Your search keyword '"DS-CDMA"' showing total 483 results

101. Soft Demodulation Algorithms for Orthogonally Modulated and Convolutionally Coded DS-CDMA Systems.

Author

Pei Xiao and Ström, Erik

Subjects

*TELECOMMUNICATION research, *DEMODULATION, *ALGORITHMS, *CHARACTER sets (Data processing), *DECODERS & decoding, *DECODERS (Electronics), *CODE division multiple access

Abstract

A convolutionally coded M-ary orthogonal direct sequence code division multiple access (DS-CDMA) system in time-varying frequency-selective Rayleigh fading channels is considered in this work. We propose several novel soft demodulation algorithms based on interference cancellation and suppression techniques that can be coupled with soft decoding to improve the system performance in an iterative manner. The performance of the proposed demodulation algorithms is evaluated numerically and proved to achieve substantial bit error rate (BER) performance gain compared with the conventional detection schemes. [ABSTRACT FROM AUTHOR]

Published

2010

102. Chip Equalized Adaptive Rake Receiver for DS-CDMA UWB Systems.

Author

Biradar, G. S., Merchant, S. N., and Desai, U. B.

Subjects

*COMMUNICATION & technology research, *TELEPHONE equipment, *TELECOMMUNICATION systems, *INTEGRATED circuits, *INTERFERENCE (Sound), *INFORMATION measurement, *ELECTRONIC information resources, *ACCESS control, *CONVERGENCE (Telecommunication), *DIVERSITY receiving systems

Abstract

Conventional Rake receiver is a popular and effective method of utilizing the diversity offered by a DS-CDMA and multipath communication channel. The proposed Rake receiver is useful for suppression of multiple access interference in a multipath channel. The receiver works on chip level equalization on each Rake finger to cancel multi-access interference. Simulation results show that the convergence, diversity gain and bit error probability performance of the proposed receiver is much better than conventional adaptive Rake receiver in multipath channels. [ABSTRACT FROM AUTHOR]

Published

2010

103. Robust power control of CDMA cellular radio systems with time-varying delays

Author

Yang, Chang-Yi and Chen, Bor-Sen

Subjects

*ROBUST control, *CODE division multiple access, *CELL phone systems, *TIME delay systems, *FILTERS (Mathematics), *SIGNAL-to-noise ratio

Abstract

Abstract: Power control is an important factor to increase communication link quality and system capacity in the direct-sequence code-division multiple access (DS-CDMA) cellular radio systems. The Smith prediction filter can achieve the unbiased asymptotic tracking about a desired target signal to interference noise ratio (SINR) under the fixed round-trip delay. However, it is sensitive to the variation of round-trip delay. In order to track the desired SINR with the time-varying round-trip delay, a multiple-mode Smith prediction filter, which combines the multiple Smith predictors with a likelihood function, is proposed for the power control of CDMA systems. The proposed scheme can compensate for the unknown time-varying round-trip delay. Simulation results show that the performance of the proposed multiple-mode power control method is robust to time-varying round-trip delay in the CDMA cellular radio systems. [Copyright &y& Elsevier]

Published

2010

104. Wavelet Joint Detector in Cooperative CDMA System.

Author

PENG Zhang-you, LIN Jie, and LIU Yan-yan

Published

2009

105. Subspace-Based Schemes for NBI and MAI Suppression in DS-CDMA Communications.

Author

Chang, Ann-Chen

Subjects

MULTIPLE access protocols (Computer network protocols), SCHEME programming language, CODE division multiple access, COMPUTER simulation, SIMULATION methods & models

Abstract

This paper deals with narrowband interference (NBI) and multiple access interference (MAI) suppression based on subspace-based approaches for direct-sequence code-division multiple-access (DS-CDMA) systems. First, the signal subspace-based and the interference subspace-based techniques are developed to estimate the noisy DS-CDMA signal and the interference signal, respectively. In conjunction with a modified multiple constrained minimum variance multiuser detector, we develop two efficient schemes to deal with the NBI and MAI that do not need any prior knowledge about the characteristics of the interference and specific training sequence. Next, an adaptive implementation based on a signal subspace tracking algorithm and a recursive least mean square algorithm is also developed. Several computer simulation examples in terms of bit error rate are provided for illustrating the effectiveness of the proposed schemes. [ABSTRACT FROM AUTHOR]

Published

2009

106. Convergence analysis of adaptive DS-CDMA receivers in multi-path channels

Author

Ueng, Fang-Biau, Wang, Hsuan-Fu, and Chang, Jui-Chi

Subjects

*CODE division multiple access, *DIGITAL signal processing, *MOBILE communication systems, *MATHEMATICAL analysis, *LEAST squares, *MATHEMATICAL models

