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 |
|---|---|---|---|---|---|---|
| 61 | Motor vehicle rearview camera system and hitch cover with display | US10336474 | 2003-01-03 | US20030133014A1 | 2003-07-17 | David Mendoza |
| A rearview camera and display system for a motor vehicle which comprises a low light level, wide angle camera mounted securely in a hitch cover which receives power from the hitch power plug, and supplies said power and video signal with blind spot information to a display monitor located in the vicinity of the rear view mirror area near the driver. The secure and locked placement of camera and hitch cover in a substantially flush configuration with the rear of the motor vehicle greatly less the opportunity for damage to the invention due to rear moving accidents and vandalism. | ||||||
| 62 | 車載用ステレオカメラ装置、およびその補正方法 | JP2016002920 | 2016-06-17 | JPWO2017042999A1 | 2018-06-28 | 八釣 成功; 山本 紀和; 柏原 満; 鈴木 悠一; 石田 健 |
| 高精度な距離検出を実現できる車載用ステレオカメラ装置を提供する。 互いの視野が重なるように車両上に配置された左カメラ及び右カメラと、左カメラ及び右カメラにより撮像される画像及び左カメラ及び右カメラの車両上の位置に基づき、車両外の物体までの距離を算出するステレオ処理部と、左カメラ及び右カメラの近傍に配置され、左カメラ及び右カメラのずれ量を検出するセンサとを備える車載ステレオカメラ装置が提供される。ステレオ処理部は、ずれ量に基づいて、左カメラ及び右カメラにより撮像される画像の切り出し位置を変更する。 |
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| 63 | 車載用ステレオカメラ装置、およびその補正方法 | JP2016002919 | 2016-06-17 | JPWO2017042998A1 | 2018-06-28 | 八釣 成功; 山本 紀和; 柏原 満; 鈴木 悠一; 石田 健 |
| 高精度な距離検出を実現できる車載用ステレオカメラ装置を提供する。互いの視野が重なるように配置された左カメラ及び右カメラと、左カメラ及び右カメラを外装し、左カメラ及び右カメラの視野内に入る部位を有する第1外装部及び第2外装部と、左カメラ及び右カメラにより撮像される画像及び左カメラ及び右カメラの車両上の位置に基づき、車両外の物体までの距離を算出するステレオ処理部と、を備える車載ステレオカメラ装置が提供される。ステレオ処理部は、左カメラ及び右カメラの視野内における第1外装部及び第2外装部の位置の変化量に基づいて、左カメラ及び右カメラのずれ量を検出し、左カメラ及び右カメラにより撮像される画像の切り出し位置を変更する。 | ||||||
| 64 | 車両周辺撮影表示装置及び車両周辺撮影表示プログラム | JP2016185507 | 2016-09-23 | JP2018047833A | 2018-03-29 | 古知屋 琢己 |
| 【課題】消費電力を抑制しつつ、降車の際に車両周辺を確認することが可能な車両周辺撮影表示装置及び車両周辺撮影表示プログラムを提供することを目的とする。 【解決手段】イグニッションスイッチがオフされた場合に、カメラの撮影及びモニタ14の表示を予め定めた時間継続した後に、モニタの表示を停止する(100〜106)。続いて、カーテシスイッチによってドアの開放が検出された際に、モニタの表示が停止されている場合には、再開させて車両周辺を確認可能に制御する(108〜112)。そして、カーテシスイッチによってドアの閉鎖が検出され、かつドアロックによって施錠が検知された場合に、モニタの表示を停止する(114、116)。 【選択図】図3 |
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| 65 | Camera device, camera system, and camera control method | JP2010191377 | 2010-08-27 | JP2012049919A | 2012-03-08 | OBA HIDEFUMI; KATSUI NOBORU; NAKANO HIROYASU; TAGAMI SATOSHI |
| PROBLEM TO BE SOLVED: To satisfactorily control a camera device by simple connection, by connecting the camera device with a monitoring device or the like.SOLUTION: The current variation or the voltage variation of a video signal, with respect to a cable outputting the video signal from the camera device, is detected. Then, on the basis of the detected signal variation, a control signal transmitted through the cable is discriminated. On the basis of the discriminated control signal, the operation of the camera device is controlled. In this case, the control signal indicated by the current variation or the voltage variation is so processed as to be transmitted with little effect on the transmission of an analog video signal through the transmission cable. | ||||||
| 66 | Camera equipment and vehicle periphery monitoring device is mounted on a vehicle | JP2004135298 | 2004-04-30 | JP4766841B2 | 2011-09-07 | 政善 井本 |
| 67 | Monitoring camera for vehicle and monitoring camera system for vehicle | JP2009110450 | 2009-04-30 | JP2010263272A | 2010-11-18 | ENDO OSAMU; TATARA NAOKI |
