TruNET Wireless can be used to deploy any indoor or outdoor radio network between HF to EHF bands. Typical radio / wireless network examples include cellular and wireless broadband networks, military communication systems, radio and TV stations etc. TruNET Wireless currently utilises two main deterministic radio propagation solvers; A Ray launching radio solver and a Parabolic Equation radio solver. Depending on the scenario and environment of deployment, the user can choose one of the two deterministic radio solvers. TruNET Wireless advanced ray tracing engine can be used to estimate the complex propagation radio characteristics of modern communication systems deployed in complex environments. TruNET Wireless environment designer allows the intuitive construction of any typical environment and the deployment of the wireless communication system of Interest.

Macrocell Scenario

In this scenario the radio coverage for a typical 4G macrocell has been estimated. Radio coverage was estimated through the use of the Ray Tracing Solver.

Microcell Scenario

In this scenario the radio coverage for a typical 3G microcell has been estimated. Radio coverage was estimated through the use of the Ray Tracing Solver.

Picocell Scenario

In this scenario the radio coverage for a typical 2G picocell has been estimated. Radio coverage was estimated through the use of the Ray Tracing Solver.

A Point to Point (PtP) Radio Link

In this scenario the viability of a Point to Point microwave link was examined. Link viability was tested through the use of the Parabolic Equation Solver.

Mountainous Radio Coverage Estimation

In this scenario the radio coverage from a military system was examined. Radio coverage was estimated through the use of the Parabolic Equation Solver.

802.11n (Wi-Fi) Radio Coverage Estimation

In this scenario the radio coverage for a typical 802.11n (Wi-Fi) indoor system was estimated. Radio coverage was estimated through the use of the Ray Tracing Solver.

802.11n (Wi-Fi) SISO Throughput Estimation

In this scenario the throughput performance in bps of a typical 802.11n (Wi-Fi) SISO indoor system was estimated. Radio coverage was estimated through the use of the Ray Tracing Solver. The throughput performance was estimated by employing the 802.11 (Wi-Fi) throughput module.

802.11ac (Wi-Fi) MIMO Throughput Estimation

In this scenario the throughput performance in bps of a typical 802.11ac (Wi-Fi) MIMO indoor system was estimat- ed. Radio coverage was estimated through the use of the Ray Tracing Solver. The throughput performance was esti- mated by employing the 802.11 (Wi-Fi) throughput module and TruNET Wireless MIMO functionality.

Ultra wideband Radio Coverage and IR Estimation

In this scenario the radio coverage and the Impulse Re- sponse of an UWB system operating in the 3-10GHz range was estimated. Radio coverage was estimated through the use of the Ray Tracing Solver. The Impulse Response was estimated by employing the UWB module.

Internet of Things (IoT) Radio and Interference Analysis

In this scenario an Internet of Things (IoT) radio network is deployed at 2.4GHz. The scope is to examine radio coverage and interference between neighboring nodes. Scenario is constructed by utilizing TruNET Wireless unique ability to create Transceiver elements. A user can similarly use TruNET Wireless transceiver design functionality to simulate any ad-hoc/mesh or infrastructure networks.

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