noun a remote sensing technology that uses light in the form of a pulsed laser to measure variable distances to the Earth
LiDAR is used in urban planning for city modeling, infrastructure planning, and flood risk assessment.
LiDAR is used in forestry for forest inventory, tree height measurement, and canopy density estimation.
LiDAR is used in civil engineering for road design, construction monitoring, and landslide detection.
LiDAR is used in meteorology for atmospheric profiling, wind speed measurement, and weather forecasting.
LiDAR is used in geography for topographic mapping, land surveying, and terrain modeling.
LiDAR is used in archaeology for detecting ancient ruins, mapping archaeological sites, and studying landscapes.
LiDAR technology can be used by writers who are researching for their books or articles that involve geographical locations or topographical details. It can provide accurate data on landscapes and terrains.
Archaeologists use LiDAR to survey and map archaeological sites from above, helping them to discover hidden structures or features that are not visible on the ground. It aids in understanding the historical context of the sites.
Urban planners utilize LiDAR data to create detailed 3D models of cities and urban areas. This information helps in urban development projects, infrastructure planning, and assessing environmental impacts.
Civil engineers rely on LiDAR technology for surveying land, monitoring construction sites, and planning infrastructure projects. It provides precise elevation data and helps in designing efficient transportation systems.
Foresters use LiDAR to assess forest structure, monitor tree health, and estimate biomass. It aids in forest management, conservation efforts, and planning sustainable forestry practices.