This paper concerns the feasibility and achievable performance of adaptive filtering in an interference-limited multipath fading environment as encountered in indoor wireless communications. In a typical cellular radio application, the performance-limiting impairment is interference due to synchronous data streams from other co-channel and adjacent channel users (CCI and ACI). The receiver under consideration employs an adaptive fractionally spaced decision feedback equalizer (DFE) which exploits the correlation of the cyclostationary interference to achieve superior performance relative to the worst case when the interference is stationary noise. This paper presents ideal calculations which confirm that significant DFE performance gains ar...
[[abstract]]In wireless communications, cochannel interference (CCI) and intersymbol interference (I...
Abstract. In this thesis we investigate receiver techniques for maximum likelihood (ML) joint channe...
ABSTRACT Signals transmitted through wireless mobile channels suffer from fading, signal dispersion...
Future wireless personal communications systems are expected to support a wide range of high-quality...
Recursive least-squares adaptive decision-feedback equalizers (DFE) can be classified into the direc...
Commercial interest in Code Division Multiple Access (CDMA) systems has risen dramatically in the la...
Abstract. In a high-rate indoor wireless personal communication system, the delay spread due to mult...
Digital cellular radio (DCR) communications occur over a fading multipath channel. In the case of lo...
Digital cellular systems which use TDMA techniques have recently became one of the most popular mobi...
This paper presents a. study of adaptive equalization techniques designed to improve bit error rates...
The combination of multitone modulation with direct sequence spectrum spreading (DS/SS) has been int...
Due to the increasing popularity of digital transmission systems, the need for channel equalizers ha...
Novel channel equalizer algorithms are introduced for wireless communication systems to combat chan...
In this thesis, we examine the performance of adaptive linear, T/2 fractionally spaced, and decision...
In this paper, an adaptive equalization and interference cancellation method is proposed. The propos...
[[abstract]]In wireless communications, cochannel interference (CCI) and intersymbol interference (I...
Abstract. In this thesis we investigate receiver techniques for maximum likelihood (ML) joint channe...
ABSTRACT Signals transmitted through wireless mobile channels suffer from fading, signal dispersion...
Future wireless personal communications systems are expected to support a wide range of high-quality...
Recursive least-squares adaptive decision-feedback equalizers (DFE) can be classified into the direc...
Commercial interest in Code Division Multiple Access (CDMA) systems has risen dramatically in the la...
Abstract. In a high-rate indoor wireless personal communication system, the delay spread due to mult...
Digital cellular radio (DCR) communications occur over a fading multipath channel. In the case of lo...
Digital cellular systems which use TDMA techniques have recently became one of the most popular mobi...
This paper presents a. study of adaptive equalization techniques designed to improve bit error rates...
The combination of multitone modulation with direct sequence spectrum spreading (DS/SS) has been int...
Due to the increasing popularity of digital transmission systems, the need for channel equalizers ha...
Novel channel equalizer algorithms are introduced for wireless communication systems to combat chan...
In this thesis, we examine the performance of adaptive linear, T/2 fractionally spaced, and decision...
In this paper, an adaptive equalization and interference cancellation method is proposed. The propos...
[[abstract]]In wireless communications, cochannel interference (CCI) and intersymbol interference (I...
Abstract. In this thesis we investigate receiver techniques for maximum likelihood (ML) joint channe...
ABSTRACT Signals transmitted through wireless mobile channels suffer from fading, signal dispersion...