Arrangement for collision prevention of mine vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08G-001/16
G06F-017/00
G05B-015/00
출원번호
UP-0550310
(2004-03-25)
등록번호
US-7603235
(2009-10-28)
우선권정보
FI-20030449(2003-03-25)
국제출원번호
PCT/FI04/000174
(2004-03-25)
§371/§102 date
20050922
(20050922)
국제공개번호
WO04/086084
(2004-10-07)
발명자
/ 주소
Mäkelä, Hannu
Von Numers, Thomas
출원인 / 주소
Sandvik Tamrock Oy
대리인 / 주소
Drinker Biddle & Reath LLP
인용정보
피인용 횟수 :
16인용 특허 :
18
초록▼
A mine vehicle and a method of preventing a mine vehicle from colliding. The mine vehicle (1) includes at least one scanner (13, 14) to scan the environment in front of the vehicle. On the basis of the scanning, an obstacle-free route is determined whose outermost points in a sideward direction are
A mine vehicle and a method of preventing a mine vehicle from colliding. The mine vehicle (1) includes at least one scanner (13, 14) to scan the environment in front of the vehicle. On the basis of the scanning, an obstacle-free route is determined whose outermost points in a sideward direction are stored as memory points (21). At least one sideward safe area (15b) has been predetermined around the vehicle (1). A control system checks that no memory point (21) resides within the safe area (15b).
대표청구항▼
The invention claimed is: 1. A method of preventing a mine vehicle from colliding, the mine vehicle comprising at least: a movable carrier that is driven in a first movement direction and in a second movement direction, at least one scanner, and a control system including at least a first control u
The invention claimed is: 1. A method of preventing a mine vehicle from colliding, the mine vehicle comprising at least: a movable carrier that is driven in a first movement direction and in a second movement direction, at least one scanner, and a control system including at least a first control unit arranged on the carrier; the method comprising: determining for the mine vehicle at least one safe area provided within an area between minimum distances and maximum distances determined with respect to the vehicle; scanning the environment in front of the vehicle when driving the vehicle in one movement direction; carrying out a first collision examination wherein the safe area in front of the vehicle is monitored, and issuing a collision warning message if an obstacle is detected within the safe area, determining also at least one sideward safe area for the vehicle, determining an obstacle-free route on the basis of the forward scanning results, and determining points in a sideward direction of the vehicle to restrict the route; forming memory points on the basis of coordinates of the points restricting the route, and storing the memory points in the control system, and carrying out a second collision examination wherein at least one sideward safe area of the vehicle is monitored, and issuing a collision warning message if even one of the memory points resides within the safe area being monitored. 2. A method as claimed in claim 1, comprising simulating in advance, on the basis of position and control data, the path of movement of at least one part of the vehicle in the control system, carrying out the second collision examination by taking into account the path of movement obtained by simulation, and adjusting, on the basis of the second collision examination, steering movements of the vehicle in order to avoid overstepping the sideward safe area. 3. A method as claimed in claim 1, comprising storing substantially continuously the memory points in a ring buffer provided in the control system, and updating for the second collision examination the memory points in a ring memory with respect to the movement of the vehicle. 4. A method as claimed in claim 1, comprising controlling the vehicle unmannedly, and utilizing for such control a data transmission connection provided between the first control unit residing on the carrier of the vehicle and a second, external control unit. 5. A method as claimed in claim 1, comprising updating dimensions of at least one safe area on the basis of the location of the mine vehicle. 6. A mine vehicle comprising at least: a movable carrier that is driven in a first movement direction and in a second movement direction, at least one scanner, a control system including at least a first control unit arranged on the carrier; and wherein at least one scanner is configured to scan the environment in front of the vehicle in order to detect obstacles; at least one safe area defined by minimum distances and maximum distances determined with respect to the vehicle is determined in the control system; and which control system is configured to monitor scanning results and to issue a collision warning message if an obstacle is detected within the safe area in front of the vehicle, and wherein in the control system, at least one safe area in a sideward direction of the vehicle is further determined, the control system allows several memory points including their position information to be stored therein the memory points defining sideward points of the route and based on the forward scanning results, and the control system is configured to monitor at least one sideward safe area of the vehicle and to issue a collision warning message if even one of the memory points resides within the safe area being monitored. 