Showing papers by "Timothy A. Thomas published in 2000"

Method and device for multi-user channel estimation

Abstract: The invention computes frequency-domain channel gains by compiling a set of estimated channel gains as a function of pilot sequences, a set of analytical channel gains variables, and a set of weighting coefficients variables. A plurality of weighting coefficients are computed as a function of time and frequency correlation functions, a noise correlation matrix, and pilot sequences. A weighting matrix is computed from the weighting coefficients. After receiving a training sequence from at least one transmitter, a received data matrix is computed from the training sequence. The weighting matrix and the received data matrix are used to compute the frequency-domain channel gains. The invention also provides a method for reducing the computational complexity of estimating the time and frequency response of at least one desired signal received by at least one antenna. Also, the time and frequency response of at least one desired signal received by at least one antenna can be both interpolated and predicted with the present invention.

Method and device for exploiting transmit diversity in time varying wireless communication systems

Abstract: A method of operating a communication system including at least two transmitting antennas and at least one receive antenna. Symbols are encoded across the at least two transmitting antennas during a coding interval. Data is received at each receive antenna and at each symbol of the coding interval. Channel gain estimates are provided between each transmitting antenna and each receive antenna at each symbol of the coding interval. An estimate of transmitted symbols is determined based on the channel gain estimates and the received data at each receive antenna at each symbol of the coding interval. An information unit is provided the estimates of the transmitted symbols to achieve spatial diversity in a communication link while mitigating channel variations.

Method and device for adaptive antenna combining weights

Abstract: A receiving device and method for operating a communication system are provided. The receiving device receives a plurality of time-domain Doppler channel estimates for at least one transmitter, a plurality of Doppler sinusoids, and a spatial covariance matrix of a corrupting environment. A Doppler spatial covariance matrix is created as a function of the time-domain Doppler channel estimates and the Doppler sinusoids. A total Doppler spatial covariance matrix is created as a function of the spatial covariance matrix of the corrupting environment and the Doppler spatial covariance matrix. A Doppler steering vector is created for at least one transmitter as a function of the Doppler channel estimates and the Doppler sinusoids. A combining weight for the at least one transmitter is then created as a function of the total Doppler spatial covariance matrix and the Doppler steering vector for at least one transmitter.

Method and device for fixed in time adaptive antenna combining weights

Abstract: A receiving device and method for operating a communication system are provided. The receiving device receives at least one Doppler channel estimate for at least one transmitter and a spatial covariance matrix of a corrupting environment. The Doppler channel estimates are used to create a Null Doppler spatial covariance matrix. A total Doppler spatial covariance matrix is created as a sum of the spatial covariance matrix of the corrupting environment, plus the Doppler spatial covariance matrix. A combining weight for at least one transmitter and at least one Doppler channel is created from the total Doppler spatial covariance and the at least one Doppler channel for the at least one transmitter.

Method and device for multi-user frequency-domain channel estimation based on gradient optimization techniques

Abstract: The invention is a method of estimating the time and frequency response of at least one desired signal received by at least one antenna, based on Gradient Optimization techniques. Through the use of gradient optimization techniques and efficient DFT processing, the invention provides frequency response estimates that require fewer computations than prior art decision-directed channel estimation devices.

Method and device for multi-user frequency-domain channel estimation

Abstract: The present invention is a technique of estimating the time and frequency response of at least one desired signal received by at least one antenna. The invention is an update formula for the time-invariant channel responses for multiple transmitting devices, called “Doppler channels”, that model the time-varying channel between each of the transmitting devices and each receiving device. Through use of the update formula, the time-varying channels of the multiple transmitting devices can be better tracked than with prior inventions.

Decision-directed tracking for multi-user broadband mobile OFDM

Abstract: This paper presents two new multi-user techniques that aid in the decision-directed tracking of a rapidly time-varying OFDM channel. The first is based on applying gradient optimization techniques to a least squares multi-user frequency-domain channel estimation problem. The second technique is based on a method for modeling a time-varying frequency response as a linear combination of a small number of time-invariant "Doppler channels." This technique provides a formula for updating these Doppler channels, which greatly improves the performance of decision-directed tracking. These techniques are tested for different decision-directed methods in a simulated 6.0 MHz OFDM system with a 330 Hz maximum Doppler frequency and an 8.0 /spl mu/sec maximum delay spread.