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公开(公告)号:US20170336794A1
公开(公告)日:2017-11-23
申请号:US15673343
申请日:2017-08-09
Applicant: MOBILEYE VISION TECHNOLOGIES LTD.
Inventor: Amnon Shashua , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
IPC: G05D1/00 , B62D15/02 , G01C21/14 , G05D1/02 , G08G1/0967 , G06K9/00 , G08G1/01 , G08G1/16 , G01C21/34
CPC classification number: G05D1/0088 , B60W30/14 , B60W30/18 , B60W2420/42 , B60W2550/22 , B60W2710/18 , B60W2710/20 , B60W2720/10 , B62D15/025 , G01C21/14 , G01C21/165 , G01C21/32 , G01C21/34 , G01C21/3407 , G01C21/3476 , G01C21/36 , G01C21/3602 , G01C21/3623 , G01C21/3644 , G01C21/3691 , G01S19/10 , G05D1/0212 , G05D1/0219 , G05D1/0221 , G05D1/0246 , G05D1/0251 , G05D1/0253 , G05D1/0278 , G05D1/0287 , G05D2201/0213 , G06F16/2379 , G06F16/29 , G06K9/00791 , G06K9/00798 , G06K9/00818 , G06K9/00825 , G06K9/3258 , G06T7/00 , G06T2207/20081 , G06T2207/30256 , G06T2207/30261 , G08G1/0112 , G08G1/09623 , G08G1/096725 , G08G1/096805 , G08G1/167 , H04L67/12
Abstract: Systems and methods navigate a vehicle on a road with snow covering at least some lane markings and road edges. In one implementation, a system may include at least one processor programmed to receive from an image capture device, at least one environmental image forward of the vehicle, including areas where snow covers at least some lane markings and road edges, identify, based on an analysis of the at least one image, at least a portion of the road that is covered with snow and probable locations for road edges bounding the at least a portion of the road that is covered with snow, and cause the vehicle to navigate a navigational path that includes the identified portion of the road and falls within the determined probable locations for the road edges.
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公开(公告)号:US20170336793A1
公开(公告)日:2017-11-23
申请号:US15673334
申请日:2017-08-09
Applicant: MOBILEYE VISION TECHNOLOGIES LTD.
Inventor: Amnon Shashua , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
CPC classification number: G05D1/0088 , B60W30/14 , B60W30/18 , B60W2420/42 , B60W2550/22 , B60W2710/18 , B60W2710/20 , B60W2720/10 , B62D15/025 , G01C21/14 , G01C21/165 , G01C21/32 , G01C21/34 , G01C21/3407 , G01C21/3476 , G01C21/36 , G01C21/3602 , G01C21/3623 , G01C21/3644 , G01C21/3691 , G01S19/10 , G05D1/0212 , G05D1/0219 , G05D1/0221 , G05D1/0246 , G05D1/0251 , G05D1/0253 , G05D1/0278 , G05D1/0287 , G05D2201/0213 , G06F16/2379 , G06F16/29 , G06K9/00791 , G06K9/00798 , G06K9/00818 , G06K9/00825 , G06K9/3258 , G06T7/00 , G06T2207/20081 , G06T2207/30256 , G06T2207/30261 , G08G1/0112 , G08G1/09623 , G08G1/096725 , G08G1/096805 , G08G1/167 , H04L67/12
Abstract: Systems and methods navigate a vehicle by determining a free space region in which the vehicle can travel. In one implementation, a system may include at least one processor programmed to receive from an image capture device, a plurality of images associated with the environment of a vehicle, analyze at least one of the plurality of images to identify a first free space boundary on a driver side of the vehicle and extending forward of the vehicle, a second free space boundary on a passenger side of the vehicle and extending forward of the vehicle, and a forward free space boundary forward of the vehicle and extending between the first free space boundary and the second free space boundary. The first free space boundary, the second free space boundary, and the forward free space boundary may define a free space region forward of the vehicle. The at least one processor of the system may be further programmed to determine a navigational path for the vehicle through the free space region and cause the vehicle to travel on at least a portion of the determined navigational path within the free space region forward of the vehicle.
