This paper reports the variation of indoor radio channel caused by metal door. The simulation results using the Finite Difference Time Domain (FDTD) method and measurement results using the vector network analyzer in frequency domain are used for the characterization of received signal strength variation by metal door. Target frequency bands are three - sensor band, 802.11b ISM band, and 802.11a UNII band. From the simulation and measurement results, the effect of door angle to the received signal strength in three frequency bands and effect of radio frequency to variation are investigated. And, FDTD simulation parameters for different environments are suggested
In this work, the propagation loss due to di®raction and insertion losses for indoor scenario at 5....
In this paper the influence of an example indoor environment on narrowband radio channel path loss f...
This paper presents indoor radio channel measurements and models at D-band frequencies. A Line-of-Si...
Due to the wide deployment of indoor wireless local area networks (WLANs), the indoor planning becam...
In this paper, a two-dimensional (2-D) transverse magnetic (TM) mode of finite difference time domai...
Effects of material and configuration of the internal wall on the performance of wideband channel ar...
Indoor channel characterisation is important for a variety of reasons. This includes its use in the ...
Wireless networks have made significant advancement in recent times by adding a new dimension to the...
He continuous evolution of wireless communication systems in indoor environments requires the develo...
An accurate uniform theory of diffraction (UTD) model for the analysis of complex indoor radio envir...
IEE802.15.4 technology is widely deployed to monitor environmental changes without being tethered of...
Proliferation of indoor sensor infrastructure has created a new niche for mobile communications, yet...
Indoor wireless systems poses one of the biggest design challenges although it is the most flexible ...
L'évolution continue des systèmes de communications sans fil en indoor rend nécessaire le développem...
This paper presents the modeling of indoor wave propagation from 1 GHz to 10 GHz. Several obstacles ...
In this work, the propagation loss due to di®raction and insertion losses for indoor scenario at 5....
In this paper the influence of an example indoor environment on narrowband radio channel path loss f...
This paper presents indoor radio channel measurements and models at D-band frequencies. A Line-of-Si...
Due to the wide deployment of indoor wireless local area networks (WLANs), the indoor planning becam...
In this paper, a two-dimensional (2-D) transverse magnetic (TM) mode of finite difference time domai...
Effects of material and configuration of the internal wall on the performance of wideband channel ar...
Indoor channel characterisation is important for a variety of reasons. This includes its use in the ...
Wireless networks have made significant advancement in recent times by adding a new dimension to the...
He continuous evolution of wireless communication systems in indoor environments requires the develo...
An accurate uniform theory of diffraction (UTD) model for the analysis of complex indoor radio envir...
IEE802.15.4 technology is widely deployed to monitor environmental changes without being tethered of...
Proliferation of indoor sensor infrastructure has created a new niche for mobile communications, yet...
Indoor wireless systems poses one of the biggest design challenges although it is the most flexible ...
L'évolution continue des systèmes de communications sans fil en indoor rend nécessaire le développem...
This paper presents the modeling of indoor wave propagation from 1 GHz to 10 GHz. Several obstacles ...
In this work, the propagation loss due to di®raction and insertion losses for indoor scenario at 5....
In this paper the influence of an example indoor environment on narrowband radio channel path loss f...
This paper presents indoor radio channel measurements and models at D-band frequencies. A Line-of-Si...