Abstract

Abstract: This paper objectively investigates the convergence and transient behaviors of symbol-rate adaptive receivers for direct sequence-code division multiple access (DS-CDMA) communication system in dispersive multi-path environment. The input signal vector is modeled as a simple stochastic model to simplify the analyses of the least mean square (LMS) and normalized least mean square (NLMS) adaptive receivers. The mean square error (MSE) learning curve, which is based on ensemble averaging of the squared estimation error, is applied to analyze the convergences of the adaptive receivers for DS-CDMA systems interfered with multiple access interference (MAI) and inter-symbol interference (ISI). The analytical results are verified with computer simulations. Computer simulations show that the analytical results are consistent with simulations. [Copyright &y& Elsevier]

Published

2009

107. Orthogonal Constrained PARAFAC Blind Receiver for DS-CDMA Systems.

Author

LIU Xu and XU Zong-ze

Published

2009

108. Performance of DS-CDMA Downlink Using Transmitter Preprocessing and Relay Diversity over Nakagami-m Fading Channels.

Author

Wei Fang, Yang, Lie-Liang, and Hanzo, Lajos

Published

2009

109. Near-Optimum Multiuser Detectors Using Soft-Output Ant-Colony-Optimization for the DS-CDMA Uplink.

Author

Chong Xu, Maunder, Rob G., Lie-Liang Yang, and Hanzo, Lajos

Subjects

CODE division multiple access, ALGORITHMS, SIGNAL-to-noise ratio, MAXIMUM likelihood statistics, MATHEMATICS, SPREAD spectrum communications

Abstract

In this contribution, a novel soft-output ant colony optimization (SO-ACO)-based multiuser detector (MUD)--namely the MUlti-input-Approximation (MUA) assisted SO-ACO-based MUD--is proposed for the synchronous direct-sequence code-division-multiple-access (DS-CDMA) uplink (UL). The previously proposed conventional ACO based MUDs were unable to provide soft log-likelihood ratio (LLR) values for the channel decoder. Hence, to solve this open problem, we commence by proposing the MAximum-Approximation (MAA) assisted SO-ACO algorithm, leading to a novel MUA assisted SO-ACO algorithm, which subsumes the MAA algorithm as a particular case and outperforms the MAA algorithm. More explicitly, at a signal-to-noise ratio (SNR) of 13 dB, the BER performance of the conventional coding (CC) aided CDMA UL employing the MAA SO-ACO is improved from 5.2 ⋅ 10-6 to 2.7 ⋅ 10-6 by employing the MUA SO-ACO. Our numerical results also demonstrate that the MUA assisted SO ACO-MUD is capable of approaching the optimum performance of the Bayesian detector, when K : 32 UL users are supported with the aid of 31-chip Gold codes, while the complexity of the former is a fraction of 10-8 lower than that of the latter. [ABSTRACT FROM AUTHOR]

Published

2009

110. An Iterative Expectation-Maximization Algorithm Based Joint Estimation Approach for CDMA/OFDM Composite Radios.

Author

Tianqi Wang, Cheng Li, and Hsiao-Hwa Chen

Abstract

In this paper, an innovative frequency domain joint estimation algorithm for synchronization parameter and channel impulse response (CIR) in direct sequence code division multiple access (DS-CDMA) systems is proposed. The algorithm is based on the expectation-maximization (EM) method. It can provide accurate estimation of channel state information and synchronization parameter for a DS-CDMA receiver even with a simple equalization module (e.g., an one-tap multiplier based frequency domain equalizer (FDE)), and a radio receiver with this approach performs better than a costly multi-tap multiplier based equalizer, such as the time domain equalizer (TDE). A generic receiver architecture based on the frequency domain equalization for a composite radio, which works in both CDMA and orthogonal frequency division multiplexing (OFDM) modes, is also proposed. The Cramer-Rao lower bound (CRLB) of the proposed estimator and its optimization scheme are derived. This architecture can be implemented with an iterative approach, and the results demonstrate that this adaptive receiver performs very well with a relatively low cost. [ABSTRACT FROM PUBLISHER]

Published

2008

111. Iterative Joint Channel Estimation and Multiuser Detection for DS-CDMA in Frequency-Selective Fading Channels.

Author

Sau-Hsuan Wu, Mitra, Urbashi, and Kuo, C.-C. Jay

Subjects

*ELECTRICAL engineering, *SIMULATION methods & models, *COMPUTER simulation, *TELECOMMUNICATION, *MULTIPLEXING, *DATA transmission systems, *ORTHOGONAL frequency division multiplexing, *SIGNAL processing, *ESTIMATION theory

Abstract

An iterative joint channel estimation, symbol detection, phase recovery and interference cancellation structure is proposed for asynchronous code-division multiple-access systems over frequency-selective fading channels. Based on the expectation maximization (EM) algorithm, a recursive channel estimator is developed for blind channel tracking, using a novel stochastic signal processing technique. To perform symbol detection given the phase ambiguities of the resultant EM channel estimates, a noncoherent scheme is developed to compute the a posteriori probabilities (APPs) of data symbols. Moreover, by incorporating the APPs into the proposed recursive channel estimator, phase ambiguity due to the EM channel estimation can be resolved, which enables soft multiple access interference cancellation for multiuser detection. Based on these new signal processing schemes, an iterative structure is proposed for joint channel estimation and multiuser detection over fast fading channels. [ABSTRACT FROM AUTHOR]

Published

2008

112. Direction of Arrival (DoA) Estimation for a Switched-Beam DS-CDMA System using Neural Networks.

Author

Gotsis, Konstantinos A., Kaifas, Theodoros N., Siakavara, Katherine, and Sahalos, John N.

