| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于消除距离测量的虚假指示的距离测量系统 | CN93109899.8 | 1993-07-02 | CN1089036A | 1994-07-06 | 戴尔·R·高瑟尔 |
| 一种距离测量系统包括用于探测由超声波传感器产生的振铃信号(错误回波)的装置,超声波传感器用于产生探测信号和接收该探测信号的回波以确定外部物体距测量系统的距离。确定出现的和持续的振铃信号并启动距离测量系统的显示器。通过在存储器中储存大量的测量距离值并选择最可能表示所需测定的物体和测量系统之间距离的测量结果而消除错误的距离指示。 | ||||||
| 2 | 一种通过灯光展示鱼情的智能探鱼设备及方法 | CN201610855949.9 | 2016-09-27 | CN106353762A | 2017-01-25 | 肖勇 |
| 本发明公开了一种通过灯光展示鱼情的智能探鱼设备及方法,包括智能声呐探头和智能远程终端,所述智能声呐探头包括声呐发射模块、声呐接收模块、探头无线传输模块、灯光报警模块和控制模块,所述智能远程终端包括终端无线传输模块和数据处理单元,所述声呐发射模块、声呐接收模块、探头无线传输模块、灯光报警模块共同连接到控制模块,终端无线传输模块连接数据处理单元,所述控制模块还连接有灯光报警模块;本发明所述通过灯光展示鱼情的智能探鱼设备具有观察直观、方便,操作便捷的优点。 | ||||||
| 3 | 目标跟踪的视觉指示 | CN201380029650.2 | 2013-04-05 | CN104349874A | 2015-02-11 | 斯蒂芬·赫西 |
| 通过与人对齐(即对准人)的视觉信号表明诸如机器人的装置对接近的人(或其他运动对象)的觉察。例如,照明系统可采用封闭环或部分环的形式,在该封闭环或部分环的周围可选择性地激活发光元件。 | ||||||
| 4 | 驾驶支援装置 | CN201280072092.3 | 2012-03-29 | CN104221067A | 2014-12-17 | 川真田进也; 尾崎修; 上抚琢也 |
| 为了提供能够抑制在需要驾驶支援的交叉路口以外的场面下执行驾驶支援的驾驶支援装置,在驾驶支援装置(2)中具备:传声器(32),搭载于本车辆(1),检测本车辆(1)周围的声音信息;支援执行部(80),执行驾驶支援;及支援决定部(76),基于由传声器(32)检测出的声音信息中所含的、从本车辆(1)发出的声音的回声来决定可否执行驾驶支援及执行驾驶支援时的支援等级。由此,支援执行部(80)能够根据从行驶道路(91)观察的交叉道路(92)的视觉确认性来进行恰当的驾驶支援,从而能够抑制在需要驾驶支援的交叉路口(93)以外的场面下执行驾驶支援。 | ||||||
| 5 | 具有组合反光镜显示装置的机动车辆距离测量系统 | CN93109900.5 | 1993-07-02 | CN1086016A | 1994-04-27 | 戴尔·R·高瑟尔; 托马斯·R·威尼 |
| 车辆距离测量系统包括一个距离测量装置,一个超声波传感器,一个装在反光镜内通过窗口可观察的数字显示器。距离测量装置包括比较器用于将被测物距离和与预定临界距离进行比较并提供相应的显示启动信号。数字显示器响应显示启动信号,有选择地关闭数字显示器和显示被测物距离。显示器包括诸如二极管的照明装置,以响应显示启动信号而照亮数字显示器。 | ||||||
| 6 | Assisting device for voyage | JP12650479 | 1979-10-02 | JPS5550112A | 1980-04-11 | FURANKU JIYOONZU |
| 7 | A TRACKING, SAFETY AND NAVIGATION SYSTEM FOR FIREFIGHTERS | EP01922506.9 | 2001-03-21 | EP1277091A1 | 2003-01-22 | HAASE, Wayne, C; HAASE, Zachary, S.; CHIZINSKI, Paul, M.; MACGREGOR, Malcolm, S.; BRUCK, Donald, B. |
| An ultrasonic signal (106) is used to link a beacon unit (101) to a tracker unit (100) to provide a tracking and navigation system for firefighters to use in a smoke filled environment at the scene of a fire. The beacon unit transmits an omnidirectional ultrasonic signal. The tracker unit, using a directional ultrasonic receiver provides a display or other indication of the signal strength of the received signal to allow the direction to the beacon unit to be determined. The ultrasonic signal provided by the beacon unit may be pulse modulated to inlcude digitally encoded data that may be used to identify particular individuals, objects, materials, dangers, or exits. In addition, the tracker unit may be provided with a transmitter and the beacon unit provided with a receiver such that audio communication may be established therebetween. | ||||||
| 8 | A loading dock range finding system | EP90121968.3 | 1990-11-16 | EP0429990A3 | 1992-09-02 | Bolz, John; Brunswick, Craig; Ivey, John; Klochan, David; Koch, William; Pastotnik, Ken; Wojciuch, Fred |
