| 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 | 화상 표시 제어 장치 | KR1020080018935 | 2008-02-29 | KR1020080080454A | 2008-09-04 | 카사마쯔카쯔노리 |
| An image display control apparatus is provided to improve the display processing rate of a display screen, thereby providing information to a passenger at a quick proper point of time. An image display control apparatus(10) includes an image display control unit(11), a safety application image drawing area(12), a normal application image drawing area(13), a safety application executing unit(14a), a normal application executing unit(14b), and an input interface unit(15). If the safety application executing unit reads out all the executable codes to activate all safety applications in driving the image display control apparatus, the safety application executing unit writes preliminarily image data on fixed images of the safety applications with high and medium levels of urgency on a fixed image drawing area after an image drawing area managing unit(11a) acquires a resource(a storage area of the fixed image drawing area of the safety application image drawing area). The image display control unit includes the image drawing area managing unit, a normal application adjusting unit(11b), an application final adjusting unit(11c), and a display control unit(11d). The image drawing area managing unit acquires a resource from any of a fixed image drawing area(12a) of the safety application image drawing area, a variable image drawing area(12b), and an image drawing area(13a) of the normal application image drawing area. The normal application adjusting unit adjusts display requests of images outputted from normal applications, selects and determines the images of the normal applications according to predetermined display priorities. The application final adjusting unit adjusts a display request of the image of the safety application and a display request of the image of the normal application determined to be displayed on a display device(21), and controls the image of the safety application to be displayed on the display device preferentially. The display control unit controls display of the image corresponding to the display screen(21a) of the display device based on the image data transmitted from the application final adjusting unit. | ||||||
| 62 | View System For Capturing A Vehicle Environment | US16222811 | 2018-12-17 | US20190184900A1 | 2019-06-20 | Werner LANG; Andreas Redlingshöfer; Andreas Enz |
| For a vehicle (1) with a tractor (2) and a trailer (3), a view system has a capture unit (10) with an image sensor (12) for capturing image data of an area of view, around the vehicle, a processing unit (20) for processing the image data, and a reproduction unit (30) for reproducing at least one first image section (410) and one second image section (420) of the area of view (40) captured by the capture unit (10). The processing unit provides different resolutions of image data depending on the position of the tractor with respect to the trailer. | ||||||
| 63 | METHODS AND APPARATUS FOR PIXEL READOUT | US15599305 | 2017-05-18 | US20180336667A1 | 2018-11-22 | Airell Richard CLARK, II; Timothy BROWN; Ignacio J. PEREZ; Agustin B. HERNANDEZ |
| Various embodiments of the present technology may comprise a method and apparatus for pixel readout. The method and apparatus may comprise a pixel array capable of reading out one or more non-rectilinear subsets of the pixel array to form a non-rectilinear primary image. The one or more non-rectilinear subsets may be selected according to a desired rectilinear output image, wherein the rectilinear output image is formed using only the one or more subsets. The primary image may then be transformed to form the rectilinear output image. | ||||||
| 64 | REAR VIEW DISPLAY IMAGE VIEW POSITIONING AND ZOOM EFFECT SYSTEM AND METHOD | US15984632 | 2018-05-21 | US20180334100A1 | 2018-11-22 | MICHAEL DEAN TSCHIRHART |
| A motor vehicle includes a display screen viewable by a driver of the motor vehicle. A rearview camera captures images of a scene behind the motor vehicle. Means detects a location of an object behind the motor vehicle. An actuator is coupled to the rearview camera and changes a field of view of the rearview camera. An electronic processor is communicatively coupled to the display screen, the rearview camera, the detecting means, and the actuator. The electronic processor controls the actuator to change the field of view of the rearview camera dependent upon the detected location of the object behind the motor vehicle. The electronic processor presents on the display screen video content dependent upon the images captured by the rearview camera. | ||||||
