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 |
|---|---|---|---|---|---|---|
| 181 | METHOD FOR PROVIDING A SIGHT SECURING IMAGE TO VEHICLE, ELECTRONIC APPARATUS AND COMPUTER READABLE RECORDING MEDIUM THEREFOR | US15715363 | 2017-09-26 | US20180101736A1 | 2018-04-12 | Seong-won HAN; Woo-jin PARK; Dae-hyun BAN; Kyu-haeng LEE; Sangsoon LIM |
| A method of an electronic apparatus for providing a sight securing image to a vehicle is provided, in which the method for providing a sight securing image includes determining at least one external vehicle from among a plurality of external vehicles, acquiring an external image at the determined external vehicle, acquiring an external vehicle image of the determined external vehicle, generating a sight securing image corresponding to a view obstructed by the external vehicle, by compositing at least part of the acquired external image and at least part of the acquired external vehicle image, and providing the generated sight securing image to a display. | ||||||
| 182 | Anti-Collision, Accident Prevention Car Safety Systems to Provide Visibility when Passing, Pulling or Backing out of Parking Spaces/Driveways and Entering or Crossing Intersections | US15669248 | 2017-08-04 | US20180040248A1 | 2018-02-08 | Herman L. Bigham |
| A vehicle safety system that provides a clear view of blind spots, approaching motor vehicles in oncoming and peripheral lanes when attempting to pass on a two-lane highway consists of a pair of side mirror-mounted cameras, a split viewing screen/monitor, a plurality of controls, and a microcontroller. The visual data received from the pair of side mirror-mounted cameras is displayed on the split viewing screen/monitor. Thus, the user can view oncoming motor vehicles. Preferably, the split viewing screen/monitor is mounted adjacent to a rear-view mirror of a motor vehicle. The plurality of controls allows the user to control the content displayed on the split viewing screen/monitor. When front-facing cameras and rear-facing cameras are available, the user is provided with information regarding obstacles surrounding the motor vehicle. The pair of front-facing cameras and the pair of rear-facing cameras are especially beneficial when backing out of parking spaces and driving through intersections. | ||||||
| 183 | System and method for assisting vehicle driving for using smart phone | US14570868 | 2014-12-15 | US09884589B2 | 2018-02-06 | Ji Hyun Yoon |
| A system and a method for assisting vehicle driving are provided. The system may select and use an imaging device among a plurality of imaging devices within a smart phone possessed by a driver or a passenger in a vehicle and assist in driving. A system includes a smart phone configured to capture an image in front of a vehicle and an inner image of the vehicle using the plurality of imaging devices within the smart phone and select one of the plurality of imaging devices. The system also includes a controller configured to analyze image information provided from the plurality of imaging devices to operate the smart phone or control the vehicle. | ||||||
| 184 | VEHICLE INFORMATION SYSTEM AND METHOD | US15177079 | 2016-06-08 | US20170359519A1 | 2017-12-14 | GARY J. HARDY |
| Methods, systems, and vehicles are provided that include information systems including a display disposed about the interior of a vehicle. The display is positioned within the vehicle to be viewable by an occupant of the vehicle who is not looking forward through the vehicle windshield and/or or towards displays, gauges or instrumentation primarily positioned for viewing by a forward-looking occupant. The information system may be coupled to receive data from one or more vehicle control systems or controllers, from cameras disposed within the interior or on the exterior of the vehicle, from one or more sensors and/or from a telematics system. The information system configures the data for display on the display. | ||||||
| 185 | Method and apparatus for visualization of an environment of a motor vehicle | US15616056 | 2017-06-07 | US20170357271A1 | 2017-12-14 | Torsten Büschenfeld; Stephan Max; Stefan Brosig |