Subjects

CODE division multiple access, ARTIFICIAL neural networks, SWITCHED capacitor filters, WIRELESS communications, MOBILE communication systems

Abstract

Copyright of Automatika: Journal for Control, Measurement, Electronics, Computing & Communications is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2008

113. Assessing the impact of physical layer techniques on ad hoc network performance.

Author

Stamatiou, Kostas and Proakis, John G.

Subjects

MOBILE communication systems, SYSTEMS engineering, MATHEMATICAL optimization, STOCHASTIC processes

Abstract

Abstract: This article provides an overview on the topic of ad hoc network performance analysis, mainly from a physical layer standpoint. The emphasis of the paper is on how the individual link and network performance can be evaluated in an analytically tractable manner, such that design insights can be obtained and optimization over key parameters is possible. Our model is that of a large random network, where the wireless channel comprises path-loss and fading. Various physical layer factors are taken into account: the multiple-access (MA) scheme, such as direct-sequence (DS) CDMA and frequency-hopping (FH) CDMA; error correction coding such as Reed–Solomon (RS) or convolutional coding; coherent or noncoherent detection; the use of multiple-input, multiple-output (MIMO) techniques to enhance error protection or to increase the transmission rate. The performance of the network is evaluated and optimized in terms of useful metrics such as the network throughput, the information efficiency and the transmission capacity. [Copyright &y& Elsevier]

Published

2008

114. Design of the tree-shaped UWB antenna using fractal concept.

Author

Park, Jong K., An, Hee S., and Lee, Jung N.

Subjects

*ULTRA-wideband antennas, *ANTENNAS (Electronics), *FRACTALS, *ELECTRIC impedance, *BANDWIDTHS, *RADIATION, *ANGLES

Abstract

In this article, we have proposed a novel tree-shaped ultra-wideband antenna for UWB applications. We have used the partial ground plane technique and the fractal concept to achieve an ultra-wideband impedance matching. It is found that as the number of iteration increases, the lower-edge of the impedance bandwidth is moved to the low frequency and the level of the impedance matching over the operating frequency band (3.1–4.8 GHz) is improved. Prototypes of the proposed antennas have been successfully implemented and good radiation characteristics in the operating frequency bands have been achieved. The effect of the angle between upper and lower trapezoids on the return loss was also studied. © 2007 Wiley Periodicals, Inc. Microwave Opt Technol Lett 50: 144–150, 2008; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.23010 [ABSTRACT FROM AUTHOR]

Published

2008

115. A 3.1 to 5 GHZ CMOS RF transmitter for direct-sequence code division multiple access applications.

Author

Bon-Hyun Ku, Bonghyuk Park, and Songcheol Hong

Subjects

*COMPLEMENTARY metal oxide semiconductors, *SPREAD spectrum communications, *CODE division multiple access, *WIRELESS communications, *ELECTRONICS

Abstract

An ultra-wideband RF transmitter with local oscillator (LO) leakage reduction method for direct-sequence code division multiple access (DS-CDMA) is presented. To achieve ultra-wideband gain flatness, the method of combining two shunt-peaking loads with different resonant frequencies is used. A double balanced mixer with a linear transconductance stage is used to increase the linearity of the mixer. To reduce the LO leakage at the output port, an additional DC feedback loop is applied to the linear transconductor. Measurement results show 9.5 dB gain with ±0.8 dB variation over 3.1–5 GHz range. The output P1dB is approximately -3 dBm and the output IP3 is more than 9.8 dBm for a frequency greater than 3–5 GHz. By the LO leakage reduction method, the LO leakage output power is 5 dB lower than without it. The transmitter consumes 54 mW with a 1.8 V supply and is realized with a 0.18 μm RF CMOS technology. © 2007 Wiley Periodicals, Inc. Microwave Opt Technol Lett 49: 3140–3145, 2007; Published online in Wiley Inter-Science (www.interscience.wiley.com). DOI 10.1002/mop.22960 [ABSTRACT FROM AUTHOR]

Published

2007

116. Performance of optimum wavelet for DS-CDMA chip waveform over multi-path Rayleigh fading channels.

Author

Öztürk, Ertan and Şahin, Bariş

Subjects

*WIRELESS communications, *RAYLEIGH waves, *CODE division multiple access, *RADIO transmitter fading, *TIME division multiple access

