Inspired by the 'turbo principle', this thesis deals with two iterative technologies in orthogonal frequency division multiplexing (OFDM) systems: iterative interference cancelation in space-frequency block coded OFDM (SFBC-OFDM) and iterative channel estimation/ tracking in OFDM Access (OFDMA) with particular application to Worldwide Inter-operability for Microwave Access (WiMAX) systems. The linear matched filter (MF) decoding in SFBC-OFDM is simple yet obtains maximumlikelihood (ML) performance based on the assumption that the channel frequency response remains constant within a block. However, frequency response variations gives rise to inter-channel interference (lCI). In this thesis, a parallel interference cancelation (PIC) ...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
The combination of multiple-input multiple-output (MIMO) technology and orthogonal frequency divisio...
Inspired by the 'turbo principle', this thesis deals with two iterative technologies in orthogonal f...
Inspired by the 'turbo principle', this thesis deals with two iterative technologies in orthogonal ...
Recent advances in iterative signal processing have allowed communication systems to obtain near opt...
We consider the design of turbo receiver structures for space-frequency block coded orthogonal frequ...
The use of turbo/LDPC channel coding in wireless communication systems opens new avenues as far as t...
Abstract Iterative receiver techniques, multiple-input – multiple-output (MIMO) processing, and orth...
The presence of dispersive fading and inter-carrier interference (ICI) constitute the major impedime...
Wireless communication systems have greatly advanced during the last years. A significant contributo...
In broadband wireless multicarrier communication systems, intersymbol interference (ISI) and interca...
Abstract—This paper presents a low-complexity iterative receiver for coded OFDM systems. We present ...
Iterative channel estimation and decoding (ICED) technique is widely used to improve the performance...
Abstract The performance of conventional receivers for wireless communications may severely deterior...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
The combination of multiple-input multiple-output (MIMO) technology and orthogonal frequency divisio...
Inspired by the 'turbo principle', this thesis deals with two iterative technologies in orthogonal f...
Inspired by the 'turbo principle', this thesis deals with two iterative technologies in orthogonal ...
Recent advances in iterative signal processing have allowed communication systems to obtain near opt...
We consider the design of turbo receiver structures for space-frequency block coded orthogonal frequ...
The use of turbo/LDPC channel coding in wireless communication systems opens new avenues as far as t...
Abstract Iterative receiver techniques, multiple-input – multiple-output (MIMO) processing, and orth...
The presence of dispersive fading and inter-carrier interference (ICI) constitute the major impedime...
Wireless communication systems have greatly advanced during the last years. A significant contributo...
In broadband wireless multicarrier communication systems, intersymbol interference (ISI) and interca...
Abstract—This paper presents a low-complexity iterative receiver for coded OFDM systems. We present ...
Iterative channel estimation and decoding (ICED) technique is widely used to improve the performance...
Abstract The performance of conventional receivers for wireless communications may severely deterior...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
This thesis report presents some new methods to improve the channel estimation, equalization, and co...
The combination of multiple-input multiple-output (MIMO) technology and orthogonal frequency divisio...