Add to ORKGInterference rejection is very important and often represents an inexpensive way to increase the system capacity of cellular and mobile communication systems. This paper presents a modification to the radial basis function-based direction finding algorithm where the DOA problem is approached as a mapping which can be modeled by training the network with input output pairs with multiple angular separations. The network is then able to track a fixed number of sources with arbitrary angular separations using a linear array. A novel training technique is suggested and the performance of the RBFNN algorithm is compared to ideal data
In this letter, we present a neural network approach to the problem of finding the weights of one- (...
The most widely used localization technology is the two-step method that localizes transmitters by m...
This paper presents a neural network approach for beam-forming and interference cancellation. A thre...
Interference rejection is very important and often represents an inexpensive way to increase the sys...
The problem of Direction of Arrival (DOA) estimation of users in mobile communication systems using ...
The problem of direction of arrival (DOA) estimation of mobile users using linear antenna arrays is ...
The problem of direction of arrival (DOA) estimation of mobile users using linear antenna arrays is ...
A Neural Network architecture is applied to the problem of Direction Of Arrival (DOA) estimation usi...
This paper discusses an experimental neural network based smart antenna capable of performing direct...
This paper considers the problem of multiple-source tracking with neural network-based smart antenna...
A novel approach to the problem of finding the weights of an adaptive array is presented. In cellula...
A new neural network based approach to the problem of adaptive interference nulling using circular a...
In recent years application of Neural Network (NN) algorithms in both target tracking problem and Do...
A novel method to provide high-resolution Two-Dimensional Direction of Arrival (2D DOA) estimation e...
A neural network approach to the problem of finding the weights of one and two-dimensional adaptive ...
In this letter, we present a neural network approach to the problem of finding the weights of one- (...
The most widely used localization technology is the two-step method that localizes transmitters by m...
This paper presents a neural network approach for beam-forming and interference cancellation. A thre...
Interference rejection is very important and often represents an inexpensive way to increase the sys...
The problem of Direction of Arrival (DOA) estimation of users in mobile communication systems using ...
The problem of direction of arrival (DOA) estimation of mobile users using linear antenna arrays is ...
The problem of direction of arrival (DOA) estimation of mobile users using linear antenna arrays is ...
A Neural Network architecture is applied to the problem of Direction Of Arrival (DOA) estimation usi...
This paper discusses an experimental neural network based smart antenna capable of performing direct...
This paper considers the problem of multiple-source tracking with neural network-based smart antenna...
A novel approach to the problem of finding the weights of an adaptive array is presented. In cellula...
A new neural network based approach to the problem of adaptive interference nulling using circular a...
In recent years application of Neural Network (NN) algorithms in both target tracking problem and Do...
A novel method to provide high-resolution Two-Dimensional Direction of Arrival (2D DOA) estimation e...
A neural network approach to the problem of finding the weights of one and two-dimensional adaptive ...
In this letter, we present a neural network approach to the problem of finding the weights of one- (...
The most widely used localization technology is the two-step method that localizes transmitters by m...
This paper presents a neural network approach for beam-forming and interference cancellation. A thre...