Abstract

In this paper, the probability of error (Pe) expression of asynchronous direct sequence-code division multiple access (DS-CDMA) signals using band-limited chip waveforms is derived over multi-path Rayleigh fading channels. In receiver, a matched filter-based rake receiver in conjunction with maximum ratio combiner (MRC) is considered. Numerical values for the Pe are calculated for various chip waveforms including an optimum wavelet waveform. Analytical results are verified by conducting simulations. Results show that the optimum wavelet-based scheme outperforms time-limited raised cosine, half sine, rectangular and band-limited square-root raised cosine chip waveform-based schemes in terms of the Pe and the capacity defined as the number of users per Hertz for a same Pe level. Copyright © 2006 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2007

117. Advanced sensorial system for an acoustic LPS

Author

Ureña, J., Hernández, A., Jiménez, A., Villadangos, J.M., Mazo, M., García, J.C., García, J.J., Álvarez, F.J., De Marziani, C., Pérez, M.C., Jiménez, J.A., Jiménez, A.R., and Seco, F.

Subjects

*MICROPROCESSORS, *CODE division multiple access, *SPREAD spectrum communications, *TIME division multiple access, *MOBILE robots

Abstract

This work presents the development and implementation of a Local Positioning System (LPS) based on the transmission of ultrasonic signals, proposed for indoor positioning of mobile robots. The LPS consists of several ultrasonic beacons located in the environment, all of them emitting periodically and simultaneously. A portable receiver collects all the transmissions and autonomously computes its position. Neither infrared nor radiofrequency are required for synchronization in the localization process, compared to other related works. Direct Sequence Code Division Multiple Access (DS-CDMA) techniques are used to allow simultaneous emission from several beacons; each one transmitting a different 255-bit Kasami code. The portable receiver can detect the time of arrival for the different signals coming from the beacons, by carrying out all the correlations with the emitted codes. Absolute position of the receiver is determined by hyperbolic trilateration, using the Differences in Times-of-Arrival (DTOA) between a reference beacon and the other ones. The main advantage of this proposal is to permit the coexistence of an unlimited number of portable receivers, what is useful in applications like multirobot cooperation. [Copyright &y& Elsevier]

Published

2007

118. A robust sequence synchronization unit for multi-user DS-CDMA chaos-based communication systems

Author

Jovic, B., Unsworth, C.P., Sandhu, G.S., and Berber, S.M.

Subjects

*SYNCHRONIZATION, *CHAOS theory, *COMMUNICATION, *CODE division multiple access

Abstract

Abstract: This paper demonstrates a way of achieving and maintaining sequence synchronization in multi-user direct sequence code division multiple access (DS-CDMA) based chaotic communication systems. Synchronization is achieved and maintained through the code acquisition and the code tracking phase, respectively. The performance of the proposed system is evaluated in the presence of additive white Gaussian noise and interuser interferences. Throughout, a pseudo-random binary sequence (PRBS) is used as the synchronizing pilot signal within the multi-user chaotic communication system. In addition, the Logistic and Bernoulli chaotic maps are also used as the pilot signals in the investigation of the code acquisition performance. The code acquisition circuit is evaluated in terms of the probability of detection and probability of false alarm. The corresponding results demonstrate an ability to achieve initial synchronization. Furthermore, it is shown that in terms of code acquisition, the PRBS outperforms the Logistic and Bernoulli chaotic maps. A mathematical model of the code tracking loop is then presented. From the model, a control law for the generation of time offset estimates is derived. The robustness of the synchronization unit is then demonstrated in terms of the bit error rate. It has been shown that for the case of 1, 2, 3, 4, and 5 users, the bit error rate goes below the maximum acceptable limit of 10−3 at the bit energy to noise power spectral density ratio of approximately 8, 9, 9.5, 11, and 12dB, respectively. Furthermore, a gradual degradation in performance, above the maximum acceptable bit error rate limit, is demonstrated for the increasing number of users. [Copyright &y& Elsevier]

Published

2007

119. Performance of a New Premulticoded Multicarrier DS-CDMA System in Nakagami Fading.

Author

Yewen Cao, Tjeng Thiang Tjhung, and Chi Chung Ko

Subjects

*CODE division multiple access, *SPREAD spectrum communications, *TIME division multiple access, *WIRELESS communications, *DEMODULATION, *ELECTRONIC modulation

