The network planning of a local area network planning project in an indoor scenario is investigated. The model is
a multi-floor building. The dominant path model (DPM) method is used.
The network planning of a local area network in an indoor scenario is investigated. The model is a multi-story building.
The intelligent ray tracing model (IRT) method is used.
The network planning of a local area network in an indoor scenario is investigated. The model is a multi-floor building.
The multi-wall model (COST 231) method is used.
Perform network analysis for a WiMAX air interface in a rural/suburban scenario for fixed communications, such as
“the last mile” to a residential internet subscriber.
WinProp is a complete suite of tools in the domain of wireless propagation and radio network planning. 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.
View the typical workflows when working with propagation simulations in specific scenarios, how to add a network planning
to a propagation simulation, include a receiver pattern, set up a time-variant scenario, include multiple-input multiple-output
(MIMO) at both the base station and the mobile station, connectivity analysis of sensor networks and optimization.
Use AMan to generate, edit and analyze a single antenna. Superimpose multiple antennas radiating similar signals to determine
the actual antenna pattern while taking into consideration the local environment.
WinProp includes empirical and semi-empirical models (calibration with measurements possible), rigorous 3D ray-tracing models
as well as the unique dominant path model (DPM).
In WinProp various air interfaces and applications are pre-defined: broadcasting, cellular, wireless access, WiFi, sensor networks,
ICNIRP and EM compliance.
Calculate network planning for 802.11g using three different methods inside a large
building.
Indoor Communication, 802.11g with DPM
The network planning of a local area network planning project in an indoor scenario is investigated. The model is a multi-floor building. The dominant path model (DPM) method is used.
Indoor Communication, 802.11g with IRT
The network planning of a local area network in an indoor scenario is investigated. The model is a multi-story building. The intelligent ray tracing model (IRT) method is used.