| 65 | Method and system for generating a surround view | US14655685 | 2012-12-26 | US10075634B2 | 2018-09-11 | Jia He; Norman Weyrich |
| A method and system for generating a surround view are provided. The method may include: establishing a surround surface; obtaining a plurality of images of surroundings; and projecting the images onto the surround surface based on a projection relationship between points on the surround surface and pixels on the images to generate a surround view, where the projection relationship may change with heights of the points on the surround surface. An improved projection effect may be obtained. | ||||||
| 66 | VEHICLE HEAD-UP DISPLAY DEVICE | US15902000 | 2018-02-22 | US20180253904A1 | 2018-09-06 | Kouji KUWABARA |
| A vehicle head-up display device includes a display device and a display control device. The display device is configured to perform reflective display of driving support information on a windshield of a vehicle. The display control device is configured to control the display device, and including a synthesized image generating unit configured to synthesize required display information and a live-action image taken by a camera to display a synthesized image of the required display information and the live-action image on an entirety or a part of a screen of the display device. | ||||||
| 67 | METHOD AND APPARATUS FOR ADJUSTING FRONT VIEW IMAGES | US15427223 | 2017-02-08 | US20180222389A1 | 2018-08-09 | Valor Yaldo; Wende Zhang |
| A method and apparatus for adjusting front view camera images are provided. The method includes determining whether a front mounted license plate is present; in response to determining that the front mounted license plate is present, adjusting an image of a front view camera to remove a part of the image including an area where the front mounted license plate is present and displaying the adjusted image; and in response to determining that the front mounted license plate is absent, displaying the image of the front view camera including a part of the area where the front mounted license plate would be mounted. | ||||||
| 68 | IMAGE DISPLAY DEVICE | US15864533 | 2018-01-08 | US20180222319A1 | 2018-08-09 | Satoshi Fujisaki; Takumi Kochiya; Kohji Usui |
| The image display device includes a distance obtainer configured to obtain a vehicle-to-vehicle distance between a vehicle and a following vehicle. A controller is configured to: determine a magnitude of an image-cutout angle value based on the obtained vehicle-to-vehicle distance, such that a display state of a rear-view display unit is to be switched from a mirror-surface showing state to a display showing state such that a size of the following vehicle in the mirror-surface showing state is identical to a size of the following vehicle to be displayed in the display showing state; control a display to display a display image created from a cutout image that is cut out in the determined image-cutout angle value; and adjust the image-cutout angle value so as to gradually decrease a size of the following vehicle displayed on the display when the obtained vehicle-to-vehicle distance is greater than a set value. | ||||||
| 69 | METHOD FOR DETERMINING ALIGNMENT OF VEHICULAR CAMERAS | US15899105 | 2018-02-19 | US20180176482A1 | 2018-06-21 | Yuesheng Lu |
| A method for determining alignment of cameras at a vehicle includes mounting first and second cameras at a vehicle and providing an image processor at the vehicle. While the vehicle is moving along the road, first image data captured via the first camera is processed to determine movement of a road feature and second image data captured by the second camera is processed to determine movement of the road feature when the road feature is present in the second image data. The determined movement of the road feature in first image data is compared to the determined movement of the road feature in second image data, and an offset of the second camera relative to the first camera is determined, with the offset caused by a rotational or translational change in position of the first or second camera relative to the other. | ||||||
| 70 | COMPOSITE DISPLAY FROM ONE OR MORE CAMERAS | US15662660 | 2017-07-28 | US20180154831A1 | 2018-06-07 | Charles Edward Spencer; Marcos A. Robles; Arees Kumar Uthayasurian; Hong S. Bae; Oliver Max Jeromin |
| Displays for a vehicle can be used to display a composite feed from one or more cameras. In some examples, the vehicle display can be a rear-view mirror replacement display. In some examples, the vehicle can include feeds from a rear-view camera and two side-view cameras. The composite feed for the display can be adapted according to monitored conditions. For example, when a vehicle is detected in a blind spot, the composite feed can be adapted to add a feed from the corresponding side view camera. In some examples, when a vehicle is detected in the blind spot, the composite feed can be adapted to increase the proportion of the display area allocated to the side-view camera feed from the corresponding side-view camera. In some examples, when a vehicle is detected in the blind spot, the corresponding side-view camera view can be visually distinguished. | ||||||