Abstract

In this paper, we proposed a new multicarrier, direct sequence code division multiple access, the so-called premulticoded MC-DS-CDMA system. In this scheme, the basic MC-DS-CDMA system is augmented with a precoder and a multicode encoder at the transmitter. The multicode encoder is an inverse Walsh-Hadamard transform (IWHT) unit, while the precoder is a recently suggested "constant amplitude" encoder that guarantees that the IWHT output stream has binary level. While IWHT, multicarrier (MC) transmission, and direct sequence spreading provide us with frequency diversity, the constant amplitude precoder ensures that the transmitted waveform is spread BPSK signal, minimizing peak to average-power ratio (PAPR) problem. The multicode and (MC) combination also addresses the need for flexible high data rate services in present day wireless communications. In the receiver, after matched filtering or correlation demodulation for each subcarrier and WHT operation, a detection strategy based on minimum-mean-square-error (MMSE) criterion is used. We have derived an upper bound for the bit error rate (BER) performance in Nakagami fading channel. Numerical results are compared with those obtained from a single carrier DS-CDMA system (SC-DS-CDMA) and a MC-DS-CDMA scheme without the precoding and IWHT units. We show that our proposed MC.DS-CDMA scheme has a much better BER performance compared with both of these schemes. [ABSTRACT FROM AUTHOR]

Published

2007

120. Adaptive Power Control for DS-CDMA Mobile Communication Systems with Grey Prediction Model.

Author

Ho-Lung Hung, Yung-Fa Huang, and Jyh-Horng Wen

Subjects

*ALGORITHMS, *MOBILE communication systems, *TELECOMMUNICATION systems, *MULTIPLE access protocols (Computer network protocols), *COMPUTER network protocols

Abstract

In this paper, an adaptive distributed-balancing (ADB) algorithm with a grey prediction model (ADB-GM) is proposed for the downlink power control in a direct-sequence coded-division multiple access (DS-CDMA) system. The ADB algorithm can effectively distribute the power of the base station to mobiles and balance most of the received link quality to a value larger than the minimum-required signal-to-interference ratio (SIR) at the sacrifice of the deep-faded mobiles. The grey prediction aims to predict the fading signal of next power control period and thus we can compensate for the fading. The simulation results show that the proposed ADB-GM can obtain more system capacity with the constraint of 1.4 ms power control interval. [ABSTRACT FROM AUTHOR]

Published

2007

121. Analysis of received-level detection accuracy in DS-CDMA systems.

Author

Fujii, Teruya

Subjects

*MOBILE communication systems, *CODE division multiple access, *COMPUTER simulation, *RADIO waves, *SIGNAL processing

Abstract

Cellular mobile communications require the detection of received levels at mobile stations so that the positions of the mobile stations can be detected. Given that paths can be isolated in the broadband DS-CDMA method, the technique generally used is RAKE reception, and improvements in detection accuracy due to the path diversity effect can be expected. This paper discusses the application to the DS-CDMA technique of a method in which the average reception power is estimated from N reception levels (the true value) obtained by sampling at a certain time interval ΔT in a mobile communication environment in which the reception voltage changes dynamically as the mobile unit runs. First, we perform a theoretical analysis of the detection accuracy of the received level in a general reception model that simultaneously takes both antenna diversity and path diversity into consideration, and then we demonstrate the plausibility of the theoretical analysis by means of computer simulations. © 2006 Wiley Periodicals, Inc. Electron Comm Jpn Pt 1, 90(2): 58–71, 2007; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/ecja.20217 [ABSTRACT FROM AUTHOR]

Published

2007

122. Efficient statistical parallel interference cancellation for DS-CDMA in Rayleigh fading channels.

Author

David W. Matolak and Beibei Wang

Abstract

We present a reduced-complexity parallel interference cancellation (PIC) technique, in which PIC is performed only on "unreliable" bits (blocks). We term our technique statistical PIC (STPIC), since the decision to employ PIC for any user signal is based upon received signal statistics. Here we propose two different methods: one is bitwise (instantaneous) STPIC (ISTPIC), in which IC is performed only on the bits whose absolute log likelihood ratio (LLR) is below a pre-selected threshold; the other method is block STPIC (BSTPIC), in which IC is performed only on the blocks whose average signal-to-noise-plus-interference ratio (SNIR) is below a pre-selected threshold. Both LLR and SNIR statistics reduce to quantities simple to obtain. We show that STPIC can achieve performance equivalent to conventional full PIC (FPIC) and other partial PIC techniques in flat Rayleigh fading channels, but with reduced computational complexity. We also show our proposed ISTPIC can achieve performance better than FPIC in good channel conditions (e.g., AWGN), still with reduced computational complexity. The ISTPIC performance gain over conventional FPIC is larger in conditions of larger loading factor where efficient IC techniques are more likely to be needed [ABSTRACT FROM PUBLISHER]

Published

2007

123. Robust H∞ Power Control for CDMA Cellular Communication Systems.

Author

Bore-Kuen Lee, Yuan-Ho Chen, and Bor-Sen Chen

Subjects

*CODE division multiple access, *CELL phone systems, *SPREAD spectrum communications, *TIME division multiple access, *ELECTRIC power system control, *RADIO frequency modulation, *TELECOMMUNICATION systems

