Autonomous vehicles use various computing systems to transport passengers from one location to another. A control computer sends messages to the various systems of the vehicle in order to maneuver the vehicle safely to the destination. The control computer may display information on an electronic di
Autonomous vehicles use various computing systems to transport passengers from one location to another. A control computer sends messages to the various systems of the vehicle in order to maneuver the vehicle safely to the destination. The control computer may display information on an electronic display in order to allow the passenger to understand what actions the vehicle may be taking in the immediate future. Various icons and images may be used to provide this information to the passenger.
대표청구항▼
1. A method comprising: receiving location information of a vehicle from a geographic position component;accessing stored map information including information indicating locations and orientations of a first lane and a second lane;displaying an object indicating the location of the vehicle in the f
1. A method comprising: receiving location information of a vehicle from a geographic position component;accessing stored map information including information indicating locations and orientations of a first lane and a second lane;displaying an object indicating the location of the vehicle in the first lane based on the received location information and the stored map information;determining, by a processor of the vehicle, that the vehicle will change from the first lane to the second lane;prior to the vehicle physically changing from the first lane to the second lane, displaying on a display device of the vehicle a turning zone indicating a projected path of the vehicle; andwhen the processor determines that the vehicle will change from the first lane to the second lane, displaying on the display device of the vehicle a changing lane icon indicating that the vehicle is going to change lanes. 2. The method of claim 1, wherein the changing lane icon indicates that the vehicle is going to change from the first lane to the second lane. 3. The method of claim 1, wherein the changing lane icon is a turn signal icon. 4. The method of claim 1, wherein the changing lane icon identifies an area of the second lane that the vehicle is going to move into. 5. The method of claim 1, wherein the turning zone is displayed in a first way to indicate that the vehicle is waiting until it is safe to move from first lane to the second lane. 6. The method of claim 5, further comprising: changing the vehicle from the first lane to the second lane; andafter changing the vehicle from the first lane to the second lane, no longer displaying the turning zone on the display device. 7. The method of claim 1, further comprising: receiving destination information from a user input device of the vehicle;identifying a route to a destination based on the received location information and destination information;before the processor determines that the vehicle will change from the first lane to the second lane, displaying a first location of the route in the first lane;changing the vehicle from the first lane to the second lane; andafter changing the vehicle from the first lane to the second lane, adjusting the location of the route to the second lane. 8. The method of claim 1, further comprising continuing to display the changing lane icon until the vehicle has completely changed from the first lane to the second lane. 9. The method of claim 7, further comprising, after the vehicle has completely changed from the first lane to the second lane, fading the changing lane icon. 10. The device of claim 1, wherein the processor is further configured to continue to display the changing lane icon until the vehicle has completely changed from the first lane to the second lane. 11. The method of claim 10, wherein the processor is further configured to after the vehicle has completely changed from the first lane to the second lane, fade the changing lane icon. 12. A device comprising: memory storing map information including information indicating locations and orientations of a first lane and a second lane;a display device; anda processor configured to:access the memory;receive location information of a vehicle from a geographic position component;display on the display device an object indicating the location of a vehicle in the first lane based on the received location information and the stored map information;determine that the vehicle will change from the first lane to the second lane;prior to the vehicle physically changing from the first lane to the second lane, display on a display device of the vehicle a turning zone indicating a projected path of the vehicle; andwhen the processor determines that the vehicle will change from the first lane to the second lane, display on the display device a changing lane icon indicating that the vehicle is going to change lanes. 13. The device of claim 12, wherein the changing lane icon indicates that the vehicle is going to change to the second lane. 14. The device of claim 12, wherein the changing lane icon is a turn signal icon. 15. The device of claim 12, wherein the changing lane icon identifies an area of the second lane that the vehicle is going move into. 16. The device of claim 12, wherein the turning zone is displayed in a first way to indicate that the vehicle is waiting until it is safe to move from the first lane to the second lane. 17. The device of claim 16, wherein the processor is further configured to: change the vehicle from the first lane to the second lane; andafter changing the vehicle from the first lane to the second lane, no longer display the turning zone on the display device. 18. The device of claim 12, further comprising a user input device and wherein the processor is further configured to: receive destination information from the user input device of the vehicle;identify a route to the destination based on the received location information and destination information;before the processor determines that the vehicle will change from the first lane to the second lane, display a first location of the route in the first lane;change the vehicle from the first lane to the second lane; andafter changing the vehicle from the first lane to the second lane, adjust the location of the route to the second lane. 19. A non-transitory, tangible computer-readable storage medium on which computer readable instructions of a program are stored, the instructions, when executed by a processor, cause the processor to perform a method, the method comprising: receiving location information of a vehicle from a geographic position component;accessing stored map information including information indicating locations and orientations of a first lane and a second lane;displaying an object indicating the location of the vehicle in the first lane based on the received location information and the stored map information;determining that the vehicle will change from the first lane to the second lane;prior to the vehicle physically changing from the first lane to the second lane, displaying on a display device of the vehicle a turning zone indicating a projected path of the vehicle; andwhen the processor determines that the vehicle will change from the first lane to the second lane, displaying on the display device of the vehicle a changing lane icon indicating that the vehicle is going to change lanes.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (47)
Matsuura, Yoshio, Apparatus for and method of detecting object on road.
