Automation of planning and optimization of radio communication networks

Application area

Telecommunication industry
Oil and gas sector
Power engineering
Emergency support
Instrument engineering


Federal and regional telecom operators
Operators of BWA and broadcasting
Integrators, engineering companies, and contractors of operators
Radio-frequency spectrum regulators
Equipment vendors
Industry educational institutions


Storage, editing, and visualization on the map of the network topology, object characteristics, service quality indicators of the network as a whole and individual elements
Planning and optimization of communication networks and radio access systems of all available technologies, performing calculations of point-to-point, point-to-multipoint, point-to-zone
Frequency-territorial and territorial-code planning and optimization
Real network analysis: statistics and measurements
Calculation of quality of radio relay lines (microwave links)
Planning of capacity, support of operation and development of transport communication networks


  • Storing projects in the database
    • Differentiation of user access rights
    • Unlimited number of objects
    • Custom fields adding
    • Keeping documentation for objects
    • Comparison and synchronization of projects
    • Maintainance of changing objects history
    • Interaction with corporate systems
    • Intelligent converters
  • Use of geoinformation technologies
    • Support for vector and raster layers, WMS services/online maps, radioclimatic maps
    • Support for matrices of relief/clutters/heights of clutters/traffic/population density
    • Support for coordinate systems GSK-2011, SK-42/95 (Krasovsky ellipsoid), WGS-84
    • Address search capability
  • Support for multiprocessor and distributed computing
  • The application range for the calculation of communication links between the point and the zone: 30 MHz – 30 GHz,
    from point to point: 100 MHz to 350 GHz
  • Calculation of in accordance with the firm methodology, GOST R 53363-2009; Methods of NIIR and sectoral research institutes; Recommendations of ITU-R
  • A wide range of built-in calibrated RRV models: deterministic, Ray tracing, statistical and empirical
  • Network modeling:
    • Internet of things (LPLA, M2M, LPWA (LoRa, LTE-M, eMTC, EC-GSM, NB-IoT)
    • Professional Mobile Radio (MPT 1327, TETRA, DMR, GSM-R, LTE-R, eLTE)
    • Broadband Wireless Access (McWiLL, WiMAX, Wi-Fi)
    • Analog and digital broadcasting (DAB, DVB-H, DVB-T, DVB-T2)
    • Backhaul (TDM, IP, MPLS, Ethernet, IMS)
  • Built-in directory with hardware parameters and templates
  • Export results to common graphic, text and table formats; Google Earth; AutoCAD

Advantages of ONEPLAN RPLS-DB

  • A complete set of functionality for solving the problems of planning and optimizing communication networks
  • Expanding the functionality in a short time to solve specific tasks
  • Time-tested reliability
  • Accuracy of results, proven in practice
  • The best price offer for a fully functional set


RFP & NEO – radio-frequency planning and optimization of mobile networks and BWA
Link – planning and optimization of radio relay communication
TE – planning, support of operation and development of transport communication networks

See also

ONEPLAN RPLS-XML – compact local solution for planning of mobile networks and microwave single hop links
ONEPLAN Sazon – autonomous solution for ensuring of environmental safety by electromagnetic factor