3D models from orthomosaic point clouds
Accuracy is paramount when creating 3D models. The quality of your positional system, both on the ground and in the air is key. The result will be highly realistic 3 dimensional models that you can use on your desktop computer for a huge range of applications. These include such things as council planning, landscape and architectural design, land management, damage assessment, or surveying topography, vegetation and utility services.
Perhaps the most attractive aspect of 3D orthomosaics is that outcomes are relatively low in cost compared to the use of LiDAR. The main trade-off is the difficulty to obtain sub-canopy data.
Note: Please change your settings to their highest level for this short video and you should be able to identify many highly detailed elements including such things as different plant species along the stream bank, the differing topography of the landscape, an earth bridge, fencing, power poles, a vehicle and its track marks on the grass.
Accuracy is paramount when creating 3D models. The quality of your positional system, both on the ground and in the air is key. The result will be highly realistic 3 dimensional models that you can use on your desktop computer for a huge range of applications. These include such things as council planning, landscape and architectural design, land management, damage assessment, or surveying topography, vegetation and utility services.
Perhaps the most attractive aspect of 3D orthomosaics is that outcomes are relatively low in cost compared to the use of LiDAR. The main trade-off is the difficulty to obtain sub-canopy data.
Note: Please change your settings to their highest level for this short video and you should be able to identify many highly detailed elements including such things as different plant species along the stream bank, the differing topography of the landscape, an earth bridge, fencing, power poles, a vehicle and its track marks on the grass.