Geodata | Digital Maps for Wireless Network Planning
Modern geodata sets for accurate RF planning
Model your 5G network with confidence with high-resolution 3D building and vegetation maps
Highly accurate digital maps
A portfolio of digital maps to ensure accurate RF planning
Our premium geodata offering provides high-resolution (1-2m) digital maps with 3D building and vegetation polygons, designed specifically for RF planning. This is critical for accurate planning of 5G in dense urban areas and especially at mmWave frequencies. For areas where lower resolution data is acceptable, we offer a 2.5D medium resolution (5-10m) solution, ideal for suburban areas, and a 2D low resolution (20m+) solution for nationwide and large coverage footprints.
Key benefits and features
Improve your RF planning accuracy
Our best-in-class geodata, designed and validated specifically for RF planning, ensures an accurate baseline on which to plan.
Tailor the solution to your needs
Choose from a geodata portfolio covering high-resolution 3D data, medium resolution 2.5D data and low resolution 2D data.
Achieve maximum accuracy with 3D maps
Our Skylines geodata provides the highest resolution (1-2m) and 3D building and vegetation polygons, perfect for urban planning.
Balance cost and accuracy with 2.5D
Our Cityscapes HD geodata provides medium resolution (5-10m) maps with height data, perfect for suburban planning.
A cost-effective solution for nationwide coverage
Our Cityscapes geodata provides low resolution (20m+) maps, perfect for nationwide and large coverage footprints.
Enjoy hassle-free deployment
Fully compatible with your planning tool and propagation models and with a simple plug-and-play delivery structure.
Plan your 5G network with confidence
Learn how to leverage 3D digital maps to improve the planning accuracy of your 5G network
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Use cases
5G network planning
5G employs radically new technologies like massive MIMO and beamforming. To successfully plan these technologies as well as other aspects of 5G such as mmWave frequencies requires high resolution 3D maps which include 3D buildings and vegetation polygons. Our Skylines high resolution 3D map data ensures you can accurately plan your 5G network in complex dense urban environments and deliver the quality of service your customers expect.
5G network planning
5G employs radically new technologies like massive MIMO and beamforming. To successfully plan these technologies as well as other aspects of 5G such as mmWave frequencies requires high resolution 3D maps which include 3D buildings and vegetation polygons. Our Skylines high resolution 3D map data ensures you can accurately plan your 5G network in complex dense urban environments and deliver the quality of service your customers expect.
Planning in 3D
In many cities, 70-80% of mobile broadband traffic comes from indoor locations. This means the subscribers are not necessarily at ground level, making traditional 2D planning ineffective. To address this, you must be able to plan your network in 3D, and for that it is critical to have high resolution 3D building data such as that found in our Skylines geodata.
Planning in 3D
In many cities, 70-80% of mobile broadband traffic comes from indoor locations. This means the subscribers are not necessarily at ground level, making traditional 2D planning ineffective. To address this, you must be able to plan your network in 3D, and for that it is critical to have high resolution 3D building data such as that found in our Skylines geodata.
mmWave planning
5G has seen the adoption of mmWave frequencies. The high frequencies of mmWave spectrum can support massive bandwidths for eMBB use cases and high-capacity sites. The tiny wavelengths of these frequencies, however, suffer a lot of attenuation from obstacles. The highest resolution map data including 3D buildings and vegetation is therefore critical to successful mmWave planning. Without it, the coverage predicted in a planning tool will differ significantly from reality when the site is built.
mmWave planning
5G has seen the adoption of mmWave frequencies. The high frequencies of mmWave spectrum can support massive bandwidths for eMBB use cases and high-capacity sites. The tiny wavelengths of these frequencies, however, suffer a lot of attenuation from obstacles. The highest resolution map data including 3D buildings and vegetation is therefore critical to successful mmWave planning. Without it, the coverage predicted in a planning tool will differ significantly from reality when the site is built.
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