| The invention relates to a method and an apparatus for visualizing an environment of a motor vehicle, wherein the apparatus has at least one camera for detecting an environment of the motor vehicle, at least one display unit, and an evaluation and control unit, which is designed to depict images of the environment on the display unit, depending on the pictures from the at least one camera, wherein the apparatus comprises a device for detecting a head position of a vehicle passenger, wherein the evaluation and control unit is designed so that the depiction on the display unit is adapted depending on the detected head position, so that the vehicle passenger sees a depiction of the environment of the motor vehicle that the vehicle passenger would see if the display unit were a transparent window of the motor vehicle. | ||||||
| 186 | IMAGE PROCESSING DEVICE FOR VEHICLE | US15593909 | 2017-05-12 | US20170352176A1 | 2017-12-07 | Kazuya WATANABE; Yu TANAKA |
| An image processing device for a vehicle includes: an acquisition unit acquiring a captured image of a periphery of a vehicle, which is captured by an imaging unit provided in the vehicle; a bird's eye view image generating unit generating a bird's eye view image in which the captured image is projected to a 3D virtual projection plane provided at a side opposite to the vehicle with reference to a ground and separated from the ground with distance from the vehicle; a guide line generating unit generating a guide line indicating a predicted course of the vehicle; a conversion unit converting the guide line into a virtual guide line indicating the predicted course on the virtual projection plane; and a superimposing unit superimposing the virtual guide line on the bird's eye view image. | ||||||
| 187 | IMAGE GENERATION APPARATUS | US15492313 | 2017-04-20 | US20170334356A1 | 2017-11-23 | Atsushi FUJITA |
| An image generation apparatus includes an image processor and a detector. The image processor generates a composite image viewed from at least one virtual viewpoint, and outputs the generated composite image to a display. The detector detects an indication of a driver intention to drive the host vehicle to a right or to a left relative to a travelling direction of the host vehicle. The image processor generates the composite image viewed from a virtual viewpoint located in front of the host vehicle in the travelling direction, the composite image showing a lateral surface of the host vehicle on a side corresponding to the detected indication of the driver intention. Thus, it is possible to make it easier to check a situation at a time of a right turn, a left turn, or a travelling direction change. | ||||||
| 188 | WiFi Wireless Rear View Parking System | US15658056 | 2017-07-24 | US20170320435A1 | 2017-11-09 | Dae Kwon CHUNG |
| A WiFi wireless rear view parking system comprises a main body, a camera sensor, a Wifi transmission module, a mobile personal electronic device, and a switch. The main body is installed at a license plate of an automobile. The camera sensor is provided in the main body for sensing images and video of rear regions of the automobile and generating images and video data. The Wifi transmission module transmits the image and video data from the camera. The mobile personal electronic device is for receiving image and video data transmitted by the Wifi transmission module and displaying them. The switch is provided in the display device or the mobile personal electronic device and configured for switching orientation of a view by flipping reverse and non-reverse, wherein the view is displayed on the mobile personal electronic device. The WiFi wireless rear view parking system provides rear view of the automobile to a driver. The mobile personal electronic device includes a smartphone. | ||||||
| 189 | VEHICLE DISPLAY SYSTEM PROVIDING DEPTH INFORMATION | US15487065 | 2017-04-13 | US20170302914A1 | 2017-10-19 | William L. Tonar; Andre J. Rieder |
| The disclosure provides for a display system for a vehicle comprising at least one image sensor, an image processor, and a display. The image processor is in communication with the image sensor and configured to generate autostereoscopic image data. The display is in communication with the image processor and configured to display the autostereoscopic image data. The autostereoscopic image data is configured to provide a depth perception to assist in determining a proximity of an object in the image data. | ||||||
| 190 | VISION CORRECTING VEHICLE DISPLAY | US15486908 | 2017-04-13 | US20170302913A1 | 2017-10-19 | William L. Tonar; Andre J. Rieder |
| The disclosure provides for a display system for a vehicle comprising at least one image sensor, an image processor, and a display apparatus. The image sensor is configured to capture image data. The image processor is in communication with the image sensor and configured to generate augmented image data from the image data. The augmented image data is configured counteract a farsightedness of an occupant of the vehicle. The display apparatus is in communication with the image processor and configured to communicate the augmented image data independently to each of a right eye and a left eye of the occupant. | ||||||
