine a base threat value of the drone based on the information stored in the pattern database. Finally, to communicate the base threat value to a user so that the user can determine whether the drone is a friend or a foe. | ||||||
| 98 | Arrangement for providing visual effects and related method | US15515692 | 2015-10-01 | US10039995B2 | 2018-08-07 | Tatu Tyni; Jani Pulkkinen; Petri Mikkonen |
| An arrangement for providing visual effects including light emitting members attached to a target, an imaging unit for locating the light emitting members, a computing unit for receiving real-time location information data from the imaging unit and controlling a laser projector based on the received location information data, a laser projector projecting a laser beam responsive to control information provided by the computing unit, and a partially reflecting mirror reflecting the projected laser beam with respect to the light emitting members towards and/or in the vicinity of the light emitting members and passing the light from the light emitting members to the imaging unit. Related method is presented. | ||||||
| 99 | Optical angular measurement sensors | US15632767 | 2017-06-26 | US10012547B1 | 2018-07-03 | Thomas W. Stone |
| Systems that enable observing celestial bodies during daylight or in under cloudy conditions. | ||||||
| 100 | SYSTEM FOR MEASURING THE POSITION AND MOVEMENT OF AN OBJECT | US15800664 | 2017-11-01 | US20180135969A1 | 2018-05-17 | Geert VANDENHOUDT; Patrick BLANCKAERT; Hans THIELEMANS |
| The disclosure relates to a system for measuring the position of an object in a measurement volume, including: an optical angular measurement device, disposed with static optics, configured for measurement of the an azimuth and elevation angle of the object in the measurement volume with respect to the optical angular measurement device, a range measurement device, disposed with static component, configured for measurement of the range of the object in the measurement volume. It further relates to a use of the system and a measurement method. | ||||||
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