SoyMap--High Quality Handheld Rotary 3D LiDAR Scanner
SoyMap Description
The SoyMap is a handheld rotary 3D LiDAR scanner equipped with the Ouster128-line LiDAR.Based on the Rotational SLAM technology, it actively detect the scanned environment, completes environmental perception and modeling, and generate high-precision 3D point cloud maps. Using devices such as tablets in combination with the client software 3D Viewer, users can connect to the scanning devices via wireless networks for operation and control.It can be used for detection in various fields such as geological terrain,construction engineering, agricultural and forestry monitoring,scientific research, and education.
Characteristics
Based on rotational 3D SLAM algorithm,the product doesn’t rely on GNSS
The SoyMap has a strong ability to acquire spatial information. It can obtain information from a large viewing angle of 360°×270°, meeting the detection needs of multiple scenarios.
High imaging efficiency and quality
The SoyMap is equipped with a 128-line LiDAR, which can achieve a data collection rate of 2.6 Mpps, capturing details and shapes, and providing high precision 3D data
Rich peripheral interfaces,diversified data acquisition
The SoyMap can be integrated into various other systems to cooperate in the collection and processing of data, adapting to different application requirements.
Equipped with client software for real-time monitoring of scanning data
The 3D Viewer software is robust with the functions including coordinate measurement, Re-localization, closed-loop reprocessing and scanning mode selection.It can display point cloud information in real time.With an uncluttered user interface and simple operation, it empowers users with One-click device start and stop control, effectively enhancing the human-computer interaction experience.
Real-time data computation and result acquisition
It is equipped with a built-in WIFI module and supports wireless transmission. SLAM calculation is executed simultaneously during the scanning process, and once the scanning process terminates, the scanned data can be expeditiously exported for subsequent utilization
Small size and light weight
Its lightweight shell makes it easy to carry and operate. It can efficiently tackling complex and changeable scanning environments such as narrow and crowded ones, reducing the limitations of geographical environments.
Employing multi-echo technology to reduce the influence of unfavorable environmental conditions
The SoyMap Employs multi-echo technology, which can provide more accurate and comprehensive measurement data,applicable to various complex environments and application scenarios.
Application Mode
Handheld
Placed on ground vehicles
Mounted on Small UAVs
Application Fields
The SoyMap handheld rotary 3D LiDAR scanner has broad application prospects and can be deployed for environmental detection in various scenarios.It proficiently fulfills the comprehensive collection requirements in assorted settings, thereby significantly enhancing operational efficiency.
Measurement of piled materials and volume computation
It is applicable to volumetric measurement of diverse piled materials exemplified by mine heaps and grain piles, along with the that of large enclosed containers such as oil tanks and granaries
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Architecture and Engineering
It is capable of performing scanning and modeling operations on the spatial information of buildings, encompassing both indoor and outdoor scenarios, with examples being outdoor buildings and underground garages. The high-quality point cloud data obtained therefrom can be utilized for data collection and in-depth analysis during the processes of engineering design, architectural planning, as well as construction.
Geology and Topography
It can be used for topographic measurement, geological exploration, and geological disaster monitoring. By leveraging scanning technology to capture the intricate surface and subsurface on - site environments, the SoyMap generates precise 3D data to help in - depth studies of geological structures and topographic evolutions.
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Agriculture, Forestry, and Environmental Monitoring
It is applicable to environmental analysis, plant growth monitoring, farmland planning, and yield estimation in the fields of agriculture and forestry, as well as identifying pollution sources and pollutants, and analyzing shifts in the environment in the field of environmental monitoring.
Urban Planning and Management
It is capable of urban planning, land management , and urban infrastructure construction. It can captures 3D spatial data of urban landscapes,providing a basis for decision-making and achieving digital management.
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Scientific Research and Teaching
It is applicable to data collection and analysis in fields such as industrial, geological, architectural, and cultural heritage disciplines, offering advanced tools for surveying, mapping, and scientific research.Moreover, it can be utilized in teaching activities including design, modeling.Through its application, students can more intuitively comprehend and master the concept of 3D, thereby enhancing their overall learning experience in the realm of 3D studies.
Specifications
