This study proposes an iterative, joint channel estimation, equalization, and data detection method in the presence of high mobility for a multicarrier downlink system that communicates over rapidly time-varying channels. The proposed method uses a basis expansion method (BEM) which has low computational complexity and helps to reduce the number of coefficients needed to represent a time-varying channel and therefore is extremely easy to implement practically. Unlike the current literature, which is almost entirely focused on the uplink communication systems due to their computational costs, this method prioritizes the goal of being feasible in a downlink system with a reasonable performance. The proposed suboptimal algorithm is based on th...
Abstract The performance of conventional receivers for wireless communications may severely deterior...
We propose an iterative algorithm for OFDM receivers operating over fast time-varying channels. The ...
In this paper, we propose an estimation technique for rapidly time-varying channels. We approximate ...
Joint time-variant channel estimation and multiuser detection are key building-blocks for wireless b...
The main objective of this dissertation is to present the structural design, performance evaluation,...
This thesis deals with efficient receiver design for digital point-to-point communications. A single...
This study is concerned with the challenging and timely problem of channel equalisation and data det...
This paper investigates fast time-varying channel estimation in LTE-R communication systems. The Bas...
Future wireless communication systems will need sophisticated techniques to operate reliably under t...
AbstractThis paper investigates fast time-varying channel estimation in LTE-R communication systems....
In this treatise, we explore diverse multi-user transmission techniques and joint detection-decoding...
International audienceThis paper investigates the combination of spatial multiplexing and overloadin...
The challenging problem in the design of digital receivers of today's and future high-speed, high da...
Abstract—This paper presents a low-complexity iterative receiver for coded OFDM systems. We present ...
Recent advances in iterative signal processing have allowed communication systems to obtain near opt...
Abstract The performance of conventional receivers for wireless communications may severely deterior...
We propose an iterative algorithm for OFDM receivers operating over fast time-varying channels. The ...
In this paper, we propose an estimation technique for rapidly time-varying channels. We approximate ...
Joint time-variant channel estimation and multiuser detection are key building-blocks for wireless b...
The main objective of this dissertation is to present the structural design, performance evaluation,...
This thesis deals with efficient receiver design for digital point-to-point communications. A single...
This study is concerned with the challenging and timely problem of channel equalisation and data det...
This paper investigates fast time-varying channel estimation in LTE-R communication systems. The Bas...
Future wireless communication systems will need sophisticated techniques to operate reliably under t...
AbstractThis paper investigates fast time-varying channel estimation in LTE-R communication systems....
In this treatise, we explore diverse multi-user transmission techniques and joint detection-decoding...
International audienceThis paper investigates the combination of spatial multiplexing and overloadin...
The challenging problem in the design of digital receivers of today's and future high-speed, high da...
Abstract—This paper presents a low-complexity iterative receiver for coded OFDM systems. We present ...
Recent advances in iterative signal processing have allowed communication systems to obtain near opt...
Abstract The performance of conventional receivers for wireless communications may severely deterior...
We propose an iterative algorithm for OFDM receivers operating over fast time-varying channels. The ...
In this paper, we propose an estimation technique for rapidly time-varying channels. We approximate ...