- Indoor Communication, 2.5G
The network planning of an indoor scenario is investigated. The geometry is a large convention center.
- Urban Communication, 2.5G
The network planning of an urban scenario with 2.5 G is investigated.
- Rural / Suburban Communication, 2.5G
The network planning of a rural/suburban scenario with 2.5G is investigated.
- Indoor Communication, 3G
The network planning of an indoor scenario is investigated. The model consists of a large multi-story building.
- Urban Communication, 3G
The network planning of an urban scenario is investigated. The geometry is described by extruded polygons that represent urban buildings.
- Indoor Communication, 802.11g
Calculate network planning for 802.11g using three different methods inside a large building.
- Urban Communication, 802.11g
Calculate network planning for 802.11g using three different methods in an urban scenario.
- Indoor Network Planning with CDMA EVDO
Perform network planning using code division multiple access (CDMA) EVDO inside a single-story building.
- Digital Video Broadcasting, Rural/Suburban
Calculate the power coverage of four digital video broadcasting transmitters in a rural/suburban scenario.
- EMC City
Determine whether base stations exceed exposure limits in a rural scenario.
- LTE Indoor
Perform indoor network planning for long term evolution (LTE).
- WiMAX Rural Mobile
Perform network planning for WiMAX in a rural mobile scenario.
- Indoor LTE Using MIMO
Perform network planning for long term evolution (LTE) using multiple input multiple output (MIMO) in an indoor scenario.
- Indoor LTE with Components
Perform network planning for long term evolution (LTE) in an indoor scenario of a two-story building.
- Indoor LTE with MIMO Distributed
Perform indoor network planning for long term evolution (LTE) using multiple input multiple output (MIMO).
- Indoor LTE with Leaky Feeder Cable
Perform indoor network planning with LTE and leaky feeder cables.
- Indoor LTE with Monte Carlo
Perform indoor network planning with LTE and generate a Monte Carlo report.
- LTE Urban
Perform network planning for an urban scenario using long-term evolution (LTE).
- Urban LTE with Monte Carlo
Perform urban network planning with LTE and generate a Monte Carlo report.
- Indoor MIMO Through Post-Processing
Perform indoor network planning with MIMO using post-processing.
- TETRA Coverage with Monte Carlo Analysis
Perform traffic simulation and export a report using Monte Carlo analysis for trans-European trunked radio (TETRA).
- TETRA Coverage, Urban
Perform TETRA network planning in an urban scenario.
- Indoor UWB Using IRT
Perform network analysis for ultra-wide band (UWB) frequencies in an indoor scenario.
- WiMAX, Indoor
Perform network analysis for indoor WiMAX coverage.
- WiMAX, Rural, Fixed
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.
- WiMAX, Urban, Fixed
Perform network planning for fixed WiMAX coverage in an urban scenario.
- WiMAX, Urban, Mobile
Perform network planning for mobile WiMAX coverage in an urban scenario.
- LoRaWAN and IoT
Perform network planning for the internet of things (IoT) in an urban scenario.