Trepagnier, Paul Gerard; Nagel, Jorge Emilio; Dooner, Matthew Taylor; Dewenter, Michael Thomas; Traft, Neil Michael; Drakunov, Sergey; Kinney, Powell; Lee, Aaron, Control and systems for autonomously driven vehicles.
Bhogal,Kulvir S.; Boss,Gregory J.; Hamilton, II,Rick A.; Polozoff,Alexandre, Method, system, and computer program product for determining and reporting tailgating incidents.
Bhogal,Kulvir S.; Boss,Gregory J.; Hamilton, II,Rick A.; Polozoff,Alexandre, Method, system, and computer program product for determining and reporting tailgating incidents.
Bhogal,Kulvir S.; Boss,Gregory J.; Hamilton, II,Rick A.; Polozoff,Alexandre, Method, system, and computer program product for determining and reporting tailgating incidents.
Trepagnier, Paul Gerard; Nagel, Jorge Emilio; Kinney, Powell McVay; Dooner, Matthew Taylor; Wilson, Bruce Mackie; Schneider, Jr., Carl Reimers; Goeller, Keith Brian, Navigation and control system for autonomous vehicles.
Rieth,Peter; B��hm,J��rgen; Linkenbach,Steffen; Hoffmann,Oliver; Nell,Joachim; Schirling,Andreas; Netz,Achim; Stauder,Peter; Kuhn,Matthias, Steering handle for motor vehicles and method for recording a physical parameter on a steering handle.
Gudat Adam J. ; Bradbury Walter J. ; Christensen Dana A. ; Kemner Carl A. ; Koehrsen Craig L. ; Kyrtsos Christos T. ; Lay Norman K. ; Peterson Joel L. ; Schmidt Larry E. ; Stafford Darrell E. ; Weinb, System and a method for enabling a vehicle to track a preset path.
Wilbrink,Tijs I.; Kelley,Edward E.; Walsh,William D., System and method for performing interventions in cars using communicated automotive information.
Norris, William Robert; Allard, James; Filippov, Mikhail O.; Haun, Robert Dale; Turner, Christopher David Glenn; Gilbertson, Seth; Norby, Andrew Julian, Systems and methods for switching between autonomous and manual operation of a vehicle.
Szybalski, Andrew; Gomez, Luis Ricardo Prada; Urmson, Christopher Paul; Thrun, Sebastian; Nemec, Philip, User interface for displaying internal state of autonomous driving system.
Szybalski, Andrew; Prada Gomez, Luis Ricardo; Urmson, Christopher Paul; Thrun, Sebastian; Nemec, Philip, User interface for displaying internal state of autonomous driving system.
Jenkins Gary Kim (Arlington TX) Evans Bruno Jack (Euless TX) Williams ; Jr. David Collis (Burleson TX) Bornowski Arthur Steven (Garland TX), Visual recognition system for LADAR sensors.
Rupp, Craig Eugene; Kull, A. Corbett S.; Mikelson, Christopher Sears; Dumstorff, Patrick Lee, Updating execution of tasks of an agricultural prescription.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.