ProMan: Virtual Drive Test now also possible for Network Analysis Using these data, the Rx antenna performance can be computed along routes to generate a virtual test drive.At this stage, the polarization (vertical or horizontal) can be considered in urbanscenarios for simulations in which ray tracing (SRT or IRT) with Fresnel coefficients is used. The orientation of the Rx antenna pattern is adjusted according to the direction of movement along the defined route. The selected Rx antenna pattern, taking its polarization into account, can be superposed on the computed propagation paths that are saved during the propagation simulation. For this purpose, the user can define routes in the ProMan GUI. This builds on the version 14.1 feature in which the Rx antenna pattern (without polarization) can be included. ProMan has been extended to consider the receiving (Rx) antenna polarization along definable routes.
ProMan: Consideration of Rx antenna polarization for antenna post processing The speed-up factor is close to the number of cores (threads) involved. Since rays are independent, ray tracing is an excellent candidate for multi-threading. This is especially the case when diffractions are included, since one diffracting ray spawns many new rays. Standard Ray Tracing involves the evaluation of many ray paths and interactions with many objects. ProMan: Acceleration of Standard Ray Tracing (SRT) simulations through multi-threading With applications ranging from satellite to terrestrial, from rural via urban to indoor radio links, WinProp’s innovative wave propagation models combine accuracy with short computation time.
has announced the release of WinProp 14.5, is the most complete suite of tools in the domain of wireless propagation and radio network planning.