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公开(公告)号:US09817399B2
公开(公告)日:2017-11-14
申请号:US15273060
申请日:2016-09-22
Applicant: Mobileye Vision Technologies Ltd.
Inventor: Daniel Braunstein , Yoram Gdalyahu , Sergey Rubinsky
IPC: B60T8/32 , G05D1/00 , G06F7/00 , G01C21/32 , G06F17/30 , B60W30/18 , G01C21/14 , G05D1/02 , G08G1/0967 , B62D15/02 , G08G1/0962 , G08G1/16 , G01C21/34 , G01C21/36 , G06K9/00 , G01C21/16 , G08G1/01 , B60W30/14 , G08G1/0968 , H04L29/08 , G06T7/00 , G01S19/10
CPC classification number: G05D1/0088 , B60W30/14 , B60W30/18 , B60W2420/42 , B60W2550/22 , B60W2710/18 , B60W2710/20 , B60W2720/10 , B62D15/025 , G01C21/14 , G01C21/165 , G01C21/32 , G01C21/34 , G01C21/3407 , G01C21/3476 , G01C21/36 , G01C21/3602 , G01C21/3623 , G01C21/3644 , G01C21/3691 , G01S19/10 , G05D1/0212 , G05D1/0219 , G05D1/0221 , G05D1/0246 , G05D1/0251 , G05D1/0253 , G05D1/0278 , G05D1/0287 , G05D2201/0213 , G06F17/30241 , G06F17/30377 , G06K9/00791 , G06K9/00798 , G06K9/00818 , G06K9/00825 , G06K9/3258 , G06T7/00 , G06T2207/20081 , G06T2207/30256 , G06T2207/30261 , G08G1/0112 , G08G1/09623 , G08G1/096725 , G08G1/096805 , G08G1/167 , H04L67/12
Abstract: Systems and methods may calibrate an indicator of speed of an autonomous vehicle. In one implementation, a system may include at least one processor programmed to: receive from a camera at least a plurality of images representative of an environment of the vehicle; analyze the plurality of images to identify at least two recognized landmarks; determine, based on known locations of the two recognized landmarks, a value indicative of a distance between the at least two recognized landmarks; determine, based on an output of at least one sensor associated with the autonomous vehicle, a measured distance between the at least two landmarks; determine a correction factor for the at least one sensor based on a comparison of the value indicative of the distance between the at least to recognized landmarks and the measured distance between the at least two landmarks.
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公开(公告)号:US09631936B2
公开(公告)日:2017-04-25
申请号:US15273047
申请日:2016-09-22
Applicant: Mobileye Vision Technologies Ltd.
Inventor: Amnon Shashua , Yoram Gdalyahu , Gaby Hayon
CPC classification number: G05D1/0088 , B60W30/14 , B60W30/18 , B60W2420/42 , B60W2550/22 , B60W2710/18 , B60W2710/20 , B60W2720/10 , B62D15/025 , G01C21/14 , G01C21/165 , G01C21/32 , G01C21/34 , G01C21/3407 , G01C21/3476 , G01C21/36 , G01C21/3602 , G01C21/3623 , G01C21/3644 , G01C21/3691 , G01S19/10 , G05D1/0212 , G05D1/0219 , G05D1/0221 , G05D1/0246 , G05D1/0251 , G05D1/0253 , G05D1/0278 , G05D1/0287 , G05D2201/0213 , G06F17/30241 , G06F17/30377 , G06K9/00791 , G06K9/00798 , G06K9/00818 , G06K9/00825 , G06K9/3258 , G06T7/00 , G06T2207/20081 , G06T2207/30256 , G06T2207/30261 , G08G1/0112 , G08G1/09623 , G08G1/096725 , G08G1/096805 , G08G1/167 , H04L67/12
Abstract: A system for autonomously navigating a vehicle is disclosed. The system may include at least one processor and the at least one processor may be programmed to receive from a rearward facing camera, at least one image representing an area at a rear of the vehicle and analyze the at least one rearward facing image to locate in the image a representation of at least one landmark. The at least one processor may be further programmed to determine at least one indicator of position of the landmark relative to the vehicle and determine a forward trajectory for the vehicle based, at least in part, upon the indicator of position of the landmark relative to the vehicle. Additionally, the at least one processor may be programmed to cause the vehicle to navigate along the determined forward trajectory.