A loading dock range finding system is provided for permitting a driver of a vehicle backing towards a loading dock to determine a distance of the back end of the vehicle from a reference point at the loading dock. An ultrasonic transmitting and receiving transducer is positioned adjacent the loading dock for sending signals towards a back end of the truck, which are reflected and received by the transducer. A display unit is connected to the transducer and is mounted at a location adjacent the loading dock so that a visual display on the display unit can be easily viewed by a driver of the vehicle looking through his rear view mirror. A distance between the back end of the vehicle and the reference point is displayed in reversed image fashion on the visual display so that when the driver views the image through his rear view mirror, it is not a reversed image. |
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| 9 | 運転支援装置 | JP2014507182 | 2012-03-29 | JP6024741B2 | 2016-11-16 | 川真田 進也; 尾崎 修; 上撫 琢也 |
| 10 | Object detection device for vehicle using ultrasonic sensor | JP2010083450 | 2010-03-31 | JP2011215002A | 2011-10-27 | TSUZUKI TAKEO |
| PROBLEM TO BE SOLVED: To obtain less erroneous detection while making determination of existence of adhesion of snow simple in an object detection device for a vehicle using an ultrasonic sensor.SOLUTION: The object detection device for the vehicle 1 includes the ultrasonic sensor 10, a control circuit 28 (first and second determining means, and an informing means), buzzers 31, 32, and a display 33 (informing means) or the like. The ultrasonic sensor 10 receives a reflection wave on the basis of a discharge wave transmitted by itself respectively, and does not receive a discharge wave transmitted from other sensors other than itself. The control circuit 28 determines the existence of an object in the neighborhood of an own vehicle on the basis of transmission and reception of the ultrasonic sensor 10 when satisfying a first operating condition, and meanwhile determines that snow adheres at a circumferential position of the ultrasonic sensor 10 when the length of a reverberation wave received with the ultrasonic sensor 10 is a threshold (set value) or above when satisfying a second operation condition different from the first operation condition. | ||||||
| 11 | Hand-held LCD game machines for fish finder tool | JP45929797 | 1997-05-16 | JP3043506U | 1997-11-28 | 茂 齋藤 |
| (57)【要約】 【課題】 既に、広く普及している手持ち型液晶ゲーム機に手持ち型液晶ゲーム機本来の機能に加えて魚群探知機としての機能を持たせることができる手持ち型液晶ゲーム機用魚群探知具を提供する。 【解決手段】 超音波送受信器50を内蔵した浮き付センサ部44と、ゲームプログラムデータを記憶させた記憶素子を内蔵したカセット7の代わりに手持ち型液晶ゲーム機1に装着できるカセット部42と本体部43とで構成される装着部とからなり、カセット部42に前記超音波送受信器50が受信したエコー信号に基づきLCD
パネル2に水面下の地形と魚群を表示させるためのプログラムを記憶させたプログラムROM47か内蔵されている手持ち型液晶ゲーム機用魚群探知具41。 |
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| 12 | JPS5839315B2 - | JP3751878 | 1978-03-31 | JPS5839315B2 | 1983-08-29 | KATAYAMA SUSUMU; INOE HIRONOBU |
| 13 | VISUAL INDICATION OF TARGET TRACKING | EP13724922.3 | 2013-04-05 | EP2834049B1 | 2016-03-30 | HERSEY, Stephen |
| 14 | A TRACKING, SAFETY AND NAVIGATION SYSTEM FOR FIREFIGHTERS | EP01922506 | 2001-03-21 | EP1277091A4 | 2009-09-09 | HAASE WAYNE C; HAASE ZACHARY S; CHIZINSKI PAUL M; MACGREGOR MALCOLM S; BRUCK DONALD B |
