We develop an adaptive receiver for multiple-input multiple-output (MIMO) frequency selective channels that employ space-time block-coded transmissions with cyclic prefixing. The receiver performs both interference suppression and equalization for multiuser transmissions. The structure of the space-time code is exploited to show that the receiver can be implemented on a per-frequency-bin basis rather than on a block-by-block basis. The adaptation scheme requires solving N independent problems each of complexity O(M/sup 2/) per block iteration, where M is the number of users and N is the block size
A computationally efficient space-time turbo equalization algorithm is derived for frequency selecti...
We develop adaptive channel estimation techniques for space–time block–coded (STBC) multiple–input m...
In this paper, a cooperative algorithm to improve the orthogonal space-timefrequency block codes (OS...
In this paper, some novel results on adaptive space-time-frequency (STF) coding schemes for multiple...
This paper describes a novel low complexity time-frequency spreading of orthogonal block codes for M...
The growing popularity of wireless communications networks has resulted in greater bandwidth content...
Abstract — This paper considers receiver design for space time block coded MIMO OFDM transmission ov...
This paper proposes a new class of Space-Time Block Codes, which is manipulated from the existing tr...
The most important linear precoding method for frequency-flat MIMO broadcast channels is block diago...
We present a new class of space-time-frequency block codes (STFBC) for multiantenna orthogonal frequ...
We present a new class of Space-time-frequency Block Codes (STFBC) for multiantenna Orthogonal Frequ...
A computationally efficient space-time turbo equalization algorithm is derived for frequency-selecti...
In this paper, we present a class of low complexity space-time receivers for frequency-selective cha...
In this paper, we present a class of low complexity space-time receivers for frequency-selective cha...
We develop an efficient adaptive receiver for joint equalization and interference cancellation for m...
A computationally efficient space-time turbo equalization algorithm is derived for frequency selecti...
We develop adaptive channel estimation techniques for space–time block–coded (STBC) multiple–input m...
In this paper, a cooperative algorithm to improve the orthogonal space-timefrequency block codes (OS...
In this paper, some novel results on adaptive space-time-frequency (STF) coding schemes for multiple...
This paper describes a novel low complexity time-frequency spreading of orthogonal block codes for M...
The growing popularity of wireless communications networks has resulted in greater bandwidth content...
Abstract — This paper considers receiver design for space time block coded MIMO OFDM transmission ov...
This paper proposes a new class of Space-Time Block Codes, which is manipulated from the existing tr...
The most important linear precoding method for frequency-flat MIMO broadcast channels is block diago...
We present a new class of space-time-frequency block codes (STFBC) for multiantenna orthogonal frequ...
We present a new class of Space-time-frequency Block Codes (STFBC) for multiantenna Orthogonal Frequ...
A computationally efficient space-time turbo equalization algorithm is derived for frequency-selecti...
In this paper, we present a class of low complexity space-time receivers for frequency-selective cha...
In this paper, we present a class of low complexity space-time receivers for frequency-selective cha...
We develop an efficient adaptive receiver for joint equalization and interference cancellation for m...
A computationally efficient space-time turbo equalization algorithm is derived for frequency selecti...
We develop adaptive channel estimation techniques for space–time block–coded (STBC) multiple–input m...
In this paper, a cooperative algorithm to improve the orthogonal space-timefrequency block codes (OS...