Description
For only 649USD for a limited time. Promotion or discount/coupon code details (if applicable) will be present at the bottom of this post.
RadioPlanner 2.1 is a tool for planning:
– GSM / WCDMA / CDMA / UMTS / LTE / 5G networks
– P25 / TETRA / DMR / dPMR / NXDN / GSM-R /McWiLL land mobile radio networks
– Networks based on wireless IoT technologies: LoRa, SigFox, and others.
– DVB-H / DVB-T / DVB-T2 / ISDB-T / ATSC / DAB / DAB+ terrestrial radio and television broadcast networks
– Air-to-ground communication systems and radionavigation operating in the VHF, UHF, and microwave frequencies (UAV (Drone) Control, Air-to-ground radio, ADS-B, VOR, DME etc.)
Promotion Status:
No promo code is available for this product.
Platforms (if applicable):
Windows 10, Windows 7, Windows 8
RadioPlanner 2.1 uses the following propagation models:
– ITU-R P.1812-4 model
– Longley-Rice (ITM) model v 1.2.2
– ITU-R P.1546-6 model (for broadcasting only)
– Combined ITU-R P.528-3 + P.526-14 model (for aeronautical radio only)
RadioPlanner 2.1 performs various RF prediction types for mobile networks:
– Received Power uplink/downlink
– Strongest Server (Best Server)
– C/I ratio
– Area with Signal above Both the Base and Mobile Thresholds
– Number of servers above uplink
Area studies for terrestrial radio and television broadcast transmitters:
– Field Strength at the Receiver Location
– Strongest Server (Best Server)
– FCC contours
– ITU-R P.1546-6 contours
– Calculation of the population in the coverage area based on the OpenStreetMap project database
– Generation of the list of localities covered by broadcasting
Area studies for air-to-ground communication systems:
– Received power Air-to-Ground link
– Received power Ground-to-Air link
– Strongest (most likely) Server Air-to-Ground link
RadioPlanner allows you to do:
– Frequency planning of radio networks considering co-channel and adjacent channels interference
– Points calculation showing the path profile, losses, and levels of the signal and interference on co-channel and adjacent channels
– Calculation of uplink/downlink Rx levels for a set of IoT end-devices: LoRa, SigFox, and others, located in different conditions.
– Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters
– Save the coverage prediction result as an interactive web page, PNG image, CSV file, MIF file, or a KMZ file
– Flexible adjusting of the layers on the base map and show custom vector layers
GIS features:
– Terrain elevation data 2-30-m plane resolution (for more details on data sources see Appendix 3. Terrain Elevation Data in User Manual)
– A clutter model with nine clutter types. The built-in clutter model was created from the OpenStreetMap (www.openstreetmap.org) and Global Forest Change (www.earthenginepartners.appspot.com) projects. 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.
– Any kind of base map—both common (such as OpenStreetMap, OpenTopoMap, US Topo, etc.) and custom ones.