The essence of the telecommunications industry is based on the sending and receiving of wireless signals. The common link between antenna technology and radio propagation is they are both closely associated with the electromagnetic wave. Antennas are used to initiate signals into the ether and then propagate the signal over the signal path to the receiver where another antenna captures the radio wave that will be transferred to the receiver. Today, such network industries as the wireless telecommunications industry are constantly working to provide better service coverage while trimming infrastructure costs. Eliminating clutter data is one area where the telecommunications industry is working on improving.

Clutter data is the natural and man made features that can hinder radio frequency propagation by diffraction, reflection, scattering, absorption of transmission waves. Clutter combined with Digital Elevation Model (DEM) data software is an effective resource for specific propagation or line of sight applications such as personal communication services, microwave, wireless pager, and other wireless network planning. In addition, there are hydrologically networked DEMs that are used for shoreline and embankment erosion analysis, environmental modeling, and flood plane analysis.

Benefits of Leveraging Spatial Clutter Data Solutions

Using Spatial Clutter Data Solutions that have been developed for the Radio Frequency (RF) propagation environment helps engineers fine-tune their signal loss prediction models according to the traits of the ground cover and underlying terrain. Benefits of leveraging spatial clutter data solutions include: ability to plan the build of your network or its redesign, enhancement of service coverage, reduction in dropped calls, ability to forecast the performance of wireless services in transmission areas, better optimization of transmission site locations, and reducing infrastructure costs.

Uses for RF Propagation Software Programs

Mapping surface cover data is vital to wireless network design because the surface cover impacts propagation of the wireless signal. By using RF propagation software programs to integrate clutter data with surface elevation data, engineers can determine the optimum location for towers. The Digital Elevation Model (DEM) consists of the most favorable arrangement of ground elevations at regularly spaced intervals. Digital Elevation Models were developed for land management applications as the continuous growth in the telecommunication and engineering industries has created a bigger demand for terrain data. This data allows engineers to plan, create, and manage infrastructure growth with the accuracy needed by spatial applications.

Benefits of the Digital Elevation Model (DEM)

Benefits of the Digital Elevation Model (DEM) include: conduct nationwide terrain modeling with seamless coverage, undertake cost-effective planning of networks and disaster management, optimize transmission tower locations when used with Clutter Data, and high quality data based on the National Topographic Database. DEM coverage is available for the whole country or custom defined areas such as along the Canadian and US Border.

Clutter combined with Digital Elevation Model (DEM) data software is the ideal solution for specific propagation or line of sight applications. Network industries such as the wireless telecommunications industry are constantly working to provide better service coverage. When the telecommunications industry uses RF Propagation Software Programs to help them eliminate clutter data, they provide better service for their customers making this technology essential to the industry.

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Category: Computers and Technology
Keywords: computers, technology, digital, intelligence, location, GPS, business, finance, industry, software