| 71 | Vehicle circumference monitoring apparatus | US14972992 | 2015-12-17 | US09973734B2 | 2018-05-15 | Kazuya Watanabe; Tetsuya Maruoka; Itsuko Ohashi |
| A vehicle circumference monitoring apparatus includes: an image acquisition section that acquires captured image data output from an imaging section that is provided in a vehicle and images a circumference of the vehicle; a state acquisition section that acquires vehicle state data output from a vehicle state detection section that is provided in the vehicle and detects at least a roll state of the vehicle; a setting section that sets a center of rotation to rotate a display image depending on the roll state if the display image is displayed on a display device based on the captured image data; an image adjustment section that rotates a display state of the display image about the center of rotation that is set depending on the roll state; and an output section that outputs the display image to the display device. | ||||||
| 72 | ELECTRONIC APPARATUS, CONTROL METHOD THEREOF, COMPUTER PROGRAM, AND COMPUTER-READABLE RECORDING MEDIUM | US15814150 | 2017-11-15 | US20180075662A1 | 2018-03-15 | Ho Hyung CHO |
| Provided 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. | ||||||
| 73 | CONSTRUCTION MACHINERY | US15673627 | 2017-08-10 | US20180061007A1 | 2018-03-01 | Toru Imano |
| A construction machine is equipped with a plurality of monitor cameras that capture the area surrounding a body of the machine. An image processor generates a synthetic bird's eye view image by synthesizing the plural camera images captured by each monitor camera into one. The image processor divides the synthetic bird's eye view image using one or more section lines into plural areas A, B, C, D, and expands the image size for area D corresponding to a blind spot behind and to the right side of the machine. At the same time, the image processor reduces the image size of the remaining areas A, B, C by a corresponding amount, in order to thereby generate a conversion image 60 which is the same overall size as the synthetic bird's eye view image while maintaining a complete view of the area surrounding the machine from all of the cameras. A monitor selectively displays either the synthetic bird's eye view image or the conversion image to the operator. | ||||||
| 74 | REACTIVE SMART REAR VIEW DISPLAY MIRROR | US15679453 | 2017-08-17 | US20180050639A1 | 2018-02-22 | JASON D. EBERHARD; JOHN AVERY |
| A motor vehicle includes a driver sensor detecting a position of a human driver of the motor vehicle. A rear view camera captures images of an environment behind the motor vehicle. A display screen is disposed within a passenger compartment of the motor vehicle. An electronic processor is communicatively coupled to each of the driver sensor, the rear view camera, and the display screen. The electronic processor receives images captured by the rear view camera, receives outputs of the driver sensor, determines a position of the driver's head or eyes dependent upon the outputs of the driver sensor, and transmits video signals to the display screen. The video signals are dependent upon the determined position of the driver's head or eyes and dependent upon images captured by the rear view camera. | ||||||
| 75 | IMAGE GENERATING DEVICE AND IMAGE GENERATING METHOD | US15534435 | 2015-10-29 | US20170368993A1 | 2017-12-28 | Shingo IMURA; Hirohiko YANAGAWA |
| An ECU captures an image of an imaging region around an own vehicle, and acquires image data, the imaging region being configured by a plurality of imaging areas. The ECU determines whether the object is present in the imaging areas, on the basis of detection results of an object present around the own vehicle. The ECU selects a target area to be displayed in an easy-to-see state from among the plurality of imaging areas, on the basis of determination results. The ECU reduces and corrects the image data of each imaging area such that an image of the target area is displayed in the easy-to-see state compared to an image of each imaging area to generate display image data. | ||||||
| 76 | VEHICLE DISPLAY WITH SELECTIVE IMAGE DATA DISPLAY | US15603509 | 2017-05-24 | US20170347067A1 | 2017-11-30 | David M. Bostrom; Marc A. Smeyers |