| 191 | REAR SEAT OCCUPANT MONITORING SYSTEM FOR VEHICLE | US15638662 | 2017-06-30 | US20170297490A1 | 2017-10-19 | Niall R. Lynam; John O. Lindahl |
| A rear seat occupant monitoring system for a vehicle includes a video display screen disposed in the vehicle cabin so as to be viewable by a driver of the vehicle. A camera is disposed a dome light or an overhead console. The dome light or overhead console includes first and second illumination sources that, when operated, illuminate a rear seat area within the field of view of the camera. The first illumination source principally emits visible light when electrically powered, and the second illumination source principally emits non-visible light when electrically powered. The camera captures image data representative of the rear seat area when the rear seat area is illuminated by at least one of the first and second illumination sources. Image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle. | ||||||
| 192 | DRIVE ASSISTANCE DEVICE AND DRIVE ASSISTANCE METHOD | US15505849 | 2015-05-21 | US20170253182A1 | 2017-09-07 | Junichi AOKI; Hiroyuki KOIBUCHI; Daisuke KONDO |
| A drive assistance device 10 includes a road information acquisition unit 12, an information display unit 5, a drive assistance unit 15, and a display control unit 14 configured to report road information in front of a vehicle 1 acquired by the road information acquisition unit 12, by displaying a road image portion R indicating a shape of a road and left and right outer edges EL, ER of the road image portion R in different colors on the information display unit 5, and to display a vehicle state display part C indicating an execution state of drive assistance by the drive assistance unit 15. | ||||||
| 193 | ELECTRONIC MIRROR DEVICE | US15312166 | 2015-06-04 | US20170080868A1 | 2017-03-23 | TOSHIHARU OISHI |
| An electronic mirror device has a display device that is mounted on a mounting position of a rear view mirror in an interior of a vehicle and displays an image taken by a camera mounted on the vehicle. The display device has a body case having an opening, and a display unit that is mounted in the body case. The display unit has a video display unit, and a half mirror. The video display unit has a display surface facing an opening of the body case. The half mirror is disposed closer to the opening of the body case than to the video display unit, and apart from the display surface. A gap between the half mirror and the video display unit is smaller at least at one of both ends of the half mirror in a horizontal direction than at a center of the half mirror. | ||||||
| 194 | System and method for dynamic in-vehicle virtual reality | US14291854 | 2014-05-30 | US09599819B2 | 2017-03-21 | Arthur Alaniz; Joseph Whinnery; Robert Wesley Murrish; Michael Eamonn Gleeson-May |
| A method for in-vehicle dynamic virtual reality includes receiving vehicle data from one or more vehicle systems of a vehicle, wherein the vehicle data includes vehicle dynamics data and receiving user data from a virtual reality device. The method includes generating a virtual view based on the vehicle data, the user data and a virtual world model, the virtual world model including one or more components that define the virtual view, wherein generating the virtual view includes augmenting one or more components of the virtual world model according to at least one of the vehicle data and the user data and rendering the virtual view to an output device by controlling the output device to update display of the virtual view according to the vehicle dynamics data. | ||||||
| 195 | SYSTEM AND METHOD FOR CALIBRATING ALIGNMENT OF A THREE-DIMENSIONAL DISPLAY WITHIN A VEHICLE | US15306514 | 2015-04-30 | US20170054970A1 | 2017-02-23 | Ankit Singh; Lawrence Robert Hamelink |