| An ultrasonic signal (106) is used to link a beacon unit (101) to a tracker unit (100) to provide a tracking and navigation system for firefighters to use in a smoke filled environment at the scene of a fire. The beacon unit transmits an omnidirectional ultrasonic signal. The tracker unit, using a directional ultrasonic receiver provides a display or other indication of the signal strength of the received signal to allow the direction to the beacon unit to be determined. The ultrasonic signal provided by the beacon unit may be pulse modulated to inlcude digitally encoded data that may be used to identify particular individuals, objects, materials, dangers, or exits. In addition, the tracker unit may be provided with a transmitter and the beacon unit provided with a receiver such that audio communication may be established therebetween. | ||||||
| 15 | Unterwasser-Sichtgerät | EP89110192.5 | 1989-06-06 | EP0345718A3 | 1990-11-07 | Kamkalow, Fritz; Seelmann, Christian; Edler, Norfried |
Ein Unterwasser-Sichtgerät für Taucher besteht aus einem zweiteiligen Gehäuse mit einer Wandlereinheit (2) und einer Bedien- und Anzeigeeinheit (1). Beide Gehäuseteile können auch getrennt voneinander eingesetzt werden und sind dann über ein Kabel miteinander zu verbinden. Die Wandlereinheit (1) umfaßt Sende- und Empfangswandler (4,5) zur Abtastung eines vor dem Sichtgerät liegenden Winkelbereichs, während die Bedien- und Anzeigeeinheit (1) einen Elektrolumineszenzbildschirm (9) aufweist, auf welchem das Gesichtsfeld in Profildarstellung wiedergegeben ist und der darüber hinaus verschiedene Anzeigen für Richtung, Entfernung, Tauchtiefe, Batteriezustand, Frequenz und dergl. enthält. |
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| 16 | Unterwasser-Sichtgerät | EP89110192.5 | 1989-06-06 | EP0345718A2 | 1989-12-13 | Kamkalow, Fritz; Seelmann, Christian; Edler, Norfried |
Ein Unterwasser-Sichtgerät für Taucher besteht aus einem zweiteiligen Gehäuse mit einer Wandlereinheit (2) und einer Bedien- und Anzeigeeinheit (1). Beide Gehäuseteile können auch getrennt voneinander eingesetzt werden und sind dann über ein Kabel miteinander zu verbinden. Die Wandlereinheit (1) umfaßt Sende- und Empfangswandler (4,5) zur Abtastung eines vor dem Sichtgerät liegenden Winkelbereichs, während die Bedien- und Anzeigeeinheit (1) einen Elektrolumineszenzbildschirm (9) aufweist, auf welchem das Gesichtsfeld in Profildarstellung wiedergegeben ist und der darüber hinaus verschiedene Anzeigen für Richtung, Entfernung, Tauchtiefe, Batteriezustand, Frequenz und dergl. enthält. |
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| 17 | 運転支援装置 | JP2014507182 | 2012-03-29 | JPWO2013145216A1 | 2015-08-03 | 川真田 進也; 進也 川真田; 修 尾崎; 琢也 上撫 |
| 運転支援が必要な交差点以外の場面で、運転支援が実行されることを抑制することができる運転支援装置を提供するために、運転支援装置2に、自車両1に搭載され、自車両1の周囲の音情報を検出するマイク32と、運転支援を実行する支援実行部80と、マイク32で検出した音情報に含まれる、自車両1から発せられた音の反響音に基づいて運転支援の実行の可否、及び運転支援の実行時における支援レベルを決定する支援決定部76と、を備える。これにより、支援実行部80は、走行道路91からの交差道路92の視認性に応じて、過不足なく運転支援を行うことができ、運転支援が必要な交差点93以外の場面で、運転支援が実行されることを抑制することができる。 | ||||||
| 18 | The vehicle object detection apparatus using an ultrasonic sensor | JP2010083450 | 2010-03-31 | JP5322037B2 | 2013-10-23 | 威夫 都築 |
