MLinkPlanner 1.2 is a tool for planning microwave PtP and PtMP links. RadioPlanner 2.1 is a tool for Mobile and Broadcast Networks Planning [microwave link calculator, microwave link design, microwave link planning, microwave link planning software, microwave link planning tool]
Point-to-Point and Point-to-Multipoint Microwave Link Planning Software:
MLinkPlanner can perform the calculation and optimization of microwave link parameters, including:
- path profile analysis (evaluate clearance criteria according to Rec. ITU-R P.530-16, obstruction loss, reflection geometry);
- multipath fade probability calculation (Rec. ITU-R P.530-17);
- rain fade calculation (Rec. ITU-R P.530-17);
- diversity improvement calculation (frequency, space and quad diversity);
- cochannel operation link calculation;
- error performance and availability calculation (Rec. ITU-R F.1668, Rec. ITU-R F.1703);
- reflection analysis (Rec. ITU-R P.530-17);
- diffraction loss analysis (Rec. ITU-R P.526-13).
MLinkPlanner can perform radio coverage for PtMP systems with the different area study methods:
- Received Power Studies at subscriber station (downlink).
- Strongest (Most Likely) Server.
- Carrier-to-interference+noise ratio C/(I+N) at subscriber stations.
Point-to-Point and Point-to-Multipoint Microwave Link Planning Software:
MLinkPlanner can perform the calculation and optimization of microwave link parameters, including:
- path profile analysis (evaluate clearance criteria according to Rec. ITU-R P.530-16, obstruction loss, reflection geometry);
- multipath fade probability calculation (Rec. ITU-R P.530-17);
- rain fade calculation (Rec. ITU-R P.530-17);
- diversity improvement calculation (frequency, space and quad diversity);
- cochannel operation link calculation;
- error performance and availability calculation (Rec. ITU-R F.1668, Rec. ITU-R F.1703);
- reflection analysis (Rec. ITU-R P.530-17);
- diffraction loss analysis (Rec. ITU-R P.526-13).
MLinkPlanner can perform radio coverage for PtMP systems with the different area study methods:
- Received Power Studies at subscriber station (downlink).
- Strongest (Most Likely) Server.
- Carrier-to-interference+noise ratio C/(I+N) at subscriber stations.
Point-to-Point and Point-to-Multipoint Microwave Link Planning Software:
MLinkPlanner can perform the calculation and optimization of microwave link parameters, including:
- path profile analysis (evaluate clearance criteria according to Rec. ITU-R P.530-16, obstruction loss, reflection geometry);
- multipath fade probability calculation (Rec. ITU-R P.530-17);
- rain fade calculation (Rec. ITU-R P.530-17);
- diversity improvement calculation (frequency, space and quad diversity);
- cochannel operation link calculation;
- error performance and availability calculation (Rec. ITU-R F.1668, Rec. ITU-R F.1703);
- reflection analysis (Rec. ITU-R P.530-17);
- diffraction loss analysis (Rec. ITU-R P.526-13).
MLinkPlanner can perform radio coverage for PtMP systems with the different area study methods:
- Received Power Studies at subscriber station (downlink).
- Strongest (Most Likely) Server.
- Carrier-to-interference+noise ratio C/(I+N) at subscriber stations.
Point-to-Point and Point-to-Multipoint Microwave Link Planning Software:
MLinkPlanner can perform the calculation and optimization of microwave link parameters, including:
- path profile analysis (evaluate clearance criteria according to Rec. ITU-R P.530-16, obstruction loss, reflection geometry);
- multipath fade probability calculation (Rec. ITU-R P.530-17);
- rain fade calculation (Rec. ITU-R P.530-17);
- diversity improvement calculation (frequency, space and quad diversity);
- cochannel operation link calculation;
- error performance and availability calculation (Rec. ITU-R F.1668, Rec. ITU-R F.1703);
- reflection analysis (Rec. ITU-R P.530-17);
- diffraction loss analysis (Rec. ITU-R P.526-13).
MLinkPlanner can perform radio coverage for PtMP systems with the different area study methods:
- Received Power Studies at subscriber station (downlink).
- Strongest (Most Likely) Server.
- Carrier-to-interference+noise ratio C/(I+N) at subscriber stations.
MLinkPlanner is a tool for designing microwave point-to-point (PtP) and point-to-multipoint (PtMP) links.
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
MLinkPlanner is a tool for designing microwave point-to-point (PtP) and point-to-multipoint (PtMP) links.
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
MLinkPlanner is a tool for designing microwave point-to-point (PtP) and point-to-multipoint (PtMP) links.
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
MLinkPlanner is a tool for designing microwave point-to-point (PtP) and point-to-multipoint (PtMP) links.
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
RadioPlanner performs various types of area studies for mobile networks:
- Received Power uplink/downlink;
- Strongest Server (Best Server);
- C/I ratio;
- Area with Signal above Both the Base and Mobile Thresholds.
Area studies for terrestrial radio and television broadcast transmitters:
- Field Strength at the Receiver Location;
- Calculation of the population in the coverage area based on the OpenStreetMap project database;
- Generation of the list of localities covered by broadcasting.