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公开(公告)号:US20240255291A1
公开(公告)日:2024-08-01
申请号:US18626701
申请日:2024-04-04
Applicant: Mobileye Vision Technologies Ltd.
Inventor: Amnon Shashua , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
IPC: G01C21/32 , B60W30/14 , B60W30/18 , B60W60/00 , B62D15/02 , G01C21/00 , G01C21/14 , G01C21/16 , G01C21/34 , G01C21/36 , G01S19/10 , G06F16/23 , G06F16/29 , G06T7/00 , G06V20/56 , G06V20/58 , G06V20/62 , G08G1/01 , G08G1/0962 , G08G1/0967 , G08G1/0968 , G08G1/16 , H04L67/12
CPC classification number: G01C21/32 , B60W30/14 , B60W30/18 , B60W60/00274 , B62D15/025 , G01C21/14 , G01C21/1652 , G01C21/1656 , G01C21/34 , G01C21/3407 , G01C21/3476 , G01C21/36 , G01C21/3602 , G01C21/3623 , G01C21/3644 , G01C21/3691 , G01C21/3896 , G06F16/2379 , G06F16/29 , G06V20/56 , G06V20/582 , G06V20/584 , G06V20/588 , G06V20/63 , G08G1/0112 , G08G1/09623 , G08G1/096725 , G08G1/096805 , G08G1/167 , B60W2420/403 , B60W2420/408 , B60W2552/53 , B60W2555/60 , B60W2556/35 , B60W2710/18 , B60W2710/20 , B60W2720/10 , G01C21/3811 , G01C21/3819 , G01C21/3822 , G01S19/10 , G06T7/00 , G06T2207/20081 , G06T2207/30256 , G06T2207/30261 , H04L67/12
Abstract: A non-transitory computer-readable medium is provided. The computer-readable medium includes a sparse map for autonomous vehicle navigation along a road segment. The sparse map includes a polynomial representation of a target trajectory for the autonomous vehicle along the road segment, and a plurality of predetermined landmarks associated with the road segment. The sparse map has a data density of no more than 1 megabyte per kilometer.
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Patent Agency Ranking
公开(公告)号:US11960293B2
公开(公告)日:2024-04-16
申请号:US17824508
申请日:2022-05-25
Applicant: MOBILEYE VISION TECHNOLOGIES LTD.
Inventor: Dor Eagelberg , Gideon Stein , Yoav Taieb , Yoram Gdalyahu , Ofer Fridman
CPC classification number: G05D1/0246 , B60W30/09 , G01C21/34 , G05D1/0088 , G06V20/58 , G06V20/588 , G05D2201/0213 , G06N3/045
Abstract: Systems and methods are provided for navigating an autonomous vehicle. In one implementation, a system includes a processing device programmed to receive a plurality of images representative of an environment of the host vehicle. The environment includes a road on which the host vehicle is traveling. The at least one processing device is further programmed to analyze the images to identify a target vehicle traveling in a lane of the road different from a lane in which the host vehicle is traveling; analyze the images to identify a lane mark associated with the lane in which the target vehicle is traveling; detect lane mark characteristics of the identified lane mark; use the detected lane mark characteristics to determine a type of the identified lane mark; determine a characteristic of the target vehicle; and determine a navigational action for the host vehicle based on the determined lane mark type and the determined characteristic of the target vehicle.
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公开(公告)号:US11599113B2
公开(公告)日:2023-03-07
申请号:US16554437
申请日:2019-08-28
Applicant: Mobileye Vision Technologies Ltd.
