| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | 차량용 주변 감시 장치 및 영상 표시 방법 | KR1020080093592 | 2008-09-24 | KR1020090031998A | 2009-03-31 | 치노미사또시; 야나기다꾸라; 아까쯔까다께시; 나까노요시노리; 가와노츠또무 |
| A perimeter monitoring apparatus and an image display method for vehicle are provided to display the image of rear side of the vehicle larger than those of other sides when displaying the rear view image and the right- and left-rear view images at the same time. A perimeter monitoring apparatus comprises an imaging unit obtaining a rear view image(PB) and right- and left-rear view images(PR,PL), an image processing unit converting the images obtained by the imaging unit, and a display unit having a center display area(D1) located in the center of traverse direction and outer display areas(D2,D3) positioned on both sides of the center display area. The rear view image is displayed in the center display area, and the right- and left-rear view images are displayed in the outer display areas after being compressed. | ||||||
| 142 | 자동차 안전운전을 위한 전방 시선확보용 외부 모니터링시스템 | KR1020060085797 | 2006-09-06 | KR100775105B1 | 2007-11-08 | 이동욱 |
| An external dual monitor system for vehicles is provided to fix driver's sight to the front during travel, and to permit the driver to detect front, rear and side conditions through a dual display. An external dual monitor system for vehicles includes a side camera, a pair of multi-functional display devices(40), a mounting unit(50), and a controller(60). The side camera is mounted on a side view mirror, facing rearward. The display devices are mounted on a dash board(3), and output images in accordance with signals output from front and rear cameras and the side camera. The mounting unit has a surface on which the display devices are joined. The controller is arranged to control the operation of the front and the rear cameras and the side camera. The display devices output images of the left camera through the left display device and images of the right camera through the right display device. The display devices are attached onto the dash board, and adjustable in vertical and horizontal directions. | ||||||
| 143 | Capturing device, capturing system and capturing method | US15216040 | 2016-07-21 | US10142580B2 | 2018-11-27 | Eiji Oba; Frederic Maire |
| A capturing device includes an image sensor that generates an image signal by performing photoelectric conversion for light from a subject, a control unit that generates a setting value for setting a range where an image resulting from the image signal is cut, based on a first instruction input from a user, a setting value storage unit that stores the setting value generated by the control unit, an image conversion unit that reads the setting value from the setting value storage unit, and cuts a specific region specified by the setting value from the image and enlarges the cut region, when there is a second instruction input from the user, and an output unit that converts a signal of the image cut and enlarged by the image conversion unit into an image signal of a predetermined format and outputs the converted image signal. | ||||||
| 144 | SYSTEM TO AUTOMATE HITCHING A TRAILER | US15583014 | 2017-05-01 | US20180312022A1 | 2018-11-01 | Donald Jacob Mattern; Hongtei Eric Tseng; John Paul Shaw; Jill Plavcan; Lisa Yeung; Thomas Edward Pilutti |
| A vehicle hitch assistance system includes an imaging system, a steering system, a dead reckoning system, and a controller. The controller determines a hitch location within a vehicle exterior image received from the camera system, derives a vehicle path to align a hitch ball of the vehicle with the hitch location, and controls the steering system to guide the vehicle along the path including tracking the location of the vehicle using information received from the dead reckoning system. | ||||||
| 145 | IMAGE DISPLAY DEVICE | US15949906 | 2018-04-10 | US20180304813A1 | 2018-10-25 | Junya SEKI; Eisuke KONISHI; Koichi MIZUTANI; Masayuki MURAKOSHI |
| An image display device includes an image capturing unit configured to capture an image of a rearview and a sideview from a host vehicle, and a display unit configured to display, as a display image, a captured image captured by the image capturing unit or a generated image generated based on the captured image. The display unit includes a first area for displaying the display image that includes an area to the rearview of the host vehicle and a second area, being arranged adjacent to the first area, for displaying the display image that includes an area to the sideview of the host vehicle, and the displayed image displayed in the second area is image-processed in such a manner that an aspect ratio changes with respect to an aspect ratio of the display image displayed in the first area. | ||||||