| PROBLEM TO BE SOLVED: To provide a monitoring camera for vehicle, capable of picking up enlarged images of distant objects by one camera, and capable of picking up images of objects existing in a wide range with respect to nearby objects. SOLUTION: The monitoring camera for vehicle includes an imaging element 32 and an image forming lens 33, and is included as an image pickup apparatus CAM1 for picking up images from a distant area to a nearby area in the front or rear of a vehicle. The image forming lens 33 comprises a plurality of lenses Lf, Lm, and Ln different in focal length. Then, objects, in which images are respectively formed, are picked up on different areas of imaging surface of the imaging element 32 with the images formed. Images of distant objects are picked up with a high enlargement factor to increase the resolution, images of objects in a wide range in a nearby or close area are picked up without omission, and objects, such as the other vehicles existing around a self-vehicle, are surely monitored. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 68 | Automotive imaging apparatus | JP2005025147 | 2005-02-01 | JP4380550B2 | 2009-12-09 | 昭仁 石川 |
| 69 | Imaging apparatus for vehicles | JP2005025147 | 2005-02-01 | JP2005318519A | 2005-11-10 | ISHIKAWA AKIHITO |
| <P>PROBLEM TO BE SOLVED: To image and display circumstances in a direction which a driver desires to see in an imaging scheduled position in an imaging apparatus for vehicles. <P>SOLUTION: A vehicle is provided with five imaging cameras 2-6 for imaging the front left side, front right side, rear left side, rear right side and rear side. Imaging conditions such as a position where the imaging is scheduled, imaging camera used for the imaging, vehicle traveling direction, shift position of a transmission, and vehicle speed, are registered in an external memory 16. When the present position of the vehicle detected by a position detector 10 is at or close to the position where the imaging is scheduled, and when the imaging conditions are satisfied, the external circumstances of the vehicle are imaged by the specified imaging camera and are displayed on the display unit 7 in the vehicle. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 70 | Camera apparatus and apparatus for monitoring vehicle periphery | JP2004135298 | 2004-04-30 | JP2005110207A | 2005-04-21 | IMOTO MASAYOSHI |
| <P>PROBLEM TO BE SOLVED: To provide a camera apparatus and an apparatus for monitoring a vehicle periphery which pick up a wide range of visual field while adequately adjusting the visual fields in the horizontal and vertical directions, and at the same time, improve visual confirmation of images displayed. <P>SOLUTION: In this camera apparatus 1, with respect to a relationship between an image height Y of respective image on an image formed on the image pickup element 13 and the image angle θ of the light lays made incident into the respective images, a lens system 11 is configured so that an amount of change in the image height Y with respect to a change in the image angle θ is greater at the peripheral portion of the image than at the center of the image. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 71 | DEVICE FOR PROTECTING AN OPTICAL SENSOR AND ASSOCIATED DRIVING ASSISTANCE SYSTEM | US15981391 | 2018-05-16 | US20180335622A1 | 2018-11-22 | Marcel Trebouet; Frédéric Bretagnol; Giuseppe Grasso; Frederic Gossele; Denis Garnier; Nicolas Pinchon |
| A device for an optical sensor for a motor vehicle and a corresponding driver-assistance system are disclosed. The optical sensor includes an optic. The device includes a housing that is mounted so as to be able to rotate around an axis of rotation and that has a compartment that is configured to accommodate the optical sensor, and an optical element that is securely fastened to the housing. The optical element has at least one planar surface that is configured to be placed in the field of view of the optical sensor. The device also includes and an actuator that is coupled to the housing in order to drive the housing and the optical element to rotate. | ||||||
| 72 | VEHICLE PERIPHERY IMAGING/DISPLAY DEVICE AND A COMPUTER-READABLE RECORDING MEDIUM | US15700778 | 2017-09-11 | US20180086268A1 | 2018-03-29 | Takumi KOCHIYA |
| In a case in which an ignition switch is turned off, imaging by a camera and display of a monitor are continued for a predetermined time, and thereafter, display of the monitor is stopped. Next, when opening of a door is detected by a courtesy switch, in a case in which display of the monitor is stopped, control is carried out to restart the display and enable confirmation of the vehicle periphery. Further, the display of the monitor is stopped in a case in which closing of a door is detected by a courtesy switch and locking is sensed by a door lock. | ||||||
