Add to ORKGIn this paper we study the geometrical and time-variant wireless vector channel model with hyperbolically distributed scatterers for a macrocell mobile environment. In this study we investigate the level-crossing rate (LCR), the average duration of fades (ADF), the probability density function (PDF), the cumulative distribution function (CDF) and the autocorrelation functions (ACF) of this recently-proposed model. The simulated results are verified against the analytical Clarke's channel model. In this paper we study the geometrical and time-variant wireless vector channel model with hyperbolically distributed scatterers for a macrocell mobile environment. In this study we investigate the level-crossing rate (LCR), the average duration...
Recently, mobile-to-mobile (M2M) cooperative network technology has gained considerable attention fo...
In this paper we present a geometric multipath propagation model for a microcell mobile environment....
In this paper we present a geometric multipath propagation model for a microcell mobile environment....
In this paper we present a space-time geometricalbased channel model for a macrocell mobile environm...
A geometric scattering model that predicts the actual measured probability density functions (pdf�...
A geometrical channel model with hyperbolically distributed scatterers for a macrocell mobile enviro...
The level-crossing rate (LCR) and average duration of fades (ADF) are important statistical quantiti...
Second order statistics provides an efficient representation of a fading channel and plays a major r...
Abstract { This paper derives equations that describe level-crossing rates and average fade duration...
Published version of an article from the journal: Wireless Personal Communications. The original pub...
Published version of an article from the journal: Wireless Personal Communications. The original pub...
AbstractSum-of-cisoids (SOC) processes provide a physically and numerically appealing framework for ...
Recently, a Clarke\u27s model-based simulator was proposed for Rayleigh fading channels. However, th...
The development of mobile communication has been dramatically increasing in recent years. New concep...
Wireless communication has been experiencing many recent advances in mobile to mobile (M2M) applicat...
Recently, mobile-to-mobile (M2M) cooperative network technology has gained considerable attention fo...
In this paper we present a geometric multipath propagation model for a microcell mobile environment....
In this paper we present a geometric multipath propagation model for a microcell mobile environment....
In this paper we present a space-time geometricalbased channel model for a macrocell mobile environm...
A geometric scattering model that predicts the actual measured probability density functions (pdf�...
A geometrical channel model with hyperbolically distributed scatterers for a macrocell mobile enviro...
The level-crossing rate (LCR) and average duration of fades (ADF) are important statistical quantiti...
Second order statistics provides an efficient representation of a fading channel and plays a major r...
Abstract { This paper derives equations that describe level-crossing rates and average fade duration...
Published version of an article from the journal: Wireless Personal Communications. The original pub...
Published version of an article from the journal: Wireless Personal Communications. The original pub...
AbstractSum-of-cisoids (SOC) processes provide a physically and numerically appealing framework for ...
Recently, a Clarke\u27s model-based simulator was proposed for Rayleigh fading channels. However, th...
The development of mobile communication has been dramatically increasing in recent years. New concep...
Wireless communication has been experiencing many recent advances in mobile to mobile (M2M) applicat...
Recently, mobile-to-mobile (M2M) cooperative network technology has gained considerable attention fo...
In this paper we present a geometric multipath propagation model for a microcell mobile environment....
In this paper we present a geometric multipath propagation model for a microcell mobile environment....