Laser scanner system and registration method of point cloud data
First Claim
1. A laser scanner system comprising:
- a laser scanner which includes a distance measuring light emitting unit for emitting a distance measuring light, a distance measuring unit for receiving a reflection light from an object to be measured and performing a distance measurement, a scanning unit for rotatably irradiating said distance measuring light, a frame unit on which said scanning unit is provided and capable of rotating horizontally, a leveling unit for leveling said frame unit, a directional angle detecting unit for detecting an irradiating direction of said distance measuring light, a GNSS device, and a control arithmetic unit, wherein said laser scanner is installed at two points, and said frame unit is leveled by said leveling unit, and wherein said control arithmetic unit obtains global coordinates of installation positions of said laser scanner from said GNSS device respectively, scans said distance measuring light over a total circumference at each of the installation positions, acquires point cloud data of the total circumference, relatively rotates two point cloud data around a vertical axis as a center, performs a shape matching of said two point cloud data and combines said two point cloud data.
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Abstract
The invention provides a laser scanner system, which comprises a laser scanner which includes a distance measuring unit for receiving a reflection light of a distance measuring light from an object to be measured and performing a distance measurement, a scanning unit for rotatably irradiating the distance measuring light, a directional angle detecting unit for detecting an irradiating direction of the distance measuring light, a GNSS device, and a control arithmetic unit, wherein the laser scanner is installed at two points, and wherein the control arithmetic unit obtains global coordinates of installation positions of the laser scanner from the GNSS device respectively, scans the distance measuring light over a total circumference at each of the installation positions, acquires point cloud data of the total circumference, performs a shape matching of the two point cloud data and combines the two point cloud data.
18 Citations
9 Claims
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1. A laser scanner system comprising:
- a laser scanner which includes a distance measuring light emitting unit for emitting a distance measuring light, a distance measuring unit for receiving a reflection light from an object to be measured and performing a distance measurement, a scanning unit for rotatably irradiating said distance measuring light, a frame unit on which said scanning unit is provided and capable of rotating horizontally, a leveling unit for leveling said frame unit, a directional angle detecting unit for detecting an irradiating direction of said distance measuring light, a GNSS device, and a control arithmetic unit, wherein said laser scanner is installed at two points, and said frame unit is leveled by said leveling unit, and wherein said control arithmetic unit obtains global coordinates of installation positions of said laser scanner from said GNSS device respectively, scans said distance measuring light over a total circumference at each of the installation positions, acquires point cloud data of the total circumference, relatively rotates two point cloud data around a vertical axis as a center, performs a shape matching of said two point cloud data and combines said two point cloud data.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A registration method of point cloud data comprising:
- a step of installing a laser scanner including a GNSS device at two arbitrary points, a step of vertically leveling said laser scanner, a step of obtaining a global coordinate value of said laser scanner at said two points by said GNSS device, a step of acquiring point cloud data from said two points, respectively, a step of converting the point cloud data into a global coordinate system based on said global coordinate value, a step of relatively rotating said two point cloud data around a vertical axis as a center, performing a shape matching of said two point cloud data and combining said two point cloud data.
Specification