| 73 | CAMERA MONITOR SYSTEM | US15701715 | 2017-09-12 | US20180072228A1 | 2018-03-15 | Mitsuharu MANO; Kosuke MITANI; Naoki TATARA |
| A camera monitor system includes: left and right capturing devices; left and right displaying devices; and a control device detecting an abnormality of each of the left and right capturing devices and controlling a displaying state of each of the left and right displaying devices based on the detected abnormality. The control device individually controls each of the left and right displaying devices to be in a low power consumption state in accordance with a mode of the detected abnormality. | ||||||
| 74 | VEHICLE-MOUNTED IMAGE RECOGNITION APPARATUS AND METHOD OF MANUFACTURING THE SAME | US15792798 | 2017-10-25 | US20180060678A1 | 2018-03-01 | Yuta NAKAMURA; Yohei NAGAI; Yushi TAKEHARA; Naoya TAKEDA |
| In a vehicle-mounted image recognition apparatus, a resolution of an image projected on an imaging plane of an image sensor is different at a position away from a center between a circumferential direction and a radial direction. To make a circumferential resolution higher than a radial resolution, at least a lower half of the imaging plane is located closer to a circumferential focus than a middle of a radial focus and the circumferential focus at a position off the optical axis center of the image projected on the image sensor through the image-forming optical system. This is achieved by adjusting the position of the imaging plane when manufacturing or by selecting a lens with high circumferential resolution. This apparatus improves recognition accuracy in recognizing traffic lanes without using an expensive lens exhibiting high resolution both in the circumferential direction and in the radial direction. | ||||||
| 75 | CAMERA FOR VEHICLE VISION SYSTEM | US15487459 | 2017-04-14 | US20170302829A1 | 2017-10-19 | Jamie A. Mleczko; Jonathan D. Conger; Steven V. Byrne; Yuesheng Lu |
| A camera module for a vision system for a vehicle includes a housing, a lens holder and a rear cover. The housing houses a printed circuit board having an imager disposed thereat. The lens holder is attached at a front portion of the housing so that a lens assembly is optically aligned with the imager. The rear cover attaches at an opening at a rear portion of the housing and includes a connecting element for electrically connecting to circuitry at the printed circuit board when the rear cover is attached at the opening at the rear portion of the housing. An outer portion of the connecting element is disposed in a connector portion of the rear cover so as to be electrically connectable to electrically conductive elements of a vehicle connector when the camera module is disposed at the vehicle and the vehicle connector is connected to the connector portion. | ||||||
| 76 | VEHICLE-MOUNTED STEREO CAMERA DEVICE AND METHOD FOR CORRECTING THE SAME | US15488564 | 2017-04-17 | US20170223341A1 | 2017-08-03 | SHIGENORI YATSURI; NORIKAZU YAMAMOTO; MITSURU KASHIHARA; YUICHI SUZUKI; KEN ISHIDA |
| A vehicle-mounted stereo camera device that achieves high-precision distance detection is provided. The provided vehicle-mounted stereo camera device includes a left camera and right camera disposed on a vehicle via a holder to cause visual fields to overlap each other, a stereo processor that calculates a distance to a body outside the vehicle based on images captured by the left camera and right camera and on positions on the vehicle, first and second geomagnetic sensors respectively disposed near the left camera and right camera, and a third geomagnetic sensor disposed on the holder. The stereo processor compares a geomagnetic value detected by the first or second geomagnetic sensor with a geomagnetic value detected by the third geomagnetic sensor, detects a displacement amount of the left camera or right camera, and changes a cutout position in the image captured by the left camera or right camera based on the displacement amount. | ||||||