7. A mine vehicle as claimed in claim 6, wherein the mine vehicle comprises a first laser scanner directed in a first movement direction and a second laser scanner directed in a second movement direction, and wherein each movement direction is provided with a safe area of its own. 8. A mine vehicle as claimed in claim 6, wherein the minimum distances of the safe area are determined according to the external shape and structure of the mine vehicle. 9. A mine vehicle as claimed in claim 6, wherein the mine vehicle is unmanned, and wherein the first control unit is through a data transmission connection connected to a second, external control unit in order to transfer control data between the control units. 10. A mine vehicle as claimed in claim 6, wherein the control system is configured to update at least one safe area on the basis of the location of the mine vehicle. 11. A method of preventing a mine vehicle from colliding, the mine vehicle comprising at least: a movable carrier that is driven in a first movement direction and in a second movement direction, at least one scanner, and a control system including at least a first control unit arranged on the carrier; the method comprising: determining for the mine vehicle at least one safe area provided within an area between minimum distances and maximum distances determined with respect to the vehicle; scanning the environment in front of the vehicle when driving the vehicle in one movement direction; carrying out a first collision examination wherein the safe area in front of the vehicle is monitored, and issuing a collision warning message if an obstacle is detected within the safe area, determining also at least one sideward safe area for the vehicle, determining an obstacle-free route on the basis of the forward scanning results, and determining points in a sideward direction of the vehicle to restrict the route; forming memory points on the basis of coordinates of the points restricting the route, and storing the memory points in the control system, and carrying out a second collision examination wherein at least one sideward safe area of the vehicle is monitored, and issuing a collision warning message if even one of the memory points resides within the safe area being monitored, and wherein the mine vehicle is stopped when the collision warning message is issued. 12. A mine vehicle comprising at least: a movable carrier that is driven in a first movement direction and in a second movement direction, at least one scanner, a control system including at least a first control unit arranged on the carrier; and wherein at least one scanner is configured to scan the environment in front of the vehicle in order to detect obstacles; at least one safe area defined by minimum distances and maximum distances determined with respect to the vehicle is determined in the control system; and which control system is configured to monitor scanning results and to issue a collision warning message if an obstacle is detected within the safe area in front of the vehicle, and wherein in the control system, at least one safe area in a sideward direction of the vehicle is further determined, the control system allows several memory points including their position information to be stored therein the memory points defining sideward points of the route and based on the forward scanning results, and the control system is configured to monitor at least one sideward safe area of the vehicle and to issue a collision warning message and to stop the mine vehicle if even one of the memory points resides within the safe area being monitored.
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이 특허에 인용된 특허 (18)
Ishida Shinnosuke (Wako JPX) Hashimoto Kenshiro (Wako JPX), Anti-collision system for vehicles.
Gudat Adam J. ; Shin Dong Hun ; Whittaker William L. ; Kleimenhagen Karl W. ; Clow Richard G. ; Singh Sanjiv J. ; Christensen Dana A. ; Kemner Carl A. ; Bradbury Walter J. ; Koehrsen Craig L. ; Kyrts, Apparatus and method for autonomous vehicle navigation using absolute data.
Gbel Ewald (Karlsruhe DEX) Maurer Dieter (Karlsruhe DEX) Opitz Rigobert (Waldbronn DEX), Method of and a device for safeguarding a vehicle or machinery movable in space.
Watanabe Mutsumi (Kobe JPX) Onoguchi Kazunori (Kobe JPX) Kweon In S. (Seoul KRX), Running control system for mobile robot provided with multiple sensor information integration system.
Shaffer Gary K. (Butler PA) Whittaker William L. (Pittsburgh PA) West Jay H. (Pittsburgh PA) Clow Richard G. (Phoenix AZ) Singh Sanjiv J. (Pittsburgh PA) Lay Norman K. (Peoria IL) Devier Lonnie J. (P, System and method for detecting obstacles in the path of a vehicle.
Gunderson, Richard A.; Thiede, David; Parisi, Michael A.; Nelson, R. Jeffrey, System and method of providing scalable sensor systems based on stand alone sensor modules.
Hargrave, Jr., Brian K.; Flees, Mark M.; Gupta, Kamal Kishore; Reiland, Matthew J.; Koxlien, Steven; Taylor, Wesley P.; Munoz, Ryan A., Collision detection and mitigation systems and methods for a shovel.
Hargrave, Jr., Brian K.; Flees, Mark M.; Gupta, Kamal Kishore; Reiland, Matthew J.; Koxlien, Steven; Taylor, Wesley P.; Munoz, Ryan A., Collision detection and mitigation systems and methods for a shovel.
Tafazoli Bilandi, Shahram; Nabavi, Nima; Ohadi Esfahani, Arya; Bell, Ian Law, Method and apparatus for generating an indication of an object within an operating ambit of heavy loading equipment.
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