Method for searching return path of moving object for use in navigation system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-021/30
G01C-021/28
출원번호
US-0748217
(2003-12-31)
등록번호
US-7266448
(2007-09-04)
우선권정보
KR-10-2003-0000080(2003-01-02)
발명자
/ 주소
Park,Chang Won
Joe,Moon Jeung
출원인 / 주소
LG Electronics Inc.
대리인 / 주소
Birch, Stewart, Kolasch & Birch, LLP
인용정보
피인용 횟수 :
4인용 특허 :
6
초록▼
A navigation system of the present invention provides a user of a moving object with a return path on an original driving path when the moving object deviates from the original driving path. A method for searching the return path of the moving object for use in the navigation system comprises the st
A navigation system of the present invention provides a user of a moving object with a return path on an original driving path when the moving object deviates from the original driving path. A method for searching the return path of the moving object for use in the navigation system comprises the steps of: searching and storing an original driving path of the moving object, and guiding the moving object along the searched driving path; deciding whether the moving object is deviated from the driving path; when the moving object is deviated from the driving path, deciding a start point and return points for returning the moving object on the original driving path; after searching respective paths from the start point to the return points, deciding a shortest path as an optimum return path; and guiding the moving object to the original driving path along the decided return path.
대표청구항▼
What is claimed is: 1. A method for searching a return path of a moving object for use in a navigation system, the method comprising: searching and storing an original driving path of the moving object, and guiding the moving object along the searched driving path; deciding whether the moving objec
What is claimed is: 1. A method for searching a return path of a moving object for use in a navigation system, the method comprising: searching and storing an original driving path of the moving object, and guiding the moving object along the searched driving path; deciding whether the moving object is deviated from the driving path; deciding a start point and return points for returning the moving object on the original driving path, when the moving object is deviated from the driving path; deciding a shortest path as an optimum return path, after searching respective paths from the start point to the return points; and guiding the moving object to the original driving path along the decided return path, wherein the start point of the moving object on a deviated path is a present position of the moving object or a position that a user of the moving object inputs, and the return points include adjacent return points that are a fixed distance between points to to a position that corresponds to a deviation point used as a reference for the driving path of the moving object multiplied by a predetermined constant. 2. The method according to claim 1, wherein the return points of the moving object include at least one node existing on a path from the deviation point of the driving path to a destination. 3. The method according to claim 2, wherein the return points include a last deviation point from the driving path, a deviated distance from the deviation point, and at least one node existing on a digitized map, including at a distant position in a direction from the deviation point of the driving path to the destination by a predetermined multiple of the deviated distance. 4. The method according to claim 1, wherein the optimum return path is decided by searching and storing respective paths that connect the start point of the deviated moving object from the driving path to the return points existing on the driving path, and by deciding a shortest path as the optimum return path. 5. The method according to claim 1, wherein a search result of the return path is provided to the user of the moving object, and on the basis of distance and time information to return on the searched return path from a present position, the user decides a return path. 6. The method according to claim 1, wherein the return path of the moving object is greater than a deviated distance of the moving object, and less than a distance from the deviation point to a destination. 7. The method according to claim 1, searching the respective paths is performed by using GPS position data transmitted from a plurality of GPS satellites, and digitized map data. 8. The method according to claim 1, wherein the guidance of the moving object to the return path comprises: confirming whether the moving object is returning on the original driving path; and when the moving object returns on the original driving path, guiding the moving object to continue travel along the original driving path. 9. A navigation system, comprising: a GPS receiving means for receiving position data transmitted from a plurality of GPS satellites; a map data storing means for storing digital map data; a user input means; a display and a voice output means for providing a user of a moving object with a driving path; and a main control means for setting a driving path from a present position of the moving object to a destination on the basis of the GPS position data and the digital map data, storing the driving path, guiding the user to the driving path, and when the moving object is deviated from the driving path originally set, for searching and deciding a shortest optimum return path and guiding the user to the decided return path, wherein the return path is selected among return paths that respectively connects a last deviation point from the driving path due to deviation of the moving object to a set of return points that includes adjacent nodes positioned on the driving path, in which the nodes are distant from the deviation point by a predetermined distance and the main control means designates the start point of the moving object on the deviated path as a present position of the moving object or a position the user of the moving object inputs. 10. A navigation system, comprising: a GPS receiver configured to receive position data transmitted from a plurality of GPS satellites; a map data memory configured to store digital map data; a user input unit configured to receive user input; a display and a voice output unit configured to provide a user of a moving object with a driving path; and a main control processor configure to set a driving path from a present position of the moving object to a destination on the basis of the GPS position data and the digital map data, to store the driving path, to guide the user to the driving path, and when the moving object is deviated from the driving path originally set, to search and decide a shortest optimum return path and guiding the user to the decided return path, wherein the return path is selected among return paths that respectively connects a last deviation point from the driving path due to deviation of the moving object to a set of return points that include adjacent nodes positioned on the driving path, in which the nodes are distant from the deviation point by a predetermined distance and the main control processor designates the start point of the moving object on the deviated path as a present position of the moving object or a position the user of the moving object inputs.
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이 특허에 인용된 특허 (6)
Drury, Bob; Knockeart, Ronald P.; Rode, Melvin A.; Brown, Steven; Asher, Harry, Driver information system.
Rao Prithvi N. (Pittsburgh PA) Shin Dong Hun (Pittsburgh PA) Whittaker William L. (Pittsburgh PA) Kleimenhagen Karl W. (Peoria IL) Singh Sanjiv J. (Pittsburgh PA) Kemner Carl A. (Peoria Heights IL) B, System and method for enabling an autonomous vehicle to track a desired path.
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