The Z+F PROFILER® 9012 has a vertical 360° field-of-view and is the fastest profile imaging 2D laser measurement system in its class. With its scan rate of more than 1 million points per second and a maximum scanning speed of 200 profiles/sec. short distances between the profiles can be achieved even at high speeds of the carrier vehicle. Because of the high point density, even small objects are registered and processed by the software. Because the laser measurement system corresponds to laser class 1, the scanner can be used in urban environments without any restriction. A hardware-assisted pixel-by-pixel synchronization makes it possible to process signals form external devices. As a result, the position and orientation of the scan data can be determined.
Germany
The Z+F PROFILER® 9020 and 9020-2 is a highly efficient 2D laser scanner for mobile mapping applications. The rotation speed of the Z+F PROFILER® 9020 is 267 Hz or 16,020 rpm max.. It measures up to 182 m and has a very high data quality. For data capturing in close range, it is equipped with special optics. Compared to previous models, it has an internal reference plate, a very low power consumption, very fast startup time and over 50% reduced weight and size. A new, very powerful laser technology and further developed algorithms ensures highly accurate measurement results on rails, roads, street signs and other traffic control systems such as traffic lights. Technical highlights: 267 profiles/sec. P9020: 1.094 million points/sec. P9020-2: 2.188 million points/sec. 0.2 mm accuracy 182 m range 360° field of view The Z+F PROFILER® 9020 and 9020-2 can be flexibly integrated into different MMS
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The Z+F PROFILER® 9020C is the world's first mobile 2D laser scanner with integrated cameras. Generate colored point clouds without external cameras The P9020C has four integrated cameras, each with 5 MPx, which cover the entire 360° scanning area as of a distance of 40 cm. The recordings have high color fidelity and a high dynamic range. Significant differences in light conditions are compensated in such a way that the processing of the images afterwards takes short time or is completely eliminated. Shaded or overexposed areas can hardly be seen in the colored 3D representations. Less cabling and connection effort - only one USB 3 cable required The P9020C's built-in cameras allow for quick installation. Only a USB 3 cable is required for the transmission and control of the system components. Fewer cables also mean less susceptibility to errors and, conversely, more security when collecting data.
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The Z+F PROFILER® 9012 A has a vertical 360° field-of-view and is the fastest profile imaging 2D laser measurement system in its class. With its scan rate of more than 1 million points per second and a maximum scanning speed of 200 profiles/sec. short distances between the profiles can be achieved even at high speeds of the carrier vehicle. Because of the high point density, even small objects are registered and processed by the software. Because the laser measurement system corresponds to laser class 1, the scanner can be used in urban environments without any restriction. A hardware-assisted pixel-by-pixel synchronization makes it possible to process signals form external devices. As a result, the position and orientation of the scan data can be determined.
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The Z+F PROFILER® 9012 M has a vertical 360° field-of-view and is the fastest profile imaging 2D laser measurement system in its class. With its scan rate of more than 1 million points per second and a maximum scanning speed of 200 profiles/sec. short distances between the profiles can be achieved even at high speeds of the carrier vehicle. Because of the high point density, even small objects are registered and processed by the software. Because the laser measurement system corresponds to laser class 1, the scanner can be used in urban environments without any restriction.A hardware-assisted pixel-by-pixel synchronization makes it possible to process signals form external devices. As a result, the position and orientation of the scan data can be determined.
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