| The vehicle-use object detection apparatus includes a plurality of ultrasonic sensors mounted on a vehicle, each of the ultrasonic sensors being configured to receive a reflected version of an ultrasonic wave transmitted by itself and not to receive reflected versions of ultrasonic waves transmitted by the other ultrasonic sensors, a first determination means to make a determination whether an object is present around the vehicle based on the received reflected versions of the transmitted ultrasonic waves when a first detection condition is satisfied, and a second determination means to make a determination, for each of the ultrasonic sensors, whether there is adhesion of snow around the ultrasonic sensor based on an echo wave received by the ultrasonic sensor when a second detection condition different from the first detection condition is satisfied. | ||||||
| 19 | Light emitting element display for sonar or radar | JP12238683 | 1983-07-07 | JPS6015574A | 1985-01-26 | SHIMIZU HAJIME |
| PURPOSE: To attain to enhance accuracy by the wt. reduction and the miniaturization of a light emitting element display for sonar or radar, by supplying receiving information to a displaying light emitting element line by optically coupling a fixed part corresponding to the axis of a rotary part. CONSTITUTION: A display part provided with LED lines 1, 2 and a base plate 3 or a slit plate equipped with an angle detecting slit or a synchronism detecting slit is integrally revolved by a rotary cylinder 6 and a motor 19 and receiving informations such as an azimuth or a distance are displayed through LED lines 1, 2. A fixed part corresponding to the axis of this rotary part is optically coupled by light receiving elements and light emitting elements B and A, D and C while transmission synchronous information and reflected wave receiving information are respectively supplied through the elements B, D to control of the lighting of the LED lines 1, 2 corresponding to a distance. Therefore, a mechanical contact part becomes unnecessary in a signal system and the constitution of a light emitting element display for sonar or radar is reduced in the wt. thereof and miniaturized to enable the achievement of accuracy enhancement. COPYRIGHT: (C)1985,JPO&Japio | ||||||
| 20 | Electronic rotary echo sounder | JP12965978 | 1978-10-20 | JPS5557165A | 1980-04-26 | MURAHASHI HIROTAKA |
| PURPOSE:To ensure the display for the water, wind and school of fish by combining the electronic circuit producing the time difference and plural units of simple light emitting devices, thus realizing a long life time of the device as well as increasing the luminance. CONSTITUTION:Pulse A generated from reference time generator 1 is supplied to time difference generator circuit 2. Circuit 2 has the output terminals of five circuits, and thus the output signals shift to C from B and then to D from C with supply of every unit of pulse A. After reaching final F, the output signal returns to B to repeat this action. The time from B to F can be varied easily by changing the cycle of generator 1. Then the waveform shaping is given to measuring ultrasonic wave G through amplifier 5 to obtain voltage H. This voltage H plus the output signals from C to F supplied from circuit 2 are made to pass AND circuit 3, and as a result the output of circuit 3 emerges only to the circuit of the period during which the ultrasonic wave exists. Thus the light emitting device 4 connected to circuit 3 is actuated. | ||||||
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