Add to ORKGVehicular communication channels are characterized by a non-stationary time- and frequency-selective fading process due to rapid changes in the environment. The non-stationary fading process can be characterized by assuming local stationarity for a region with finite extent in time and frequency. For this finite region the wide-sense stationarity and uncorrelated-scattering (WSSUS) assumption holds approximately and we are able to calculate a time and frequency dependent local scattering function (LSF). In this paper, we estimate the LSF from a large set of measurements collected in the DRIVEWAY’09 measurement campaign, which focuses on scenarios for intelligent transportation systems. We then obtain the time-frequency-varying power delay p...
Abstract—The fading process describing the propagation effects caused by scattering between two mobi...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...
Abstract in Undetermined Vehicular communication channels are characterized by a nonstationary time-...
Wireless vehicle-to-vehicle communication systems are a crucial part of intelligent transportation s...
In vehicle-to-vehicle wireless communications the time-variability of the propagation conditions is ...
Projecte final de carrera fet en col.laboració amb FTW i Technische Universität WienEnglish: In this...
Due to rapid changes in the environment, vehicular communication channels no longer satisfy the assu...
Due to rapid changes in the environment, vehicular communication channels no longer satisfy the assu...
Non-stationarity of vehicle-to-vehicle channels is one of the key elements that has to be taken int...
Vehicular communication channels are characterized by a non-stationary time- and frequency-selective...
Novel joint delay Doppler probability density functions for vehicle-to-vehicle communications chann...
Non-stationarity of vehicle-to-vehicle channels is one of the key elements that has to be taken int...
To deploy effective communication systems in vehicle cavities, it is critical to understand the time...
To deploy effective communication systems in vehicle cavities, it is critical to understand the time...
Abstract—The fading process describing the propagation effects caused by scattering between two mobi...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...
Abstract in Undetermined Vehicular communication channels are characterized by a nonstationary time-...
Wireless vehicle-to-vehicle communication systems are a crucial part of intelligent transportation s...
In vehicle-to-vehicle wireless communications the time-variability of the propagation conditions is ...
Projecte final de carrera fet en col.laboració amb FTW i Technische Universität WienEnglish: In this...
Due to rapid changes in the environment, vehicular communication channels no longer satisfy the assu...
Due to rapid changes in the environment, vehicular communication channels no longer satisfy the assu...
Non-stationarity of vehicle-to-vehicle channels is one of the key elements that has to be taken int...
Vehicular communication channels are characterized by a non-stationary time- and frequency-selective...
Novel joint delay Doppler probability density functions for vehicle-to-vehicle communications chann...
Non-stationarity of vehicle-to-vehicle channels is one of the key elements that has to be taken int...
To deploy effective communication systems in vehicle cavities, it is critical to understand the time...
To deploy effective communication systems in vehicle cavities, it is critical to understand the time...
Abstract—The fading process describing the propagation effects caused by scattering between two mobi...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...
We present a generic statistical characterization of the vehicle-to-vehicle (V–V) wireless channel b...