Abstract

Power control is an important factor for direct-sequence code division multiple access (DS-CDMA) cellular radio systems to achieve higher communication link quality and better system capacity. In order to track the desired signal-to-interference-plus-noise ratio (SINR) under round-trip delay, multiple access interference (MAI), channel fading, and noise, a time delay-based state-space model is developed for representing the tracking error dynamics and a state feedback controller is introduced for SINR tracking control. Then the power tracking problem can be regarded as a control problem. In this paper, a robust H∞ power tracking control design is proposed to achieve a robust optimal SINR tracking from the minimization of the worst-case effect point of view. This robust optimal power tracking design problem can be transformed to solving the eigen-value problem (EVP) under some linear matrix inequality (LMI) constraints. The LMI Matlab toolbox can be used to efficiently solve the EVP via convex optimization to achieve a robust optimal SINR tracking design. Under the proposed distributed framework, the information of channel gain is not needed. [ABSTRACT FROM AUTHOR]

Published

2006

124. Power control for CDMA cellular radio systems via l/sub 1/ optimal predictor.

Author

Chen, B.-S., Lee, B.-K., and Chen, Y.-H.

Abstract

In direct-sequence code division multiple access (DS-CDMA) cellular radio systems, power control is an important means to achieve higher communication link quality and larger system capacity. In order to track a desired signal-to-interference-plus-noise ratio (SINR) under round-trip delay, multiple access interference (MAI), channel fading, and noise, a robust state feedback control via a desired pole (eigenvalue) placement and an l1 optimal prediction is proposed for power control of CDMA systems. The l1 predictor is used to predict the tracking error to compensate for the effect of round-trip delay, such that the peak of prediction error due to the uncertainties of channel fading, interference, and noise is as small as possible. Then the optimal l1 predictor design problem is transformed to a suboptimal prediction problem by minimizing the upper bound of the l1 norm of SINR tracking error and solving the eigenvalue problem (EVP) under some linear matrix inequality (LMI) constraints. Under the proposed framework, the global information of the channel gains of all users in the CDMA system is not required [ABSTRACT FROM PUBLISHER]

Published

2006

125. DS-CDMA downlink system capacity enhancement through interference suppression.

Author

Wang, Y.-P.E. and Bottomley, G.E.

Abstract

In the downlink of direct-sequence code-division multiple-access (DS-CDMA) cellular systems, system capacity is limited by multiuser interference. This interference can be suppressed at the receiver by interference whitening approaches such as chip equalization and generalized RAKE (G-RAKE) reception. In this paper, we show how these advanced receivers can increase system capacity. First, the G-RAKE receiver formulation is extended to include soft handoff and other-cell interference. Then, voice capacity is evaluated, including the effects of fast fading, interference correlation, power control, orthogonality properties of own-cell signals, and soft handoff. Numerical results for the wideband CDMA system show that when the channel is dispersive, advanced receivers improve capacity by 30-34% [ABSTRACT FROM PUBLISHER]

Published

2006

126. Multiuser detection for DS-CDMA systems in non-Gaussian channels.

Author

Zhao, Ying and Zheng, Jun-li

Abstract

An adaptive multi-user detector was developed for direct-sequence code division multiple access (DS-CDMA) systems corrupted by non-Gaussian channel noise, which can be quite detrimental to the performance of the multi-user detectors based on classical white Gaussian assumption. This receiver simultaneously combats multipleaccess interference (MAI) and non-Gaussian impulsive noise. The channel parameters are estimated and transmitted signals are jointly detected by a simple recursive algorithm derived from the EM/SAGE algorithm. Analytical and simulation results show that the proposed technique is robust with wider applicability than conventional multi-user detectors in terms of near-far resistance and bit-error ratio (BER) when either MAI or non-Gaussian impulsive noise is dominant. [ABSTRACT FROM AUTHOR]

Published

2006

127. Performance analysis of space-time MMSE multiuser detection for coded DS-CDMA systems in multipath fading channels.

Author

Hamouda, W. and McLane, P.

Abstract

This paper investigates the use of convolutional coding in space-time minimum mean-square-error (MMSE) multiuser-based receivers over asynchronous multipath Rayleigh fading channels. We focus on the performance gain attained through error control coding when used with binary-phase-shift-keyed modulation (BPSK) and multiuser access based on direct sequence-code-division multiple access (DS-CDMA). In our analysis, we derive an approximation for the uncoded probability of bit-error in multipath fading channels. This bit-error rate (BER) approximation is shown to be very accurate when compared to the exact performance. For a convolutionally coded system, we obtain a closed form expression for the bit-error rate upper bound. This error bound is noted to be tight as the number of quantization levels increased beyond eight. Using our theoretical results, we obtain an estimate for the achieved user-capacity that accrues due to error control coding. It is found that using convolutional coding with 3-bit soft-decision decoding, a user-capacity gain as much as 300% can easily be achieved when complete fading state information plus ideal channel interleaving are assumed. [ABSTRACT FROM PUBLISHER]