| A display system for a vehicle is disclosed. The display system comprises a display device disposed in a passenger compartment of the vehicle. The display device comprises a screen. The display system further comprises a first imager configured to capture a first image data corresponding to a rearward directed field of view from the vehicle and a second imager configured to capture a second image data corresponding to a field of view of a passenger compartment of the vehicle. A controller of the display system is configured to display the first image data on a first portion of the screen and selectively display the second image data on a second portion of the screen in response to a detection of a display prompt. | ||||||
| 77 | DISPLAY CONTROLLER AND DISPLAY CONTROL METHOD | US15470162 | 2017-03-27 | US20170302855A1 | 2017-10-19 | Kenta Usui; Yoshitaka Hiyama; Mutsuki Hirooka; Yoshimasa Hayashida; Masaaki Abe |
| A display controller is provided that controls a camera capturing an image of an area diagonally behind a vehicle and including an imaging element that receives light from an image-capturing target through an optical system, the display controller including a processor that calculates a shift amount of a reference position of the imaging element with respect to an optical axis of the optical system, performs a control to move the reference position of the imaging element in a direction away from the optical axis according to the shift amount, and generates a display image based on the image captured by the camera so as to cause the display image to be displayed on a display device. | ||||||
| 78 | Image processing apparatus and image processing method | US15062677 | 2016-03-07 | US09744968B2 | 2017-08-29 | Ruiko Miyano |
| An object recognizer of an image processing apparatus separately extracts a first feature point and a second feature point of a first line segment and a second line segment of which a variation is equal to or greater than a variation threshold value and the first feature point and the second feature point of the first line segment and the second line segment of which the variation is smaller than the variation threshold value, and determines a corresponding point in a second captured image corresponding to the first feature point of the first line segment of which the variation is equal to or greater than the variation threshold value as the second feature point of the second line segment corresponding to the first line segment of which the variation is equal to or greater than the variation threshold value to recognize an object. | ||||||
| 79 | IMAGE PROCESSING DEVICE, METHOD FOR CONTROLLING IMAGE PROCESSING DEVICE, NON-TRANSITORY COMPUTER READABLE MEDIUM RECORDING PROGRAM, AND DISPLAY DEVICE | US15284382 | 2016-10-03 | US20170021770A1 | 2017-01-26 | YUKO ARAI; WATARU NAKAI |
| An image processing device includes an image processor, a display region determiner, and a zoom factor determiner. The display region determiner determines a position of a display image within a captured image based on information about an angle of the display device. The zoom factor determiner determines a zoom factor of the captured image based on information about pushing or pulling force to be applied to the display device. The image processor generates the display image to be displayed on the display device by processing the captured image using the position of the display image within the captured image, the zoom factor, and a predetermined zoom center. | ||||||
| 80 | REAR-VIEW MONITOR DEVICE AND AUTOMOBILE EQUIPEED WITH SAME | US15122152 | 2015-03-27 | US20160368418A1 | 2016-12-22 | TERUMITSU SUENAGA; TAKASHI KUWABARA; KAZUHIRO MORISHITA; HITOAKI AKAHORI |
| A rear-view monitor device includes a main housing mounted to a place in front of a driver seat in an inside of an automobile, a display unit mounted to the main housing at a side to the driver seat, a first camera capable of capturing a rear view image of an outside of the automobile, a second camera capable of capturing one of a front view image and a side view image of the outside of the automobile, and a light-emitting section disposed on an outer circumference of the main housing. The display unit includes a display disposed in the main housing and a controller. The controller is configured to cause the display to display a first image captured by the first camera in a first display area of the display, to form a second display area in at least a part of the first display area for displaying, in the second display area, a second image captured by the second camera, and to cause a portion of the light-emitting section corresponding to the second display area to emit light while forming the second display area. This rear-view monitor device can be used easily. | ||||||
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