Inventor: Amnon Shashua , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
IPC: G05D1/00 , G05D1/02 , G01C21/36 , G01C21/34 , G08G1/0968 , B60W30/14 , G08G1/01 , G08G1/16 , G08G1/0962 , B62D15/02 , G08G1/0967 , G01C21/14 , B60W30/18 , G06F16/23 , G06F16/29 , G06V20/56 , G06V20/62 , G06V20/58 , G01C21/16 , G01S19/10 , G06T7/00 , H04L67/12 , G01C21/00
Abstract: Systems and methods of processing crowdsourced navigation information for use in autonomous vehicle navigation are disclosed. A method may include processing, by a mapping server, crowdsourced navigation information from a plurality of vehicles obtained by sensors coupled to the plurality of vehicles, wherein the navigation information describes road lanes of a road segment; collecting data about landmarks identified proximate to the road segment, the landmarking including a traffic sign; generating, by the mapping server, an autonomous vehicle map for the road segment, wherein the autonomous vehicle map includes a spline corresponding to a lane in the road segment and the landmarks identified proximate to the road segment; and distributing, by the mapping server, the autonomous vehicle map to an autonomous vehicle for use in autonomous navigation over the road segment.
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公开(公告)号:US11378958B2
公开(公告)日:2022-07-05
申请号:US16806616
申请日:2020-03-02
Applicant: MOBILEYE VISION TECHNOLOGIES LTD.
Inventor: Amnon Shashua , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
IPC: G05D1/00 , G06F16/29 , G06F16/23 , G01C21/32 , G06V20/56 , G06V20/62 , G06V20/58 , B60W30/18 , G01C21/14 , G05D1/02 , G08G1/0967 , B62D15/02 , G08G1/0962 , G08G1/16 , G01C21/34 , G01C21/36 , G01C21/16 , G08G1/01 , B60W30/14 , G08G1/0968 , H04L67/12 , G06T7/00 , G01S19/10
Abstract: Systems and methods navigate a vehicle on a road at least partially covered with snow. In one implementation, a system may include at least one processor programmed to receive from an image capture device, a plurality of images captured of an environment forward of the vehicle, including an area where snow covers a road on which the vehicle travels, analyze at least one of the plurality of images to identify a first free space boundary on a first side of the vehicle and extending forward of the vehicle, a second free space boundary on a passenger side of the vehicle and extending forward of the vehicle, and a forward free space boundary forward of the vehicle and extending between the first free space boundary and the second free space boundary.
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公开(公告)号:US20220067209A1
公开(公告)日:2022-03-03
申请号:US17522512
申请日:2021-11-09
Applicant: Mobileye Vision Technologies Ltd.
Inventor: Kfir Viente , Eli Harel , Achiya Tal Tamir , Maxim Schwartz , Dori Shapira , Nimrod Nehushtan , Yoram Gdalyahu , Daniel Braustein
Abstract: Systems and methods are provided for collecting an nymized drive information. A processing device may be configured to receive outputs from one or more sensors; determine at least, one motion representation for the host vehicle based on the outputs; receive at least one image representative of an environment of the host vehicle; analyze the at least one image to determine at least one road characteristic associated with a road section; assemble first road segment information relative to a first portion of the road section, wherein the first portion of the road section is separated from a starting point associated with a route traveled by the host vehicle; assemble second road segment information relative to a second portion of the road section; and cause transmission of the first road segment information and the second road segment information to a server for assembly of an autonomous vehicle road navigation model.
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公开(公告)号:US20200326707A1
公开(公告)日:2020-10-15
申请号:US16913908
申请日:2020-06-26
Applicant: MOBILEYE VISION TECHNOLOGIES LTD.
Inventor: AMNON SHASHUA , Yoram Gdalyahu , Ofer Springer , Aran Reisman , Daniel Braunstein
IPC: G05D1/00 , G06F16/29 , G06F16/23 , G01C21/32 , G06K9/32 , B60W30/18 , G01C21/14 , G05D1/02 , G08G1/0967 , B62D15/02 , G08G1/0962 , G08G1/16 , G01C21/34 , G01C21/36 , G06K9/00 , G01C21/16 , G08G1/01 , B60W30/14 , G08G1/0968
Abstract: Systems and methods are provided for constructing, using, and updating the sparse map for autonomous vehicle navigation. In one implementation, a non-transitory computer-readable medium includes a sparse map for autonomous vehicle navigation along a road segment. The sparse map includes a polynomial representation of a target trajectory for the autonomous vehicle along the road segment and a plurality of predetermined landmarks associated with the road segment, wherein the plurality of predetermined landmarks are spaced apart by at least 50 meters. The sparse map has a data density of no more than 1 megabyte per kilometer.
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