Due to the wide deployment of indoor wireless local area networks (WLANs), the indoor planning became a research of interest for IT as well as networking researchers. As a result of this wide deployment, many IT applications and services started relying on the ready implemented WLAN infrastructure. Therefore, there is a need for reliable propagation models which are able to predict the WLAN signal strength in indoor environments before starting the real world deployment which leads to an efficient and cost aware deployment process. In this paper we develop an empirical propagation model which focuses mainly on the effect of the door state on the propagated WLAN signal in indoor environments. The measurements were compared to other simulated...
Abstract—The purpose of this paper is to discuss the applicability of the TGn radio channel models i...
Abstract. A power-law path-loss model for indoor communications at 1.8 GHz is examined. In it, the e...
This paper presents the modeling of indoor wave propagation from 1 GHz to 10 GHz. Several obstacles ...
Due to the wide deployment of indoor wireless local area networks (WLANs), the indoor planning becam...
For a planning of indoor Wireless LAN systems working in the ISMband, the signal propagation predict...
In a series of papers by Sarkar and his team conducted radio propagation measurements to study the p...
Abstract: In the fourth generation wireless networks, it is believed that wireless LANs (WLANs) will...
Indoor wireless systems poses one of the biggest design challenges although it is the most flexible ...
Indoor use of wireless systems poses one of the biggest design challenges. It is difficult to predic...
Wireless local area networks (WLANs) play an increasingly significant role in providing ubiquitous n...
The wireless range of an IEEE 802.11b/g system as predicted by an empirical model for path loss and ...
Propagation is one of the important factors to understand in wireless communication systems. Predict...
This paper describes the investigation of the effect on the Wireless Local Area Network (WLAN) signa...
This paper investigates the similarities and differences of the signal strength fluctuations and pos...
This paper reports the variation of indoor radio channel caused by metal door. The simulation resul...
Abstract—The purpose of this paper is to discuss the applicability of the TGn radio channel models i...
Abstract. A power-law path-loss model for indoor communications at 1.8 GHz is examined. In it, the e...
This paper presents the modeling of indoor wave propagation from 1 GHz to 10 GHz. Several obstacles ...
Due to the wide deployment of indoor wireless local area networks (WLANs), the indoor planning becam...
For a planning of indoor Wireless LAN systems working in the ISMband, the signal propagation predict...
In a series of papers by Sarkar and his team conducted radio propagation measurements to study the p...
Abstract: In the fourth generation wireless networks, it is believed that wireless LANs (WLANs) will...
Indoor wireless systems poses one of the biggest design challenges although it is the most flexible ...
Indoor use of wireless systems poses one of the biggest design challenges. It is difficult to predic...
Wireless local area networks (WLANs) play an increasingly significant role in providing ubiquitous n...
The wireless range of an IEEE 802.11b/g system as predicted by an empirical model for path loss and ...
Propagation is one of the important factors to understand in wireless communication systems. Predict...
This paper describes the investigation of the effect on the Wireless Local Area Network (WLAN) signa...
This paper investigates the similarities and differences of the signal strength fluctuations and pos...
This paper reports the variation of indoor radio channel caused by metal door. The simulation resul...
Abstract—The purpose of this paper is to discuss the applicability of the TGn radio channel models i...
Abstract. A power-law path-loss model for indoor communications at 1.8 GHz is examined. In it, the e...
This paper presents the modeling of indoor wave propagation from 1 GHz to 10 GHz. Several obstacles ...