Lte Cell Planning Software

Atoll includes an advanced multi-technology Automatic Cell Planning (ACP) module that provides integrated network optimisation functions in the standard Atoll u. Practical Introduction to LTE Radio Planning J. Chang This paper reviews basics of radio planning for 3GPP LTE. Both coverage-limited and interference-limited scenarios are considered. For the coverage-limited scenario LTE link budget is compared to that of 3GPP Release 8 HSPA+ with 2x2 MIMO. It is shown that, given the same 5MHz bandwidth, both systems have similar cell.

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Radio planning tools are used throughout the wireless industry to determine the most effective location, configuration and parameters for base stations. But networks are becoming more complex and users are demanding better performance in the buildings where they work, live and visit. This means that the planning tools also need to become more sophisticated and work alongside automated SON (Self Organising Networks) technology built into the small cells and supporting servers. Indoor data growth Looking more closely at forecast data traffic growth, you'll see that an increasing percentage of data is consumed indoors.

We tend to watch videos and surf the web on our tablets and smart phones sitting down, rather than on the move. Most of us also spend more of our time indoors. Operators have traditionally designed their networks using outdoor/external cellsites to penetrate into buildings, believing this to be more cost effective than installing separate/independent indoor systems. But as we move to the small cell architecture, the lower costs involved in deploying indoor small cells contrast strongly with outdoor. The units can be physically less robust because they operate in supervised environments and can be more easily installed; power is easily connected and they don't need wireless backhaul.

Separate indoor and outdoor worlds Some operators deal with indoor, especially enterprise, and outdoor installations quite independently. Indoor system design and installation are often subcontracted to third parties who use their own tools, methods and installation teams. Radio planning for inside buildings is often made using a separate RF planning tool specifically for the purpose. A sophisticated in-building RF planning tool normally takes a building as an input and designs network systems in the building.

Typical features include building modelling from CAD files in dxf and dwg formats; network distribution system design; indoor radio propagation prediction with sub-meter resolution; and project management. Oddworld the oddboxx pcp. Outdoor radio network planning tools take a map of an outdoor area as an input and design a network that provides service coverage. It normally includes a GIS module and an outdoor radio propagation prediction engine, typically with 20 to 100 meter resolution, which is not detailed enough to evaluate in-building network performance. In an ideal world, separate dedicated spectrum will be allocated for small cell and indoor use, avoiding much of the issue of interference. No matter how much spectrum is available, operators will want to maximise its use and we can expect to share frequencies between indoor and outdoor systems in the long term. As the number of indoor small cell installations increase, operators will want to evaluate the impact between indoor and outdoor networks and optimise them together, maximising the potential network performance from both.

There are few RF planning tools that address and co-ordinate between both indoor and outdoor environments, allowing these to be more closely aligned. One such product is RANPLAN's ® tool which primarily focuses on in-building network design and optimisation, but also covers some high capacity indoor-outdoor scenarios such as campuses and CBDs (Central Business Districts) that comprise dozens of buildings, stadiums, airports and stations with high resolution - typically 20cm x 20cm x 20cm; fast and accurate coverage prediction; interference analysis and control; user throughput and network capacity analysis; and optimisation for 2G, 3G and LTE. Indoor Planning RF planning for an indoor installation looks at the signal distribution throughout the building on each floor.