IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0571977
(2004-09-05)
|
등록번호 |
US-7797107
(2010-10-04)
|
국제출원번호 |
PCT/IL2004/000853
(2004-09-05)
|
§371/§102 date |
20060814
(20060814)
|
국제공개번호 |
WO05/027076
(2005-03-24)
|
발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
7 |
초록
▼
Method for transmitting a warning signal to a driver of a driven vehicle regarding an impending collision with a moving and/or stationary object in the vicinity of the driven vehicle. The method comprises the following steps of providing the driven vehicle with means for obtaining updated data regar
Method for transmitting a warning signal to a driver of a driven vehicle regarding an impending collision with a moving and/or stationary object in the vicinity of the driven vehicle. The method comprises the following steps of providing the driven vehicle with means for obtaining updated data regarding, position, velocity vector and predicted moving path of the objects; selecting a series of one or more time horizons having decreasing or increasing duration; for the longest of the selected time horizons: generating a linear velocity object (LVO) and/or non-linear velocity object (NLVO) of each of the objects; selecting a sampling time interval Δt, during which an LVO and/or NLVO is generated; determining a range of feasible velocity vector changes for the driven vehicle that are attainable within a performance time interval ΔT; repeatedly providing the driver, after each Δt, with information regarding feasible velocity vector changes for the performance time interval; sensing, estimating or assuming dynamic changes parameters representing the movement of the driven vehicle within the performance time interval, and whenever required, generating a warning signal with an escalating severity level that reflects the relative imminence of collision with the objects and that corresponds to the longest time horizon; repeating the steps above, while each time generating an updated LVO and/or NLVO for a subsequent sampling time interval, until reaching another selected time horizon which is shorter than a previously selected time horizon and another selected time horizon, until collision is unavoidable.
대표청구항
▼
The invention claimed is: 1. Method for transmitting a warning signal to a driver of a driven vehicle regarding an impending collision with a moving and/or stationary object in the vicinity of said driven vehicle, comprising: a) providing said driven vehicle with means for obtaining updated data re
The invention claimed is: 1. Method for transmitting a warning signal to a driver of a driven vehicle regarding an impending collision with a moving and/or stationary object in the vicinity of said driven vehicle, comprising: a) providing said driven vehicle with means for obtaining updated data regarding, position, velocity vector and predicted moving path of each one of said moving and/or stationary objects in the vicinity of said driven vehicle; b) determining a series of one or more time horizons according to the characteristics of said vehicle and driver and the neighboring traffic; c) for a selected time horizon of said determined series of time horizons: c.1) generating a linear velocity obstacle (LVO) and/or non-linear velocity obstacle (NLVO) of each of said moving and/or stationary objects; c.2) selecting a sampling time interval Δt, during which an LVO and/or NLVO is generated; c.3) determining a range of feasible velocity vector changes for said driven vehicle that are attainable within a performance time interval ΔT; c.4) providing the driver, after said sampling time interval, with information regarding the optimal feasible velocity vector changes for said performance time interval; c.5) obtaining dynamic parameters representing the movement of said driven vehicle within said performance time interval, and calculating an updated velocity vector for said driven vehicle; c.6) generating a warning signal with the lowest severity level that reflects the relative imminence of collision with said moving and/or stationary objects in the vicinity of said driven vehicle and that corresponds to said selected time horizon whenever the updated velocity vector parameters reach at least one LVO or NLVO; d) repeating steps c.1) to c.6) above for a subsequent time horizon of said series of time horizons which is shorter than the previously selected time horizon and generating a warning signal of higher severity level; and e) repeating steps d) above for the remaining time horizons, of said series of time horizons. 2. Method according to claim 1, further comprising determining the time to collision when collision is unavoidable. 3. Method according to claim 1, wherein the velocity changes are changes in direction and/or absolute speed of the driven vehicle. 4. Method according to claim 1, wherein the range of feasible velocity changes that can be reached within a performance time interval are determined according to the performance capability of the driven vehicle. 5. Method for determining an optimal collision mitigating maneuver to be executed by a driver, comprising: a) providing a navigational system carried by a driven vehicle for sensing navigational conditions of said driven vehicle and of detected vehicles, for processing data associated with said sensed navigational conditions, and for transmitting information of interest to the driver associated with said processed data; b) generating, based on said processed data, a velocity obstacle corresponding to each of said detected vehicles, each of said generated velocity obstacles being representative of a set of possible velocity vectors associated with motion of said driven vehicle that would result in a collision with a corresponding detected vehicle; c) based on said velocity obstacle: c.1) determining possible driver initiated collision avoidance maneuvers to be executed along an unobstructed path