All calculations are performed in accordance with the recommendation ITU-R P.1812-4 (07/2015) A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands.
RadioPlanner allows you to do:
- Frequency planning of radio networks considering co-channel and adjacent channels interference;
- Points calculation showing the profile of the path, losses, and levels of the signal and interference on co-channel and adjacent channels;
- Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters;
- Save the result of the coverage calculation as an interactive web page or as a raster image;
- Flexibly adjust the layers on the base map, show custom vector layers.
GIS features:
- SRTM-3 dataset is used as a digital terrain model. Data sources: USGS EarthExplorer site;
- Landcover model with the different types of clutter (dense urban, urban, suburban, open land, water, and trees/forest). Landcover model was created on the basis of OpenStreetMap (www.openstreetmap.org) и Global Forest Change
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
RadioPlanner performs various types of area studies for mobile networks:
- Received Power uplink/downlink;
- Strongest Server (Best Server);
- C/I ratio;
- Area with Signal above Both the Base and Mobile Thresholds.
Area studies for terrestrial radio and television broadcast transmitters:
- Field Strength at the Receiver Location;
- Calculation of the population in the coverage area based on the OpenStreetMap project database;
- Generation of the list of localities covered by broadcasting.
All calculations are performed in accordance with the recommendation ITU-R P.1812-4 (07/2015) A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands.
RadioPlanner allows you to do:
- Frequency planning of radio networks considering co-channel and adjacent channels interference;
- Points calculation showing the profile of the path, losses, and levels of the signal and interference on co-channel and adjacent channels;
- Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters;
- Save the result of the coverage calculation as an interactive web page or as a raster image;
- Flexibly adjust the layers on the base map, show custom vector layers.
GIS features:
- SRTM-3 dataset is used as a digital terrain model. Data sources: USGS EarthExplorer site;
- Landcover model with the different types of clutter (dense urban, urban, suburban, open land, water, and trees/forest). Landcover model was created on the basis of OpenStreetMap (www.openstreetmap.o
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
RadioPlanner performs various types of area studies for mobile networks:
- Received Power uplink/downlink;
- Strongest Server (Best Server);
- C/I ratio;
- Area with Signal above Both the Base and Mobile Thresholds.
Area studies for terrestrial radio and television broadcast transmitters:
- Field Strength at the Receiver Location;
- Calculation of the population in the coverage area based on the OpenStreetMap project database;
- Generation of the list of localities covered by broadcasting.
All calculations are performed in accordance with the recommendation ITU-R P.1812-4 (07/2015) A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands.
RadioPlanner allows you to do:
- Frequency planning of radio networks considering co-channel and adjacent channels interference;
- Points calculation showing the profile of the path, losses, and levels of the signal and interference on co-channel and adjacent channels;
- Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters;
- Save the result of the coverage calculation as an interactive web page or as a raster image;
- Flexibly adjust the layers on the base map, show custom vector layers.
GIS features:
- SRTM-3 dataset is used as a digital terrain model. Data sources: USGS EarthExplorer site;
- Landcover model with the different types of clutter (dense urban, urban, suburban, open land, water, and trees/forest). Landcover model was created on the basis of OpenStreetMap (www.openstreetmap.org) и Global Forest Change
RadioPlanner 2.1 is a tool for planning:
- GSM / WCDMA / CDMA / UMTS / LTE mobile networks;
- TETRA / P25 / DMR / dPMR / NXDN / GSM-R /McWiLL professional mobile radio networks;
- Networks based on wireless IoT technologies: LoRa and others.
- DVB-H / DVB-T / DVB-T2 / DAB / DAB+ terrestrial radio and television broadcast networks;
RadioPlanner performs various types of area studies for mobile networks:
- Received Power uplink/downlink;
- Strongest Server (Best Server);
- C/I ratio;
- Area with Signal above Both the Base and Mobile Thresholds.
Area studies for terrestrial radio and television broadcast transmitters:
- Field Strength at the Receiver Location;
- Calculation of the population in the coverage area based on the OpenStreetMap project database;
- Generation of the list of localities covered by broadcasting.
All calculations are performed in accordance with the recommendation ITU-R P.1812-4 (07/2015) A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands.
RadioPlanner allows you to do:
- Frequency planning of radio networks considering co-channel and adjacent channels interference;
- Points calculation showing the profile of the path, losses, and levels of the signal and interference on co-channel and adjacent channels;
- Import the measurement results of the received signal power levels for comparison with calculated values and adjust propagation model parameters;
- Save the result of the coverage calculation as an interactive web page or as a raster image;
- Flexibly adjust the layers on the base map, show custom vector layers.
GIS features:
- SRTM-3 dataset is used as a digital terrain model. Data sources: USGS EarthExplorer site;
- Landcover model with the different types of clutter (dense urban, urban, suburban, open land, water, and trees/forest). Landcover model was created on the basis of OpenStreetMap (www.openstreetmap.org) и Global Forest Change