| 146 | DISPLAY SYSTEM OF VEHICLE AND METHOD OF DRIVING THE SAME | US15914296 | 2018-03-07 | US20180262719A1 | 2018-09-13 | Min-Gwan JO |
| Disclosed herein are a display system of a vehicle and a method of driving the same. The display system includes a plurality of camera modules configured to capture a front side, a rear side, a rear left side, and a rear right side relative to the vehicle and generate image data, a plurality of display panels configured to receive the image data and display front side images, rear side images, rear left side images, and rear right side images relative to the vehicle, a driver pupil detection sensor configured to sense a pupil of a driver and generate pupil position data, a driver posture detection sensor configured to sense a position of the driver, a body direction thereof, and a head height thereof and generate posture data, a calculator configured to calculate a position of a field of view of the driver on the basis of the pupil position data and the posture data and generate a display correction value on the basis of the position of the field of view, and a display correction device configured to adjust a horizontal tilt and a vertical tilt of each of the plurality of display panels on the basis of the display correction value. | ||||||
| 147 | Dynamic perspective shifting system and method | US14959723 | 2015-12-04 | US10053010B2 | 2018-08-21 | Aaron Evans Thompson; Benjamin Saltsman; Sean O'Rourke |
| A system for displaying an image on a display device of a motor vehicle includes a rear-view camera connected to a moveable component on the motor vehicle and a controller in communication with the rear-view camera. The controller has memory for storing control logic and a processor configured to execute the control logic. The control logic includes capturing a field of view image from the rear-view camera, determining a position of the rear-view camera, determining an image perspective relationship of the field of view image based on the position of the rear-view camera, modifying the field of view image based on the image perspective relationship to create a virtual perspective image, and displaying the virtual perspective image on the display device in the motor vehicle as the position of the rear-view camera changes between at least a first position and a second position. | ||||||
| 148 | DISPLAY DEVICE FOR VEHICLE AND DISPLAY METHOD FOR VEHICLE | US15915296 | 2018-03-08 | US20180197411A1 | 2018-07-12 | Yoshiyuki SHIMIZU |
| A display controller is able to selectively perform a rearward normal display mode in which a first view-angle image is displayed in the display unit as an image of a first area of the rearward image and a rearward enlarged display mode in which a second view-angle image is displayed in the display unit as an image of a second area of the rearward image smaller than the first view-angle image in an enlarged manner. The display controller performs the rearward enlarged display mode when: an upward slope of a road on which an own car is traveling has increased; a vehicle speed of the own car has decreased after the upward slope of the road has increased; there is no preceding car that is closely lined up with the own car; and there is a following car that is not closely lined up with the own car. | ||||||
| 149 | Method and device for reproducing a lateral and/or rear surrounding area of a vehicle | US14906329 | 2014-07-01 | US10000155B2 | 2018-06-19 | Joerg Schrepfer |
| A method and a device are for detecting and reproducing a lateral and/or rear surrounding area of a vehicle with a trailer, so that the driver can monitor the surrounding area. The surrounding area is detected by at least one image capturing device which produces image data of the surrounding area. The image data is reproduced by at least one image reproducing device arranged in a field of vision of the vehicle driver. A characteristic of the reproduced image section is adapted dependent on an alignment of the trailer relative to the vehicle. | ||||||
| 150 | Periphery monitoring apparatus and periphery monitoring system | US14841843 | 2015-09-01 | US09994157B2 | 2018-06-12 | Kazuya Watanabe; Tetsuya Maruoka; Itsuko Ohashi |
| A periphery monitoring apparatus includes: an acquisition unit configured to acquire first image data that is captured by a first imaging unit provided on a left side of a vehicle body, and second image data that is captured by a second imaging unit provided on a right side of the vehicle body; and an output unit configured to combine third image data which is generated by rotating, and magnifying or minifying the first image data in such a way that a plurality of left reference points included in the first image data are respectively displayed at pre-set positions, and fourth image data which is generated by rotating, and magnifying or minifying the second image data in such a way that a plurality of right reference points included in the second image data are respectively displayed at pre-set positions, and to output the combined image data. | ||||||