corresponding to clearance in the vicinity of one or more of said velocity obstacles; c.2) determining that a collision between said driven vehicle and one of said detected vehicles is unavoidable once velocity obstacles completely obstruct all lanes in the vicinity of said detected vehicle, comparing, for different regions of each of said velocity obstacles, a predicted magnitude of impact for a collision between said driven vehicle and one of said detected vehicles, and determining an optimal collision mitigating maneuver whereby a selected velocity vector associated with motion of said driven vehicle is to be directed to a region of a velocity obstacle that would result in a collision between said driven vehicle and one of said detected vehicles having a lowest predicted magnitude of impact; and d) transmitting to the driver said determined optimal collision mitigating maneuver. 6. Method according to claim 5, further comprising, after step d), initiating a pre-crash mode whereby vehicular safety accessories are activated. 7. Method according to claim 6, wherein one or more airbags are inflated. 8. Method according to claim 7, wherein one or more airbags are inflated within the interior of the driven vehicle. 9. Method according to claim 7, wherein one or more airbags are inflated at the exterior of the driven vehicle. 10. Method according to claim 6, wherein a bumper is extended. 11. Method according to claim 5, wherein the velocity obstacle is an LVO. 12. Method according to claim 5, wherein the velocity obstacle is an NLVO. 13. Method according to claim 5, wherein step e) is performed by comparing the relative size of a velocity obstacle, a relatively large velocity obstacle indicating that the corresponding detected vehicle is substantially larger and more massive than the driven vehicle. 14. Method according to claim 5, wherein step e) is performed by comparing the relative depth of penetration of one velocity vector within the corresponding velocity obstacles. 15. Method according to claim 5, wherein step e) is performed by comparing the time to collision of the driven vehicle with each of the detected vehicles, a longer time to collision being indicative of a lower magnitude of impact. 16. Method according to claim 5, wherein an optimal collision mitigating maneuver is determined by— a) generating a velocity obstacle, with respect to the position of the driven vehicle, for each detected vehicle at an initial time of detection; b) generating a velocity frame delimiting the range of velocity vectors attainable by the driven vehicle in a performance time interval subsequent to the initial time; c) generating a set of velocity obstacles for each detected vehicle at each sampling time interval subsequent to the initial time, until the end of said performance time interval; d) superimposing said generated velocity frame on each of said sets, whereby to generate a composite representation; e) determining which of said generated composite representations includes a region of a velocity obstacle having a lowest predicted magnitude of impact; and f) determining an optimal collision mitigating maneuver by generating a velocity vector directed from the end of said velocity vector of the driven vehicle to said region having a lowest predicted magnitude of impact. 17. System for transmitting a warning signal to a driver of a driven vehicle regarding an impending collision with a detected vehicle in the vicinity of said driven vehicle, comprising: a) sensors for determining the navigational conditions of driven and detected vehicles; b) an on-board computer, programmed to perform the following operations: i. processing data associated with said sensed navigational conditions; ii. generating, based on said processed data, a velocity obstacle for each of said detected vehicles, each of said generated velocity obstacles being representative of a set of possible velocity vectors associated with motion of said driven vehicle that would result in a collision with a corresponding detected vehicle; iii. determining that a collision between said driven vehicle and one of said detected vehicles is unavoidable once velocity obstacles completely obstruct all lanes in the vicinity of said detected vehicle; and iv. transmitting a warning signal to the driver in an escalating degree of severity concerning the imminence of collision between said driven vehicle and one of said detected vehicles; v. determining an optimal collision mitigating maneuver; vi. transmitting said optimal collision mitigating maneuver; and c) a receiver and/or display for receiving said warning signal and said optimal collision mitigating maneuver. 18. System according to claim 17, further comprising at least one safety accessory for mitigating the impact of collision between the driven vehicle and a detected vehicle and means for activating said at least one safety accessory following transmission of said warning signal. 19. System according to claim 18, wherein at least one safety accessory is an airbag or an extendible bumper. 20. System according to claim 17, further comprising control components for temporarily controlling the operation of the driven vehicle during a slave mode, upon consent of the driver. 21. System according to claim 20, further comprising means for overriding the slave mode. 22. System according to claim 17, further comprising an indicator for alerting the driver when the driven vehicle is set in a slave mode. 23. System according to claim 17, further comprising a screen for displaying a clearance curve generated at an instantaneous sampling time interval and delimiting the boundary of safe states of the driven vehicle from states which result in an unavoidable collision, an instantaneous state of the driven vehicle with respect to the clearance curve being displayable by means of said screen.
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