Published

2006

128. Capacity improvement of multicarrier DS-CDMA system with antenna array.

Author

Yang, Wei, Li, Shiming, Tan, Zhenhui, and Cheng, Shixin

Abstract

An antenna array based base station receiver for multicarrier Direct Sequence Code Division Multiple Access (DS-CDMA) system is proposed. The main advantage of the receiver is that the spatial diversity is achieved by combining signals of array elements. Based on the detailed analysis of multiuser interference and noise characteristics, the performance of the proposed receiver is analyzed. Theoretical analysis shows significant performance improvement in terms of system capacity due to the use of antenna arrays compared with the conventional single antenna multicarrier DS-CDMA approach. Simulation results confirm the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2006

129. Performance of optimum wavelet waveform for DS-CDMA chip waveform over QS-AWGN channel.

Author

Öztürk, Ertan, Kucur, Oğuz, and Atkin, Guillermo E.

Subjects

*WAVELETS (Mathematics), *CODE division multiple access, *HARMONIC analysis (Mathematics), *SPREAD spectrum communications, *DATA transmission systems

Abstract

In this paper, we search for a better chip waveform based on orthogonal wavelets for direct sequence-code division multiple access (DS-CDMA) signals to improve the probability of error (Pe) performance with minimal signal bandwidth variations. First, we derive the Pe expression over a quasi-synchronous additive white Gaussian noise channel for DS-CDMA signals, which use various pulse shaping waveforms including orthogonal wavelets as chip waveforms. It is observed that this expression depends on the chip waveform. Then, we design an optimum wavelet by using the relationship between wavelets and filter coefficients to reduce the probability of error. The DS-CDMA system using the optimum wavelet waveform results in a lower probability of error than those using the conventional chip waveforms such as raised cosine, half-sine and rectangular waveforms. Especially, the Pe of the optimum wavelet-based scheme becomes significantly better than those of the conventional chip waveforms-based schemes under the heavy loading that is the case for commercial wireless systems. When the systems work with full load (i.e. the number of users equals the processing gain), the optimum wavelet-based system results in 0.5, 2.1 and 4 dB better SNR values than those of the raised cosine, half-sine and rectangular-based systems, respectively, for a Pe value of 10-3. Copyright © 2005 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2006

130. An antenna weight control method of downlink for adaptive array antennas at base station in DS-CDMA cellular system.

Author

Mikami, Manabu and Fujii, Teruya

Subjects

*ANTENNA arrays, *ANTENNAS (Electronics), *TELECOMMUNICATION systems, *CODE division multiple access, *MOBILE communication systems

Abstract

The application of adaptive array antennas in wireless base stations in cellular mobile communication systems is studied to improve frequency utilization. Since the propagation path information differs in the uplink and the downlink in Frequency Division Duplex (FDD) where the carrier frequencies in the downlink and uplink differ, the method for generating the antenna weights for the downlink is an important topic of study. In this paper, we propose a method that measures the location of the mobile station via the uplink (direction and distance from the base station) and controls the antenna weights of the downlink based on that information. Then we clearly show the improvement in the receive CINR performance in the mobile station when the proposed method was applied to a DS-CDMA cellular system. © 2005 Wiley Periodicals, Inc. Electron Comm Jpn Pt 1, 89(2): 57–68, 2006; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/ecja.20199 [ABSTRACT FROM AUTHOR]

Published

2006

131. Optimal bandwidth allocation to coding and spreading in DS-CDMA systems using LMMSE front-end detector.

Author

Agarwal, M., Datta, K., and Chaturvedi, A.K.

Abstract

In code-division multiple-access (CDMA) systems, it is interesting to study the optimal bandwidth allocation to coding and spreading in order to maximize the number of users that the system can accommodate. This optimal bandwidth allocation is referred to as the optimal allocation point (OAP). In this brief, a practical CDMA system with a fixed total-bandwidth expansion factor that employs convolutional codes and random spreading is considered. The receiver consists of a multiuser linear-minimum-mean-square-error (lmmse) detector front end followed by autonomous single-user decoders. Intuitive reasoning is applied for the existence of an OAP in such a system. Also, we present a theoretical formulation to estimate the OAP in the aforementioned system. Simulations confirm the correctness of results obtained. Further, the paper investigates system behavior at different values of information-bit signal-to-noise ratio (SNR). At high values of SNR, within the range considered, the system favors spreading only. However, at relatively lower SNRs, channel coding is required to improve the system performance, and it is important that we operate at the OAP obtained. [ABSTRACT FROM PUBLISHER]

Published

2005

132. An evolutionary approach to designing complex spreading codes for DS-CDMA.

Author

Natarajan, B., Das, S., and Stevens, D.

