In the summer of 2013, a wideband propagation measurement campaign using rotating directional antennas at 73 GHz was conducted at the New York University (NYU) campus, in order to collect extensive field measurements for use in a millimeter wave (mmWave) E-band statistical channel model. While the measurement campaign provided over 50 Gigabytes of wideband power delay profiles and angular responses [1], [2], the time and labor intensive measurements were based on only 5 transmitter (Tx) locations and 27 receiver (Rx) locations, making up a total of 74 Tx-Rx link combinations. To help generalize the measurements for immediate model development and eventual site planning, this paper presents an empirical ray-tracing model, with the goal of fi...
Abstract—A new 3-D urban electromagnetic wave propagation model is presented. It provides fast 3-D d...
A ray-tracing model based on the uniform theory of diffraction is briefly described. A comparison be...
Conventional semi-empirical or stochastic propagation prediction models are insufficient for the pla...
Propagation characteristics at 26 GHz, 28 GHz and 38 GHz (Ka band) in outdoor en18 vironments are an...
There is growing interest in using millimeter wave (mmWave) frequencies for future access communicat...
A ray-tracing tool, including specular reflection, diffraction and attenuation by foliage, is experi...
In this paper, we analyze the radio channel characteristics at mmWave frequencies for 5G cellular co...
none9siThe prediction of RF coverage in urban environments is now commonly considered a solved probl...
A ray tracing prediction tool with advanced implementations such as diffuse scattering and vegetatio...
Both empirical and ray-tracing models are powerful tools for studying propagation in indoor environm...
A new three dimensional (3D) ray-tracing propagation prediction tool (3D MRT-1) is being developed f...
There is an explosive growth in the market of wireless communications services in urban areas. New r...
Abstract-A new three dimensional (3D) ray-tracing propagation prediction tool (3D MRT-1) is being de...
The characterization of the wireless propagation channel has always been an important issue in radio...
The requirement for advanced computation-based modelling has prompted new challenges for a relevant ...
Abstract—A new 3-D urban electromagnetic wave propagation model is presented. It provides fast 3-D d...
A ray-tracing model based on the uniform theory of diffraction is briefly described. A comparison be...
Conventional semi-empirical or stochastic propagation prediction models are insufficient for the pla...
Propagation characteristics at 26 GHz, 28 GHz and 38 GHz (Ka band) in outdoor en18 vironments are an...
There is growing interest in using millimeter wave (mmWave) frequencies for future access communicat...
A ray-tracing tool, including specular reflection, diffraction and attenuation by foliage, is experi...
In this paper, we analyze the radio channel characteristics at mmWave frequencies for 5G cellular co...
none9siThe prediction of RF coverage in urban environments is now commonly considered a solved probl...
A ray tracing prediction tool with advanced implementations such as diffuse scattering and vegetatio...
Both empirical and ray-tracing models are powerful tools for studying propagation in indoor environm...
A new three dimensional (3D) ray-tracing propagation prediction tool (3D MRT-1) is being developed f...
There is an explosive growth in the market of wireless communications services in urban areas. New r...
Abstract-A new three dimensional (3D) ray-tracing propagation prediction tool (3D MRT-1) is being de...
The characterization of the wireless propagation channel has always been an important issue in radio...
The requirement for advanced computation-based modelling has prompted new challenges for a relevant ...
Abstract—A new 3-D urban electromagnetic wave propagation model is presented. It provides fast 3-D d...
A ray-tracing model based on the uniform theory of diffraction is briefly described. A comparison be...
Conventional semi-empirical or stochastic propagation prediction models are insufficient for the pla...