An automatic brake system for a vehicle is disclosed. Based on a possibility that a potential collision with an obstacle preceding the vehicle can avoided by braking, and a possibility that the potential collision can be avoided by steering, the system automatically controls a braking operation for
An automatic brake system for a vehicle is disclosed. Based on a possibility that a potential collision with an obstacle preceding the vehicle can avoided by braking, and a possibility that the potential collision can be avoided by steering, the system automatically controls a braking operation for collision-avoidance. A condition of starting the automatic braking operation and a characteristics of the operation are determined based on calculation or estimation of a condition of the path where the vehicle is traveling, such as a relative speed, widths of spaces on sides of the obstacle, and steering characteristics.
대표청구항▼
What is claimed is: 1. An automatic brake system for a vehicle comprising: a forward-monitoring unit that automatically detects an obstacle preceding the vehicle; and a control unit that varies an assumed characteristic of manual steering operation in accordance with a condition of a path where the
What is claimed is: 1. An automatic brake system for a vehicle comprising: a forward-monitoring unit that automatically detects an obstacle preceding the vehicle; and a control unit that varies an assumed characteristic of manual steering operation in accordance with a condition of a path where the vehicle is traveling and executes an automatic braking control operation to avoid a potential collision with the obstacle, based on the assumed manual steering operation characteristic, wherein the assumed manual steering operation characteristic that is varied comprises at least one of a maximum steering angle and a steering speed. 2. The automatic brake system as claimed in claim 1, wherein: the control unit comprises: a steering characteristic determining unit that determines the assumed manual steering operation characteristic; a steering-based avoidance determining unit that determines a possibility that the vehicle can avoid the potential collision with the obstacle by steering, passing on either side of left and right sides of the obstacle, based on the assumed manual steering operation characteristic determined by the steering characteristic determining unit; a brake-based avoidance determining unit that determines a possibility that the vehicle can avoid the potential collision with the obstacle by braking; and an automatic brake control determining unit that executes the automatic braking control operation to avoid the potential collision with the obstacle, based on the possibility determined by the steering-based avoidance determining unit and the possibility determined by the brake-based avoidance determining unit. 3. The automatic brake system as claimed in claim 2, wherein: the control unit further comprises an avoidance space width detecting unit that detects widths of spaces on the sides of the obstacle; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle. 4. The automatic brake system as claimed in claim 3, wherein: the control unit further comprises a steering-based avoidance easiness determining unit that determines a degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle and a width of the vehicle; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the degree of easiness. 5. The automatic brake system as claimed in claim 2, wherein: the control unit further comprises a lateral displacement calculating unit that determines a lateral displacement required for a steering-based collision avoidance to each of the sides of the obstacle, based on the condition of the path where the vehicle is traveling detected by the forward-monitoring unit; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the lateral displacements determined by the lateral displacement calculating unit. 6. The automatic brake system as claimed in claim 5, wherein: the control unit further comprises: an avoidance space width detecting unit that detects widths of spaces on the sides of the obstacle; and a steering-based avoidance easiness determining unit that determines a degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle and a width of the vehicle; the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering determined by the steering-based avoidance easiness determining unit; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the lateral displacements determined by the lateral displacement calculating unit, only when the possibility that the vehicle can avoid the potential collision with the obstacle by steering determined by the steering-based avoidance determining unit is positive for both sides of the obstacle. 7. The automatic brake system as claimed in claim 6, wherein: the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, only for a side of the obstacle where the lateral displacement determined by the lateral displacement calculating unit is smaller than on another side. 8. An automatic brake system for a vehicle comprising: forward-monitoring means for automatically detecting an obstacle preceding the vehicle; and control means for varying an assumed characteristic of manual steering operation in accordance with a condition of a path where the vehicle is traveling and executing an automatic braking control operation to avoid a potential collision with the obstacle, based on the assumed manual steering operation characteristic, wherein the assumed manual steering operation characteristic that is varied comprises at least one of a maximum steering angle and a steering speed. 9. An automatic brake system for a vehicle comprising: a forward-monitoring unit that automatically detects an obstacle preceding the vehicle, and a geometrical relationship among the vehicle, the obstacle and a path where the vehicle is traveling; a control unit that varies an assumed characteristic of manual steering operation in accordance with a condition of the path where the vehicle is traveling and executes an automatic braking control operation to avoid a potential collision with the obstacle, based on the assumed manual steering operation characteristic and the geometrical relationship; and a brake control unit that generates a braking force according to the automatic braking control operation determined by the control unit, wherein the assumed manual steering operation characteristic that is varied comprises at least one of a maximum steering angle and a steering speed. 10. The automatic brake system as claimed in claim 9, wherein: the control unit comprises a steering characteristic determining unit that determines the assumed manual steering operation characteristic, based on a degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering. 