子分类:
- B60R2300/8006: ..用于监视和显示车辆内部场景的,例如用于监视乘客或货物
- B60R2300/802: ..用于监视和显示车辆外部盲点区域的
- B60R2300/8033: ..用于行人保护的
- B60R2300/804: ..用于监视道路的
- B60R2300/8046: ..用于代替后视镜系统的
- B60R2300/8053: ..用于不好的天气情况或夜视的
- B60R2300/806: ..用于辅助泊车的
- B60R2300/8066: ..用于监视后面的交通的
- B60R2300/8073: ..用于车辆安全的,例如监视停泊的车辆,探测盗贼
- B60R2300/808: ..用于帮助进入拖车的
- B60R2300/8086: ..用于车辆路线指示的
- B60R2300/8093: ..用于障碍报警的
| 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 | Vehicle vision system with enhanced display functions | US15681698 | 2017-08-21 | US10104298B2 | 2018-10-16 | Thomas Wierich |
| A vision system for a vehicle includes at least one image sensor, a control and a display. The image sensor is disposed at a subject vehicle and has a field of view exterior of the vehicle. The control, at least in part responsive to image processing of image data captured by the image sensor, is operable to generate an avatar representative of at least one object or scene segment in the field of view of the image sensor. The display is operable to display the avatar. The vision system may display an avatar that is a representation of an object that is only partially viewed by the image sensor to enhance the display for viewing and understanding by the driver of the subject vehicle, and a portion of the avatar representing the non-viewed portion of the object may be displayed in phantom. | ||||||
| 142 | Method for operating a display device for a vehicle | US15196913 | 2016-06-29 | US10102826B2 | 2018-10-16 | Stefan Bieger |
| A method includes: determining a glare effect in a first partial region of the first display device in which an item of information is represented as an image; sorting items of information according to relevance if a plurality of items of information is represented on the first display device; checking and establishing that a glare effect in a second partial region of the first display device or on a second display device is lower than the glare effect in the first partial region; checking and establishing that no item of information, or an item of information with lower relevance, is represented in the second partial region of the first display device or on the second display device; and representing the one item of information, or the one item of information with a higher relevance, in the second partial region of the first display device or on the second display device. | ||||||
| 143 | Camera module for automobile | US15526940 | 2015-11-11 | US10071696B2 | 2018-09-11 | Seung Ryong Park |
| An embodiment of a camera module comprises: a lens part; a housing for coupling the lens part; a plurality of substrates which are disposed at an interval from each other inside the housing; and an electromagnetic field shielding part, disposed inside the housing, for preventing the occurrence of external leakage of electromagnetic field from each of the substrates, wherein the electromagnetic field shielding part may comprise a coupling means for coupling the plurality of substrates at an interval from each other in the optical axial direction of the lens part. | ||||||
| 144 | VEHICLE EVENT PLAYBACK APPARATUS AND METHODS | US15969614 | 2018-05-02 | US20180247471A1 | 2018-08-30 | Jason Palmer; Slaven Sljivar |
| Vehicle event data playback systems described herein may provide users means for reviewing events recorded by a vehicle event recorder. Circumstances relating to vehicle operation may be visually presented in these playback systems. Video playback from multiple recording devices may be synchronized with each other and/or with information related to the operation of the vehicle during the recorded events to affect a presentation of information related to operation of the vehicle. A user may be presented with many data types in graphical and/or intuitive arrangements. | ||||||
| 145 | Convoy vehicle look-ahead | US14970939 | 2015-12-16 | US10062290B2 | 2018-08-28 | Alan George Dry |
| A computing device for a vehicle imaging system includes a data storage medium and a processing device programmed to execute computer-executable instructions stored on the data storage medium. The instructions include capturing an image of an area ahead of a host vehicle in a convoy with at least one other vehicle, wirelessly pairing with a mobile device associated with the at least one other vehicle, and presenting an image captured by the mobile device associated with the at least one other vehicle. | ||||||
| 146 | Image enhancements for vehicle imaging systems | US15169783 | 2016-06-01 | US10055649B2 | 2018-08-21 | Yoav Grauer; Eyal Levi; Ofer David |
| Systems and methods are provided, having sensing unit(s) configured to capture images of a surrounding of a vehicle, and a processing unit connected to a database which is configured to store imaging data relating to the surrounding of the vehicle together with metadata relating to capturing parameters of the stored imaging data. The processing unit enhances the captured images with stored imaging data according to a correspondence of metadata with vehicle situations, for example, according to a relation between capturing parameters of different sensing units. Sensing unit(s) may be gated infrared to indicate specified reflectivity parameters of regions in the captured images. Sensing unit(s) may comprise a controller applying changing patterned filters to the pixel array to enhance visibility and other image features. Multiple sensing units with gateable infrared sensors may communicate using modulated illumination spots. | ||||||
| 147 | System and method for controlling operation of machine | US14929964 | 2015-11-02 | US10041229B2 | 2018-08-07 | Zhijun Cai; Bradley K. Bomer; Jeffrey S. Alig; Aaron R. Shatters; Eric Cler; Brad R. Van De Veer; Thomas E. Beccue |
