Add to ORKGEMF exposure in Brussels, Belgium, is studied in the framework of stochastic geometry. Poisson point processes withrealistic intensity are randomly generated to model base stations. Electric field level at random location is deduced froma simple path loss law. Statistical results are compared to experimental data’s in order to optimize the model. Theimpact of network densification is analyzed and probabilities of exceeding exposure thresholds are derived.info:eu-repo/semantics/publishe
We are interested in the assessment of electromagnetic Path-Loss in complex environments. The Path-l...
The aim of the present paper is to show that stochastic geometry provides an efficient computational...
National audienceELFSTAT project, founded by the French ANSES (2015-2019, Grant agreement n. 2015/1/...
Downlink exposure to electromagnetic fields due to cellular base stations in urban environmentsis st...
Downlink exposure to electromagnetic fields due to cellular base stations in urban environments is s...
Stochastic geometry is used to model global exposureto Electro-Magnetic Fields (EMF) in urban enviro...
Exposure to electromagnetic fields due to cellular networks in an urban environment is studied using...
Exposure to electromagnetic fields due to cellularnetworks in an urban environment is studied using ...
The objective of this thesis consists in analysing the global statistics of the coverage and EMF exp...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The growing demand for network capacity due to mobile devices and data-hungry applications has promp...
Stochastic geometry is a highly studied fieldin telecommunications as in many other scientific field...
This paper proposes a studied case to assess the EMF (electromagnetic field) exposure distribution f...
We are interested in the assessment of electromagnetic Path-Loss in complex environments. The Path-l...
The aim of the present paper is to show that stochastic geometry provides an efficient computational...
National audienceELFSTAT project, founded by the French ANSES (2015-2019, Grant agreement n. 2015/1/...
Downlink exposure to electromagnetic fields due to cellular base stations in urban environmentsis st...
Downlink exposure to electromagnetic fields due to cellular base stations in urban environments is s...
Stochastic geometry is used to model global exposureto Electro-Magnetic Fields (EMF) in urban enviro...
Exposure to electromagnetic fields due to cellular networks in an urban environment is studied using...
Exposure to electromagnetic fields due to cellularnetworks in an urban environment is studied using ...
The objective of this thesis consists in analysing the global statistics of the coverage and EMF exp...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The deployment of sub-6 GHz macro-cell networks, which are overlaid by millimeter-wave (MMW) small-c...
The growing demand for network capacity due to mobile devices and data-hungry applications has promp...
Stochastic geometry is a highly studied fieldin telecommunications as in many other scientific field...
This paper proposes a studied case to assess the EMF (electromagnetic field) exposure distribution f...
We are interested in the assessment of electromagnetic Path-Loss in complex environments. The Path-l...
The aim of the present paper is to show that stochastic geometry provides an efficient computational...
National audienceELFSTAT project, founded by the French ANSES (2015-2019, Grant agreement n. 2015/1/...