This paper presents a parameterized physical channel model for evaluating the performance of smart antenna systems. The channel model assumes a single antenna at the mobile station and a uniform linear array of omni-directional antenna elements at the base station. It incorporates parameters such as azimuth angle of arrival and departure, angle spread, power delay profiles and Doppler frequency, which have critical influence on the performance of smart antennas. A new feature of the channel model is a thorough framework for the incorporation of user mobility. The proposed model allows for efficient and accurate representation of smart antenna channel aspects, while maintaining low complexity for system level simulations
Mobility of user equipment introduces significant effects on wireless channel parameters in the cont...
International audienceThis paper presents, in a first time, an original method of smart antenna desi...
International audience<p>Wireless technologies are penetrating all human activities deeper and deepe...
This paper presents a parameterized physical channel model for evaluating the performance of smart a...
This paper describes a model for mobile radio channels that includes consideration of directions of ...
This paper describes a model for mobile radio channels that includes consideration of directions of ...
Abstract: This work presents an application of a geometry based model for the simulation of a common...
For evaluation of specific antenna arrangements in wireless communication systems we need physical c...
Future wireless communication systems are expected to support a wide range of services which include...
In this dissertation, the performance enhancement provided by the smart antennas in cellular DS/CDMA...
Summarization: . 1: Introduction -- Ch. 2: Multiple access -- Ch. 3: Array and smart antennas -- Ch....
Smart antennas have been recently applied to improve the capacity and the performance of second gene...
As an efficient capacity enhancement technique, smart an-tenna has been introduced into wireless and...
The simulation approach is an important tool used for the design and implementation of mobile radio ...
Over the last few years, wireless cellular communications has experienced rapid growth in the demand...
Mobility of user equipment introduces significant effects on wireless channel parameters in the cont...
International audienceThis paper presents, in a first time, an original method of smart antenna desi...
International audience<p>Wireless technologies are penetrating all human activities deeper and deepe...
This paper presents a parameterized physical channel model for evaluating the performance of smart a...
This paper describes a model for mobile radio channels that includes consideration of directions of ...
This paper describes a model for mobile radio channels that includes consideration of directions of ...
Abstract: This work presents an application of a geometry based model for the simulation of a common...
For evaluation of specific antenna arrangements in wireless communication systems we need physical c...
Future wireless communication systems are expected to support a wide range of services which include...
In this dissertation, the performance enhancement provided by the smart antennas in cellular DS/CDMA...
Summarization: . 1: Introduction -- Ch. 2: Multiple access -- Ch. 3: Array and smart antennas -- Ch....
Smart antennas have been recently applied to improve the capacity and the performance of second gene...
As an efficient capacity enhancement technique, smart an-tenna has been introduced into wireless and...
The simulation approach is an important tool used for the design and implementation of mobile radio ...
Over the last few years, wireless cellular communications has experienced rapid growth in the demand...
Mobility of user equipment introduces significant effects on wireless channel parameters in the cont...
International audienceThis paper presents, in a first time, an original method of smart antenna desi...
International audience<p>Wireless technologies are penetrating all human activities deeper and deepe...