| A system for controlling an operation of a machine is disclosed. The system includes an image capturing device and a controller. The image capturing device generates a signal indicative of a surrounding area of the machine. The controller is in communication with the image capturing device. The controller determines a preceding work cycle of the machine comprising a dig segment and determines a preceding segment associated with the preceding work cycle to be a dump segment. The controller further identifies a work aggregate within the surrounding area of the machine, when the preceding segment of the preceding work cycle is the dump segment. Further, the controller determines a distance between an implement of the machine and the work aggregate and issues a shift request to downshift a gear drive of a transmission system of the machine, if the distance is less than a predefined distance. | ||||||
| 148 | ELECTRONIC DEVICE AND METHOD FOR PROVIDING TRAVEL INFORMATION | US15920756 | 2018-03-14 | US20180202828A1 | 2018-07-19 | Gabriel ALBEROLA; Olivier BOURBONNAIS; Maxime COUTURIER; Xavier PEICH |
| An electronic device and a method are described. The electronic device is adapted to be installed on a handlebar of a vehicle, the electronic device comprising: a processor; a communication module; a display comprising a halo-shaped display; a memory for storing therein executable instructions, the instructions upon being processed by the processor, causing the electronic device to: receive, via the communication module, navigational data from a mobile device, the navigational data being associated with a circular visual signal indication, the circular visual signal indication being indicative of at least one of (i) an upcoming directional instruction and (ii) a distance between a current location and an upcoming location associated with the upcoming directional instruction; and, cause to display, on the halo-shaped display, of the circular visual signal indication. | ||||||
| 149 | System and method for transmitting camera-based parameters without a dedicated back channel | US15124496 | 2015-03-09 | US10027904B2 | 2018-07-17 | Patrick Graf; Jeffrey A. Bochenek; Greg Sypitkowski |
| A vehicle system and method for transmitting camera-based parameters and video data includes a video camera disposed on a vehicle for viewing an exterior region. The video camera includes an image sensor for generating a video data stream from an exterior region of the vehicle, a controller for providing camera-based parameters, and an image signal processor. The image signal processor is configured to receive the video stream from the image sensor, receive camera-based parameters from the controller, transfer the camera-based parameters onto the video stream, and output an analog signal that includes the video stream and the camera-based parameters. An electronic control unit receives the analog signal, retrieves the camera-based parameters from the analog signal. A vehicle display receives and displays the video stream. | ||||||
| 150 | Driver assistance system for vehicle | US14942088 | 2015-11-16 | US10005394B2 | 2018-06-26 | Michael J. Higgins-Luthman |
| A driver assistance system for a vehicle includes a camera that, when disposed at the vehicle, views through a windshield of the vehicle. The camera is disposed at a windshield electronics module attached at the windshield of the vehicle. The camera captures image data of a scene forward of the vehicle. A control includes an image processor that processes captured image data. The control, responsive to the image processor processing captured image data, detects an object of interest external to the vehicle. The control utilizes a blockage detection algorithm and, responsive to the image processor processing captured image data, is operable to detect at least a partial blocking condition at the camera. | ||||||
| 151 | IMAGE DISPLAY APPARATUS FOR SHOVEL | US15899761 | 2018-02-20 | US20180171596A1 | 2018-06-21 | Shipeng LI |
| An image display apparatus for a shovel that includes a lower-part traveling body, an upper-part turning body turnably placed on the lower-part traveling body, and an attachment mounted on the upper-part turning body, and performs work in a work area by driving the attachment, includes an image display part configured to display the work area to be subjected to the work. An image of the work area captured with an image capturing device is subjected to image processing to add and indicate a distribution of depressions and elevations of the work area, and is displayed on the image display part. | ||||||
| 152 | VEHICLE ENVIRONMENT IMAGING SYSTEMS AND METHODS | US15366948 | 2016-12-01 | US20180157267A1 | 2018-06-07 | Xiujie GAO; Jinsong WANG; Wende ZHANG; Paul E. KRAJEWSKI; Nancy L. JOHNSON; Timothy J. Canner; Donald K. GRIMM |
| A vehicle includes at least one image capture device and a user display configured to display images receive from the at least one image capture device. The vehicle also includes a controller programmed to generate a user prompt to set a home vehicle position in response the vehicle entering a first parked state. The controller is also programmed to store at least one reference image indicative of an area in a vicinity of the vehicle corresponding to the home vehicle position. The controller is further programmed to collect a current image corresponding to a current vehicle position in response to a subsequent approach toward the vicinity, and compare the current image to the reference image. The controller is further programmed to generate a user display depicting the vicinity, the current vehicle position, and the home vehicle position. | ||||||
| 153 | DISPLAY APPARATUS FOR A VEHICLE | US15730170 | 2017-10-11 | US20180157034A1 | 2018-06-07 | Masashi KAWAMOTO; Takayuki AOKI |