| 77 | VEHICLE-MOUNTED STEREO CAMERA DEVICE AND METHOD FOR CORRECTING THE SAME | US15488560 | 2017-04-17 | US20170217371A1 | 2017-08-03 | SHIGENORI YATSURI; NORIKAZU YAMAMOTO; MITSURU KASHIHARA; YUICHI SUZUKI; KEN ISHIDA |
| A vehicle-mounted stereo camera device that achieves high-precision distance detection is provided. The provided vehicle-mounted stereo camera device includes a left camera and right camera disposed on a vehicle to cause a visual field of the left camera and a visual field of the right camera to overlap each other, a stereo processor that calculates a distance to a body outside the vehicle based on images captured by the left camera and right camera and on positions of the left camera and right camera on the vehicle, and sensors disposed near the left camera and right camera for detecting displacement amounts of the left camera and right camera. The stereo processor changes a cutout positions in the images captured by the left camera and right camera based on the displacement amounts. | ||||||
| 78 | VEHICLE-MOUNTED STEREO CAMERA DEVICE AND METHOD FOR CORRECTING THE SAME | US15488559 | 2017-04-17 | US20170217370A1 | 2017-08-03 | SHIGENORI YATSURI; NORIKAZU YAMAMOTO; MITSURU KASHIHARA; YUICHI SUZUKI; KEN ISHIDA |
| A vehicle-mounted stereo camera device that achieves high-precision distance detection is provided, including a left camera and a right camera disposed to cause visual fields to overlap each other, a first enclosure and a second enclosure that enclose the left camera and the right camera and have portions within the visual fields of the left camera and the right camera, respectively, and a stereo processor that calculates a distance to a body outside the vehicle based on images captured by the left camera and the right camera and on positions of the left camera and the right camera on the vehicle. The stereo processor detects displacement amounts of the left camera and the right camera based on amounts of change in positions of the first enclosure and the second enclosure within the visual fields of the left camera and the right camera, and changes a cutout position in the images captured by the left camera and the right camera. | ||||||
| 79 | ON-VEHICLE IMAGING DEVICE | US15265053 | 2016-09-14 | US20170129404A1 | 2017-05-11 | Yuji ODA |
| An on-vehicle imaging device includes an imaging element that captures image data of objects outside the vehicle through a front window of the vehicle. A housing of the on-vehicle imaging device accommodates a circuit substrate on which electronic components for processing the image data captured by the imaging element are mounted. A top plate of the housing located above the circuit substrate includes vent holes through which heat generated in the housing is released in a direction toward a window area included in an imaging range of the imaging element. | ||||||
| 80 | CAMERA DEVICE | US15351051 | 2016-11-14 | US20170057423A1 | 2017-03-02 | Yuhua Wang |
| A camera device comprises: a camera section which includes a camera base and a camera case disposed on the camera base and housing a pickup lens therein; and an attaching device which includes a magnetic attraction box and a fixing device formed integrally with the magnetic attraction box and fixable to an automobile, wherein one of a front surface of the magnetic attraction box and a back surface of the camera base is provided with a magnet capable of attracting an iron family metal and the other of the front surface and the back surface has properties of an iron family metal attractable by the magnet, and the fixing device is a fixing device having a grooved rail, double bar drag hooks and a spring, the magnetic attraction box being formed integrally with the grooved rail. | ||||||
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