| A vehicle display assembly includes a three-dimensional (3D) display and a display control system configured to control a first output direction of a left-eye portion of an image and a second output direction of a right-eye portion of the image. In addition, the vehicle display assembly includes a camera assembly configured to monitor a position of a head of a vehicle occupant and a visual output of the 3D display. The vehicle display assembly further includes a 3D control system communicatively coupled to the camera assembly and to the display control system. The 3D control system is configured to determine an alignment calibration based on the position of the head of the vehicle occupant and the visual output, and to instruct the display control system to control the first and second output directions based on the position of the head of the vehicle occupant and the alignment calibration. | ||||||
| 196 | VEHICLE DISPLAY AND MIRROR | US14819559 | 2015-08-06 | US20170036599A1 | 2017-02-09 | Adil Nizam SIDDIQUI; Brad Alan IGNACZAK |
| A vehicle includes an interface and a controller. The interface is supported by a structural member of the vehicle and configured to display video output from a camera. The controller is configured to, in response to an error associated with the camera, move the interface to a predetermined position to change a field of view of a vicinity of the vehicle and reflected by the interface. | ||||||
| 197 | Visualizing specified safety-critical information in a vehicle | US14596545 | 2015-01-14 | US09485500B2 | 2016-11-01 | Dirk Kaule; Hans-Ulrich Michel |
| A method is provided for visualizing specified safety-critical information in a vehicle. First display data are (AD_1) are determined, which are representative of a first image (B1) to be visualized, which provides the specified safety-critical information in a specified first signalization form, the first display data (AD_1) being determined free of specified safety regulations. The first display data (AD_1) are sent to a display unit (DISP) of the vehicle and test data (DD) are read out, which are representative of an image visualized on the display unit (DISP). The test data (DD) are checked and, if the test data (DD) are representative of a faulty provision of the specified safety-critical information, second display data (AD_2) are sent to the display unit (DISP), which are representative of a second image (B2) to the visualized, which provides the specified safety critical information in a specified second signalization form, which differs from the first signalization form. The second display data (AD_2) are determined while complying with the specified safety regulations. | ||||||
| 198 | TRAILER HITCHING AID SYSTEM FOR VEHICLE | US15161707 | 2016-05-23 | US20160264052A1 | 2016-09-15 | Niall R. Lynam; John O. Lindahl |
| A tow hitching aid system for a vehicle having a hitching ball for connecting to a hitching receiver of a trailer includes a camera disposed at the vehicle and having a field of view that encompasses the hitching ball of the vehicle. The system also includes a plurality of distance measuring sensors disposed at the vehicle. A display screen is disposed in the vehicle and is viewable by a driver of the vehicle when the driver is normally operating the vehicle. A control receives input from the camera and input from the distance measuring sensors. During a tow hitching maneuver, the display screen displays video images captured by the camera, and at least one graphic overlay is superimposed over the displayed video images to assist the driver during the tow hitching maneuver to connect the hitching ball of the vehicle with the hitching receiver of the trailer. | ||||||
| 199 | Display device for vehicle | US14381469 | 2013-02-06 | US09373285B2 | 2016-06-21 | Makoto Hada |
| Provided is a display device for a vehicle such that the life of display elements can be made long even when used in a high temperature environment and, further, unpleasant sensations due to changes in brightness of display images can be prevented. A control unit (90) provides a display period (Fa) in which an illumination control unit (91) turns on light sources (11), and a display control unit (92) generates a display image (M) in display elements (30) within a frame (F) that constitutes the display image (M) on the basis of a display image signal and a non-display period (Fb) in which the illumination control unit (91) turns off all light sources (11). When the display control unit (92) changes the display period proportions (A) for mirrors (E) for the display elements (30) according to prescribed conditions, drive currents (I) and drive periods (H) for the light sources (11) are changed simultaneously such that brightness is not changed. | ||||||
| 200 | Capturing device, capturing system and capturing method | US14547198 | 2014-11-19 | US09215376B2 | 2015-12-15 | 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. | ||||||
QQ群二维码
意见反馈
意见反馈