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RadioPlanner has three different types of projects:
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Once you have done that, you have activated the fully functional version. When the installation is complete, run the application, enter the Activation ID provided to you in the order email, and click Activate Run the installation file and follow the instructions that appear on your screen.
#MAPINFO 10 MANUAL DOWNLOAD#
Once you have successfully purchased RadioPlanner, you will receive an automated email within a few seconds containing a link to download the installation file and the Activation ID for the license.
#MAPINFO 10 MANUAL FULL VERSION#
To use the full version of RadioPlanner, you should purchase a license. The recommended computer configuration is 64-bit Windows, Core i5 CPU, 8GB RAM, 256GB SSD, video card, and monitor with support for 1920x1080. To use all RadioPlanner features, the Microsoft Excel spreadsheet editor must be installed on the computer.
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The minimum computer configuration is 64-bit Windows, Core i3 CPU, 4GB RAM, 200GB HDD, video card, and monitor with support for 1366x768, although the program can be installed on a less productive computer.
#MAPINFO 10 MANUAL WINDOWS#
RadioPlanner supports 64-bit Windows 7/8/8.1/10 Any kind of base map-both common (such as OpenStreetMap, OpenTopoMap, etc.) and custom ones. If necessary, the simple and easy-to-use Clutter Editor will allow the user to prepare their own clutter model based on new satellite imagery. The built-in clutter model was created from the OpenStreetMap (and Global Forest Change (projects. A clutter model with nine clutter types.
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Terrain elevation data 30m plane resolution (for more details on data sources see Appendix 3. Flexible adjusting of the layers on the base map and show custom vector layers Save the coverage prediction result as an interactive web page, PNG image, CSV file, MIF file, or a KMZ file Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters Calculation of uplink/downlink Rx levels for a set of IoT end-devices: LoRa, SigFox, and others, located in different conditions. Points calculation showing the profile of the path, losses, and levels of the signal and interference on co-channel and adjacent channels Frequency planning of radio networks considering co-channel and adjacent channels’ interference Strongest (most likely) Server Air-to-Ground link Generation of the list of localities covered by broadcastingĪrea studies for air-to-ground communication systems: Calculation of the population in the coverage area based on the OpenStreetMap project database Field Strength at the Receiver Location Area with Signal above Both the Base and Mobile ThresholdsĪrea studies for terrestrial radio and television broadcast transmitters: RadioPlanner 2.1 performs various RF prediction types for mobile networks: Combined ITU-R P.528-3 + P.526-14 model (for aeronautical radio only) RadioPlanner 2.1 uses the following propagation models: Air-to-ground communication systems and radio navigation operating in the VHF, UHF, and microwave frequencies: UAV (Drone) Control, Air-to-ground radio, ADS-B, VOR, DME, etc. DVB-H / DVB-T / DVB-T2 / ISDB-T / DAB / DAB+ terrestrial radio and television broadcast networks Networks based on wireless IoT LPWAN technologies: LoRa, SigFox, and others TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL land mobile radio networks GSM / WCDMA / CDMA / UMTS / LTE / 5G mobile networks