| A display apparatus for a vehicle is provided with a display unit and a display position control unit. The display unit is capable of displaying information at plural different display positions. In an autonomous driving state of the vehicle, the display position control unit detects a position of a steering wheel and an eye position of a driver. When the display position control unit determines that information displayed by the display unit is obscured by the steering wheel as seen by the driver, the display position control unit causes the information to be displayed at a display position that is visible to the driver. | ||||||
| 154 | METHOD AND DEVICE FOR DISPLAYING AN IMAGE OF THE SURROUNDINGS OF A VEHICLE COMBINATION | US15876581 | 2018-01-22 | US20180141496A1 | 2018-05-24 | Felix Loehr; Joerg Schrepfer |
| The invention relates to a method and a device for displaying an image of the surroundings of a combination of two vehicles that are coupled to one another. According to the invention, image data is sensed by sensors on both of the combined vehicles. Taking into account the three-dimensional position of the vehicles relative to one another, the image data is then combined so as to obtain a common image of the surroundings. The obtained common image of the surroundings allows a driver/operator to efficiently and safely perceive the surroundings around the entire vehicle combination. | ||||||
| 155 | CONTROL SYSTEM FOR WORK VEHICLE, CONTROL METHOD THEREOF, AND METHOD OF CONTROLLING WORK VEHICLE | US15563972 | 2016-07-19 | US20180135277A1 | 2018-05-17 | Hideki TSUJI |
| A control system for a work vehicle includes a position determination unit which determines a position of loading on a loaded vehicle based on a state of loading on the loaded vehicle, a display, and a representation control unit which has the display show loading guidance corresponding to the position of loading determined by the position determination unit for a laterally viewed loaded vehicle. | ||||||
| 156 | Vehicle Camera System | US15809850 | 2017-11-10 | US20180084184A1 | 2018-03-22 | Wilfred Charles Boudreau; Michael E. Williams; Brian Neal Hosler; Jonathan Charles Levell |
| A vehicle camera system and method for operating a vehicle camera system comprising a vehicle camera with communication capabilities. The vehicle camera operating in conjunction with other components to provide information to users. The vehicle camera system compiles information from multiple components into a single repository of video recordings with information, such as location information, vehicle status and diagnostic information, alert information and other information. | ||||||
| 157 | VIRTUAL PANORAMIC ROOF OR SUNROOF ASSEMBLY | US15783681 | 2017-10-13 | US20180050636A1 | 2018-02-22 | Serle ESPIG |
| A virtual panoramic roof or sunroof for a motor vehicle (100), the roof being capable of realistically reproducing or adapting the outside world. The roof offers many advantages, such as a reduction in driving noise and a decrease in fuel consumption of the motor vehicle (100) compared to conventional sunroofs. The assembly comprises at least one sensor device (102), in particular an image-capture device for recording the surroundings of the motor vehicle (100), and at least one reproduction device, disposed on an inner face of the roof (101), for reproducing a virtual representation of the surroundings captured by the sensor device. | ||||||
| 158 | Vision-based indicator signal detection using spatiotemporal filtering | US15331079 | 2016-10-21 | US09892327B2 | 2018-02-13 | Abhijit Ogale; Dave Ferguson |
| An autonomous vehicle is configured to detect an active turn signal indicator on another vehicle. An image-capture device of the autonomous vehicle captures an image of a field of view of the autonomous vehicle. The autonomous vehicle captures the image with a short exposure to emphasize objects having brightness above a threshold. Additionally, a bounding area for a second vehicle located within the image is determined. The autonomous vehicle identifies a group of pixels within the bounding area based on a first color of the group of pixels. The autonomous vehicle also calculates an oscillation of an intensity of the group of pixels. Based on the oscillation of the intensity, the autonomous vehicle determines a likelihood that the second vehicle has a first active turn signal. Additionally, the autonomous vehicle is controlled based at least on the likelihood that the second vehicle has a first active turn signal. | ||||||
| 159 | VEHICLE ACCESSIBILITY DETERMINATION DEVICE | US15548930 | 2016-01-06 | US20180032823A1 | 2018-02-01 | Yuta OHIZUMI |
| An image convertor converts an original image captured by a front camera. The original image includes a road surface around a vehicle. A three-dimensional object detector detects from a virtual image a three-dimensional object having a height from the road surface. A vehicle accessibility determiner determines whether the vehicle can access to the inside of the detected three-dimensional object or to a clearance among other three-dimensional objects. | ||||||
| 160 | WORK VEHICLE AND IMAGE DISPLAYING METHOD FOR WORK VEHICLE | US15385753 | 2016-12-20 | US20180027179A1 | 2018-01-25 | Yushi MATSUZAKI; Yoshitomo FUJIMOTO |
| A work vehicle includes circuitry configured to determine a focused area based on signals detected by work and travel situation detection sensors. The circuitry is configured to determine a prioritized display image among images captured by cameras, the prioritized display image including the focused area. The circuitry is configured to compose the images captured by the cameras by view-point converting the images to generate an overhead image around the vehicle body. The circuitry is configured to generate at least one monitor display image including a first display area in which the overhead image is displayed and a second display area in which the prioritized display image is displayed. | ||||||
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