11. The automatic brake system as claimed in claim 10, wherein: the steering characteristic determining unit determines the assumed manual steering operation characteristic in which the maximum steering angle is larger and the steering speed is faster, when the degree of easiness is higher; and the steering characteristic determining unit determines the assumed manual steering operation characteristic in which the maximum steering angle is smaller and the steering speed is slower, when the degree of easiness is lower. 12. The automatic brake system as claimed in claim 10, wherein: the control unit further comprises a steering-based avoidance easiness determining unit that determines the degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering, based on widths of spaces on sides of the obstacle and a width of the vehicle. 13. The automatic brake system as claimed in claim 9, wherein: the control unit comprises: a steering characteristic determining unit that determines the assumed manual steering operation characteristic; a steering-based avoidance determining unit that determines a possibility that the vehicle can avoid the potential collision with the obstacle by steering, passing on sides of the obstacle, based on the assumed manual steering operation characteristic determined by the steering characteristic determining unit; and an automatic brake control determining unit that determines the automatic braking control operation to avoid the potential collision with the obstacle, based on the possibility determined by the steering-based avoidance determining unit. 14. The automatic brake system as claimed in claim 9, wherein: the control unit comprises: a steering characteristic determining unit that determines the assumed manual steering operation characteristic; a steering-based avoidance determining unit that determines a possibility that the vehicle can avoid the potential collision with the obstacle by steering, passing on either one of left and right sides of the obstacle, based on the assumed manual steering operation characteristic determined by the steering characteristic determining unit; a brake-based avoidance determining unit that determines a possibility that the vehicle can avoid the potential collision with the obstacle by braking, based on the geometrical relationship; and an automatic brake control determining unit that determines the automatic braking control operation to avoid the potential collision with the obstacle, based on the possibility determined by the steering-based avoidance determining unit and the possibility determined by the brake-based avoidance determining unit. 15. The automatic brake system as claimed in claim 14, wherein: the automatic brake control determining unit determines to operate the braking force when the possibility determined by the steering-based avoidance determining unit and the possibility determined by the brake-based avoidance determining unit are both positive. 16. The automatic brake system as claimed in claim 14, wherein: the control unit further comprises an avoidance space width detecting unit that detects widths of spaces on the sides of the obstacle; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle. 17. The automatic brake system as claimed in claim 16, wherein: the control unit further comprises a steering-based avoidance easiness determining unit that determines a degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle and a width of the vehicle; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the degree of easiness. 18. The automatic brake system as claimed in claim 14, wherein: the control unit further comprises a lateral displacement calculating unit that determines a lateral displacement required for a steering-based collision avoidance to each of the sides of the obstacle, based on the condition of the path where the vehicle is traveling detected by the forward-monitoring unit; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the lateral displacements determined by the lateral displacement calculating unit. 19. The automatic brake system as claimed in claim 18, wherein: the control unit further comprises: an avoidance space width detecting unit that detects widths of spaces on the sides of the obstacle; and a steering-based avoidance easiness determining unit that determines a degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering, based on the widths of the spaces on the sides of the obstacle and a width of the vehicle; the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the degree of easiness with which the vehicle can avoid the potential collision with the obstacle by steering determined by the steering-based avoidance easiness determining unit; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the lateral displacements determined by the lateral displacement calculating unit, only when the possibility that the vehicle can avoid the potential collision with the obstacle by steering determined by the steering-based avoidance determining unit is positive for both sides of the obstacle. 20. The automatic brake system as claimed in claim 19, wherein: the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, only for a side of the obstacle where the lateral displacement determined by the lateral displacement calculating unit is smaller than on another side. 21. The automatic brake system as claimed in claim 14, wherein: the control unit further comprises a lateral displacement calculating unit that determines a lateral displacement required for a steering-based collision avoidance to each side of the obstacle, based on the condition of the path where the vehicle is traveling detected by the forward-monitoring unit; the steering-based avoidance determining unit determines a required time for the lateral displacement, based on the condition of the path where the vehicle is traveling detected by the forward-monitoring unit; and the steering-based avoidance determining unit determines the possibility that the vehicle can avoid the potential collision with the obstacle by steering, based on the required time for the lateral displacement, a longitudinal distance between the vehicle and the obstacle, and a relative speed of the vehicle to the obstacle.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (10)
Dudeck, Ingo; Freitag, Rainer; Kurz, Gerhard; Lauer, Wofgang; Roehrig-Gericke, Thomas; Schoeb, Reinhold; Troester, Harry; Yap, Andy; Zimmer, Richard, Automatic brake and steering system and method for a vehicle.
Hrovat Davorin D. (Dearborn MI) Tran Minh N. (Dearborn MI), Method for controlling yaw of a wheeled vehicle based on under-steer and over-steer containment routines.
Hibino Katsuhiko (Toyoake JPX) Kurahashi Akira (Aichi JPX) Hashimoto Mitsufumi (Shizuoka JPX), System for distinguishing a vehicle traveling ahead based on an adjustable probability distribution.
Shaw David C. H. (3312 E. Mandeville Pl. Orange CA 92667) Shaw Judy Z. Z. (3312 E. Mandeville Pl. Orange CA 92667), Vehicle collision avoidance system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.