| 151 | Method and device for producing a masking instruction, as well as for masking image information from a camera | US15147987 | 2016-05-06 | US09969331B2 | 2018-05-15 | Michael Huebner; Thomas Schoeberl; Steffen Abraham |
| A method for producing a masking instruction for a camera of a vehicle, the method including a setting step, a transforming step, and a storing step. In the setting step, interpolation points of a field-of-view boundary are set in a vehicle coordinate system using three-dimensional model data of the vehicle, the interpolation points being set from a camera perspective that is modeled in the model data. In the transforming step, vehicle coordinates of the interpolation points from the vehicle coordinate system are transformed into a spherical coordinate system to obtain spherical coordinates of the interpolation points. In the storing step, a mask curve defined by the interpolation points, is stored in the spherical coordinate system in order to produce the masking instruction. | ||||||
| 152 | In-vehicle image processing device and semiconductor device | US14523871 | 2014-10-25 | US09946938B2 | 2018-04-17 | Kazuaki Terashima |
| An in-vehicle image processing device capable of appropriately monitoring areas forward of, around, and rearward of a vehicle is provided at low cost. The device is for mounting on a vehicle and includes a camera, an image processing unit, and a determination unit. With a reflector provided in front of the camera, the camera can image, for display in a frame at a time, a first area forward of the vehicle and a second area, e.g. an area around the vehicle. In the image processing unit supplied with such image data from the camera, either the first-area image or the second-area image is appropriately processed whereas image processing is omitted for the other image. Alternatively, both images are subjected to a same image processing. The determination unit supplied with vehicle speed information supplies appropriate control instruction information based on the current vehicle speed to the image processing unit. | ||||||
| 153 | DISPLAY SYSTEM, DISPLAY APPARATUS, AND IMAGE PROCESSING APPARATUS | US15819169 | 2017-11-21 | US20180097997A1 | 2018-04-05 | Fumitaka Gotoh; Tsutomu Harada |
| A display system includes an imaging apparatus installed on a mobile body; a display apparatus installed at a position different from that of the imaging apparatus on the mobile body and displaying a post-processing image; a first sensor detecting vibration at or near the imaging apparatus; a second sensor detecting vibration at or near the display apparatus; a first image processor clipping out a preprocessing image from an image captured by the imaging apparatus, based on the first sensor detection result; and a second image processor clipping out the post-processing image from the preprocessing image based on the second sensor detection result. The first image processor moves a clip-out region of the preprocessing image in a direction to counteract vibration at or near the imaging apparatus, and the second image processor causes a clip-out region of the post-processing image to follow vibration at or near the display apparatus. | ||||||
| 154 | IMAGE PROCESSING DEVICE AND ELECTRONIC MIRROR SYSTEM | US15549664 | 2016-03-14 | US20180037165A1 | 2018-02-08 | TERUMITSU SUENAGA; TAKASHI OKOHIRA; MOTONOBU UCHIMURA |
| An object sensor senses that an object has come near the vehicle by sensing that the object is within a predetermined range behind a vehicle. When the object sensor senses that the object has come near the vehicle by sensing that the object is within the predetermined range behind the vehicle, a compressor creates a compressed image obtained by compressing a part of a display target range in a rearward image. When the object having come near is sensed, the display target range is changed to a second display target range obtained by moving down a lower end of a first display target range; the first display target range is the display target range when the object is out of the predetermined range. The compressor compresses a part of the rearward image in a vertical direction; the rearward image is present within the second display target range. | ||||||
| 155 | ASSISTING METHOD AND DOCKING ASSISTANT FOR COUPLING A MOTOR VEHICLE TO A TRAILER | US15629785 | 2017-06-22 | US20180001721A1 | 2018-01-04 | Philipp HÜGER; Stefan BROSIG |
