ecko360的动态

To TPU or not to TPU…

Yesterday I shared an article on making decisions about where you want a lidar to measure - looking uncertainties that are propagated through lidar systems and making choices about what we're happy to accept / what we need to accept. This is the next step in total propagated uncertainty: getting from instrument data streams to a georeferenced point cloud and understanding the system that uncertainties need to be propagated through - using a very common design pattern for airborne lidar systems. #lidar #earthobservation #uncertainties https://lnkd.in/gwWqFbj4

Introducing the DJI Zenmuse L2, the high-precision aerial LiDAR system that’s changing the game in geospatial data acquisition. Imagine capturing the world from above with unprecedented precision and detail. From urban planning to environmental monitoring, the ability to acquire accurate geospatial data has become indispensable in various industries with DJI Zenmuse L2. ?Frame-based LiDAR system - for thorough and detailed data collection. ?High-accuracy IMU system - Operating at 200 Hz for precise positioning ?4/3 CMOS RGB mapping camera - real-time point cloud coloring images ?Laser ranging accuracy - RMS of 2cm/150 meters for precise measurement The DJI Zenmuse L2’s ability to adapt to different operational needs and environments makes it a valuable asset in any professional’s toolkit. Its wide range of applications demonstrates its capacity to provide precise, efficient, and reliable geospatial data acquisition, making it a standout choice for any project requiring aerial LiDAR technology. Don't miss out on our latest blog post delving into the comprehensive capabilities of the DJI Zenmuse L2 for optimizing LiDAR surveys and inspections. Explore how this cutting-edge technology is revolutionizing aerial data collection. https://lnkd.in/ey5c5XEq?

Unlock Precision with Lidar Technology ? ?? Introducing Lidar: Light Detection and Ranging ?? Revolutionize your data collection with Lidar, a cutting-edge remote sensing method that uses pulsed laser light to measure distances with unparalleled precision. By generating accurate, three-dimensional information, Lidar technology reveals the intricate details of the Earth's surface. ? ?? How Lidar Works: Lidar instruments consist of a laser, a scanner, and a specialized GPS receiver. These components work together to produce precise 3D maps, whether from airplanes or helicopters, covering broad areas efficiently. ? ?? Types of Lidar: Topographic Lidar: Utilizes near-infrared lasers to map the land, providing detailed terrain data. Bathymetric Lidar: Employs water-penetrating green light to measure seafloor and riverbed elevations, perfect for underwater mapping. ?? Why Choose Lidar? High Precision: Capture detailed surface characteristics and shapes with high accuracy. Versatility: Ideal for diverse applications, from topographic mapping to underwater surveys. Efficiency: Rapid data acquisition over large areas, saving time and resources. Harness the power of Lidar to elevate your projects with detailed, accurate, and comprehensive data. ??Ready to explore the potential of Lidar Technology? To learn more about our solutions and how we can elevate your business, visit our website www.tresdata.com.my or reach out to us directly. Together, let's build a better future. TRESDATA SDN BHD Contact No : 03-61505482 Email : [email protected] #tresdata #lidartechnology #innovationleaders #futuretechnology

LiDAR Technology and Its Equipment LiDAR (Light Detection and Ranging) is a cutting-edge technology that uses laser pulses to measure distances, creating highly accurate, three-dimensional maps. This method transforms raw geospatial data into meaningful insights, enabling better decision-making across various industries. Key Components of LiDAR Systems ? Laser Scanner: Emits and measures laser pulses. ? GPS: Provides precise location data. ? IMU: Measures orientation and movement. ? Data Processing Unit: Stores and processes raw data. ? Optical Components: Directs laser pulses for accurate data capture. Types of LiDAR ? Terrestrial LiDAR: Ground-based, ideal for detailed landscape mapping. ? Aerial LiDAR: Mounted on aircraft or drones, perfect for large area mapping. ? Mobile LiDAR: Vehicle-mounted, used for mapping roads and infrastructure. Applications of LiDAR ? Topographic Mapping: Creates detailed terrain maps. ? Forestry: Assesses tree height and canopy density. ? Agriculture: Analyzes field topography and crop health. ? Archaeology: Reveals hidden sites. ? Disaster Management: Assesses damage for recovery planning. ? Infrastructure Development: Aids in designing and maintaining structures. Learn LiDAR Technology Gain in-depth knowledge of LiDAR technology with Skyline Institute of Geoinformatics. Our comprehensive training program covers all aspects of LiDAR, from basic operations to advanced applications. ?? Visit: skylinegeoinformatics.org ?? Call: 9215007700

