IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0844500
(2010-07-27)
|
등록번호 |
US-8374431
(2013-02-12)
|
발명자
/ 주소 |
- Dow, James W.
- Rhodes, Michael D.
- Openshaw, William A.
- Dow, W. Scott
- Page, Alan R.
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
4 |
초록
▼
A method and system for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area. Waypoints are located to define a c
A method and system for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area. Waypoints are located to define a centerline and the boundary area to be analyzed. Vegetation coordinate points in the scene are determined from the digital image data. Ground coordinate points are determined from the digital image data. A clearance surface segment is constructed within the boundary area between the first and second object. The clearance surface is determined from the location of the first and second object and clearance criteria. The clearance surface is used to define a violation region.
대표청구항
▼
1. A method for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area, the method comprising: locating waypoints t
1. A method for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area, the method comprising: locating waypoints to define a centerline and the boundary area to be analyzed;determining vegetation coordinate points in the area from the digital image data via a controller;determining ground coordinate points from the digital image data via the controller;constructing a clearance surface segment within the boundary area between the first and second object, the clearance surface segment determined from the location of the first and second object and clearance criteria via the controller; andusing the clearance surface segment to define a violation region via the controller. 2. The method of claim 1, further comprising classifying each vegetation point as a violation or non-violation based on the clearance criteria. 3. The method of claim 1, wherein the constructed clearance surface segment is the solution of all 3D points that violate a plurality specified clearance criteria for a plurality of specific facility operating conditions. 4. The method of claim 2, wherein the clearance surface criteria includes radial criteria, NESC criteria, or constant slope criteria. 5. The method of claim 2, wherein the clearance surface segment is constructed for at least a selected one of a plurality of clearance criteria, a selected one of a plurality of facility operating conditions, or a selected one of a plurality of construction methods. 6. The method of claim 3, wherein the clearance surface segment for the span is a continuous surface constructed in a left border zone extension, a wire zone component, and a right border zone extension. 7. The method of claim 3, wherein the clearance surface segment for the span is extended beyond the corridor boundary to define taller clearance violations beyond the corridor boundary. 8. The method of claim 1, wherein the first and second objects are consecutive supporting structures forming a span, and wherein a clearance surface segment is constructed for another span of supporting structures along the centerline of the corridor in the boundary area. 9. The method of claim 8 wherein additional clearance surface segments are established for each span between the consecutive supports and the additional clearance surface segments are edge-matched at each supporting structure to ensure the continuation of the continuous clearance surface along the entire boundary area length. 10. The method of claim 8, wherein the clearance surface segments preserve the entire geometrical properties of operating facilities within the boundary area length, the geometric properties including structures, conductor catenary curves, and conductor attachment points. 11. The method of claim 1, further comprising converting the clearance surface segment into a data model representing the geometry of the boundary area and its operating facilities and solutions for possible clearance criteria violations, the data model including clearance surface segments, clearance surface analysis results, a GIS map of the corridor, and a digital terrain surface. 12. The method of claim 1, further comprising: storing the surface clearance segment as a segmented clearance surface for each span;storing the vegetation data as a segment for each span; andstoring the ground level data as a segment for each span. 13. The method of claim 12, further comprising loading the stored segment data into a portable handheld device for field inspection;determining the position of an observed object via a single laser shot from a laser range finder determining whether the observed object in the area is a violation. 14. The method of claim 1, wherein the clearance surface segment is adjusted to simulate vegetation growth. 15. A portable device for analyzing whether an object violates a clearance criteria in an area, the device comprising: a laser rangefinder that determines a position of the object relative to the portable device via a single laser shot at the object;a position data interface that determines a position of the portable device;a storage device storing clearance surface data including a map of the area having clearance surface boundaries;a controller to determine the position of the object based on the position of the portable device obtained from a data interface and the position of the object relative to the portable device obtained from the laser rangefinder, the controller determining whether the object violates clearance criteria. 16. The portable device of claim 15, further comprising a display coupled to the controller, the display displaying the position of the portable device, the position of the object and an indication of whether the object violates the clearance criteria. 17. The portable device of claim 15, further comprising a cellular communication transceiver. 18. The portable device of claim 17, wherein the cellular communication transceiver performs at least one of: a) receiving a positional data signal, the positional data signal used by the controller to determine the position of the object; or b) transmitting position data of the object. 19. The portable device of claim 15, further comprising a digital camera, the digital camera coupled to the storage device to store an image of the object. 20. The portable device of claim 15 further comprising a laser designator device for pointing out the object. 21. The portable device of claim 16 wherein the storage device is a data card having sufficient storage for data representing multiple objects within the area. 22. A method of determining whether an object in an area violates a clearance surface, the method comprising: loading a map of the area including clearance surface data on a mobile device;electronically determining a position of the mobile device;determining a position of the object via a single shot from a laser range finder to the object and the determined position of the mobile device; andcomparing the position of the object to the loaded map to determine whether the object is a violation of the clearance surface. 23. The method of claim 22, further comprising displaying the position of the mobile device, the position of the object and an indication of whether the object violates the clearance criteria on a display. 24. The method of claim 22, further comprising transmitting position data of the object. 25. The portable device of claim 22, further comprising capturing an image of the object and storing the image of the object on the mobile device. 26. A machine readable medium having stored thereon instructions for producing a clearance surface in a region having a first and second object in a right of way, comprising machine executable code which when executed by at least one machine, causes the machine to: retrieve digital image data taken from a three-dimensional topographic image of the region, the region including terrain, the right of way and the first and second objects;locate waypoints to define a centerline and a boundary area to be analyzed; determine vegetation coordinate points in the region from the digital image data; determine ground coordinate points from the digital image data; construct a clearance surface segment within the boundary area between the first and second object, the clearance surface determined from the location of the first and second object and clearance criteria; and use the clearance surface to define a violation region. 27. The machine readable medium of claim 26, wherein the machine executable code causes the machine to classify each vegetation point as a violation or non-violation based on the clearance criteria.
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