| An assist method for coupling a motor vehicle to a trailer, wherein the motor vehicle includes a trailer coupling, at least one camera, a display, and an electronic unit, and wherein the trailer includes a tow bar for the trailer coupling. The assist method captures a first image of at least one tow bar of a trailer by the camera, displays the first image on the display, selects a first region in the first image in which the tow bar is located, enlarges the selected first region to produce a second image, displays the second image on the display, selects a second region in the second image in which the tow bar is located, and determines a trajectory of the motor vehicle for coupling the trailer assuming that the tow bar is located in the second region. | ||||||
| 156 | Electronic apparatus, control method thereof, computer program, and computer-readable recording medium | US14955762 | 2015-12-01 | US09846969B2 | 2017-12-19 | Ho Hyung Cho |
| Disclosed herein is a control method of an electronic apparatus. The control method of an electronic apparatus includes: detecting a crosswalk from an image data photographed in a camera during a period in which a vehicle is operated; generating an object indicating the detected crosswalk; and outputting the generated object through augmented reality. | ||||||
| 157 | VEHICLE CONTROL SYSTEM, VEHICLE CONTROL METHOD, AND VEHICLE CONTROL PROGRAM | US15602265 | 2017-05-23 | US20170336797A1 | 2017-11-23 | Masaaki Abe; Kunimichi Hatano; Masahiko Asakura; Naoto Sen |
| A vehicle control system includes an imaging section, a surroundings monitoring section, and a display controller. The imaging section is configured to capture an image of surroundings of a vehicle. The surroundings monitoring section is configured to monitor conditions surrounding the vehicle. The display controller is configured to display, on a display present within a cabin of the vehicle and configured to display an image based on an operation by an occupant, an image of surroundings of the vehicle superimposed over part of an image based on an operation by the occupant, and to enlarge the image of the surroundings of the vehicle based on a monitoring result from the surroundings monitoring section. | ||||||
| 158 | Apparatus for recognizing lane partition lines | US14886918 | 2015-10-19 | US09792508B2 | 2017-10-17 | Naoki Kawasaki; Tomohiko Tsuruta; Shunsuke Suzuki |
| An apparatus for recognizing lane partition lines on opposite sides of a traveling lane in a processing area of a forward image captured by a camera mounted in a vehicle. In the apparatus, a lane change determiner is configured to determine whether or not there is a lane change made by the vehicle. A processing area changer is configured to, while it is determined by the lane change determiner that there is a lane change, change the processing area from a predefined processing area to a processing area that can accommodate the lane change. | ||||||
| 159 | ELECTRONIC MIRROR DEVICE | US15505071 | 2015-08-28 | US20170259743A1 | 2017-09-14 | MOTONOBU UCHIMURA; HITOAKI AKAHORI; MASANOBU KANAYA |
| An electronic mirror device includes: a display that is mounted on an installation position of a rear-view mirror in an interior of a vehicle; and a controller that controls the display. The display includes: a body case having an opening on a side of a driver seat of the vehicle; an image display unit that is mounted to the body case and displays the camera image; and a half mirror disposed at a side of the driver seat of the image display unit. The controller identifies an object moving in a direction toward the vehicle in the camera image, and displays a camera image in which a size of the identified object in a display image on the image display unit is magnified or reduced to a size of the object reflected in the half mirror viewed from the driver seat, on the image display unit. | ||||||
| 160 | Dynamic guideline overlay with image cropping | US13485368 | 2012-05-31 | US09738223B2 | 2017-08-22 | Wende Zhang; Bakhtiar Brian Litkouhi; Kent S. Lybecker |
| A method for dynamically registering a graphic upon a cropped image obtained from a camera device includes capturing an original image obtained from the camera device. Intrinsic calibration information for the camera device, extrinsic information for the camera device and vehicle information are monitored. The cropped image is generated based on cropping parameters to exclude undesirable content from the original image. The intrinsic calibration information is adjusted based on a relationship to the cropping parameters. The graphic is dynamically registered upon the cropped image based on the adjusted intrinsic calibration information for the camera device, the monitored extrinsic information for the camera device and the monitored vehicle information. | ||||||
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