LiDAR Technology and Its Equipment LiDAR (Light Detection and Ranging) is a cutting-edge technology that uses laser pulses to measure distances, creating highly accurate, three-dimensional maps. This method transforms raw geospatial data into meaningful insights, enabling better decision-making across various industries. Key Components of LiDAR Systems ? Laser Scanner: Emits and measures laser pulses. ? GPS: Provides precise location data. ? IMU: Measures orientation and movement. ? Data Processing Unit: Stores and processes raw data. ? Optical Components: Directs laser pulses for accurate data capture. Types of LiDAR ? Terrestrial LiDAR: Ground-based, ideal for detailed landscape mapping. ? Aerial LiDAR: Mounted on aircraft or drones, perfect for large area mapping. ? Mobile LiDAR: Vehicle-mounted, used for mapping roads and infrastructure. Applications of LiDAR ? Topographic Mapping: Creates detailed terrain maps. ? Forestry: Assesses tree height and canopy density. ? Agriculture: Analyzes field topography and crop health. ? Archaeology: Reveals hidden sites. ? Disaster Management: Assesses damage for recovery planning. ? Infrastructure Development: Aids in designing and maintaining structures. Learn LiDAR Technology Gain in-depth knowledge of LiDAR technology with Skyline Institute of Geoinformatics. Our comprehensive training program covers all aspects of LiDAR, from basic operations to advanced applications. ?? Visit: skylinegeoinformatics.org ?? Call: 9215007700

LiDAR Technology and Its Equipment LiDAR (Light Detection and Ranging) is a cutting-edge technology that uses laser pulses to measure distances, creating highly accurate, three-dimensional maps. This method transforms raw geospatial data into meaningful insights, enabling better decision-making across various industries. Key Components of LiDAR Systems ? Laser Scanner: Emits and measures laser pulses. ? GPS: Provides precise location data. ? IMU: Measures orientation and movement. ? Data Processing Unit: Stores and processes raw data. ? Optical Components: Directs laser pulses for accurate data capture. Types of LiDAR ? Terrestrial LiDAR: Ground-based, ideal for detailed landscape mapping. ? Aerial LiDAR: Mounted on aircraft or drones, perfect for large area mapping. ? Mobile LiDAR: Vehicle-mounted, used for mapping roads and infrastructure. Applications of LiDAR ? Topographic Mapping: Creates detailed terrain maps. ? Forestry: Assesses tree height and canopy density. ? Agriculture: Analyzes field topography and crop health. ? Archaeology: Reveals hidden sites. ? Disaster Management: Assesses damage for recovery planning. ? Infrastructure Development: Aids in designing and maintaining structures. Learn LiDAR Technology Gain in-depth knowledge of LiDAR technology with Skyline Institute of Geoinformatics. Our comprehensive training program covers all aspects of LiDAR, from basic operations to advanced applications. ?? Visit: skylinegeoinformatics.org ?? Call: 9253030944

Check out how Inertial Labs and Stitch3D are bringing LIDAR data to the tactical point of need for the US Air Force and many other industry applications in this new blog!

Long before shovels hit dirt on a new building or #construction gets its legs, planning must first begin with a survey — the process of creating a geospatial measurement of land. “The thing about survey is that it's one of those disciplines nobody knows about until it's wrong,” said Shawn Barnett with England-Thims & Miller, Inc. Survey. “It's a foundational component of everything that is built. Nothing else happens until the survey is done.” Here's how LIDAR #technology is reshaping development projects in #Jacksonville: https://lnkd.in/eEXBwGyd

In a guest post for Geo Week News, Ada Perello from EAASI writes about a cutting-edge project in Cantabria, Spain to create a comprehensive digital twin by leveraging multiple technologies including lidar, AI, and aerial mapping. #geospatial #digitaltwin #aerialmapping #imagery #lidar #AI