Abstract

This paper proposes a novel evolutionary approach to spreading code design in direct sequence code division multiple access (DS-CDMA). Specifically, a multiobjective evolutionary algorithm (EA) is used to generate complex spreading sequences that are optimized with respect to the average mean-square cross- and/or autocorrelation (CC and/or AC) properties. A theoretical model is developed in order to demonstrate the optimality of the generated codes. The proposed algorithm enables spreading code design with no constraints on the code length. Furthermore, it is possible to generate K≥N codes of length N with very little cost in correlation properties. This results in significant capacity enhancement in DS-CDMA systems. [ABSTRACT FROM PUBLISHER]

Published

2005

133. Joint estimation of carrier offset and code timing for DS-CDMA with performance analysis.

Author

Amleh, K. and Hongbin Li

Abstract

This paper considers the problem of joint carrier offset and code timing estimation for code-division multiple-access (CDMA) systems. In contrast to existing schemes that require nonlinear iterative searches over the multidimensional parameter space, this paper proposes a blind estimator that provides an algebraic solution to the joint parameter estimation problem. By exploiting the subspace structure of the observed signal, the multiuser estimation is first decoupled into a series of single-user estimation problems, and then analytical tools of polynomial matrices are invoked for joint carrier and code timing estimation of a single user. The proposed estimator is near-far resistant. It can deal with frequency-selective and time-varying channels. The performance of the proposed scheme is examined analytically by a first-order perturbation analysis. The authors also derive an unconditional Crame´r-Rao bound (CRB) that is conditioned neither on fading coefficients nor information symbols; as such, the CRB is considered a suitable lower bound for blind methods. Numerical examples are presented to evaluate and compare the proposed and a multidimensional search (MD-search)-based scheme. [ABSTRACT FROM PUBLISHER]

Published

2005

134. Space-time multiuser detection for DS-CDMA communication in MIMO systems.

Author

Shan, Hong-mei and Hu, Guang-rui

Abstract

Space-time signal processing based on multiple-input multiple-output(MIMO) systems is an active research field in which interfering signals are cancelled and multiuser detection is achieved using space diversity. In a Rayleigh fading channel, space-time block codes using multiple transmitting antennas can improve system performance and reduce bit-error-rate for multiuser detection. In this paper, several antenna configurations are designed for DS-CDMA communication in MIMO systems. Space-time linear multiuser detection and space-time serial interference cancellation multiuser detection are simulated. Bit-error-rate and computation complexities of the two methods are compared. Conclusions are given in the end. [ABSTRACT FROM AUTHOR]

Published

2005

135. Design issues of uplink media access control (MAC) protocols for multimedia traffic over DS-CDMA systems.

Author

Lin Wang, Aghvami, A.H., and Chambers, W.G.

Abstract

We propose an efficient uplink media access control (MAC) protocol for a variable spreading gain interference-limited wideband CDMA system. It can, with high spectral efficiency, support both real-time traffic like speech and video and also nonreal-time data traffic based on packet transmission. The schemes for power allocation, joint scheduling, and transmission rate adaptation for nonreal time data traffic are designed as integrated parts of the MAC, working together to improve the system performance in terms of capacity and delay. With these associated resource management mechanisms, the performances of the MAC protocol with two different channel-allocation methods for real-time traffic are numerically compared. One is demanding channel allocation, and the other is reserve channel allocation, in which a certain bandwidth is reserved for concurrent real-time traffic. [ABSTRACT FROM PUBLISHER]

Published

2005

136. Differentially coherent parallel interference cancellation for DS-CDMA.

Author

Schober, R. and Lampe, L.

Abstract

In this paper, we propose a novel differentially coherent (DC) parallel interference cancellation (PIC) scheme for direct-sequence code-division multiple access (DS-CDMA) employing differential phase-shift keying (DPSK). The proposed scheme combines decision-feedback differential detection (DF-DD) and PIC. For optimization of the DF-DD and interference cancellation (IC) filters three different criteria are adopted. The first (DC-PIC I) and the second (DC-PIC II) criteria assume a constant channel and a channel with a small constant frequency offset, respectively, whereas the third criterion (DC-PIC III) optimizes the filters in the minimum mean-squared error (MMSE) sense taking into account the statistical properties of the underlying channel. Simulations show the high achievable performance and the robustness of the novel DC-PIC receiver. A comparison with linear DC receivers and a previously proposed DC-PIC scheme show the superiority of the proposed approach. [ABSTRACT FROM PUBLISHER]

Published

2005

137. Subspace-Based Blind Channel Estimation: Generalization and Performance Analysis.

Author

Wei Kang and Champagne, Benolt

Subjects

*COMPUTER networks, *DATA transmission systems, *DIGITAL electronics, *DIGITAL signal processing, *CODE division multiple access, *SPREAD spectrum communications

Abstract

In this paper, we present a systematic study of the subspace-based blind channel estimation method. We first formulate a general signal model of multiple simultaneous signals transmitted through vector channels, which can be applied to a multitude of modern digital communication systems. Based on this model, we then propose a generalized subspace-based channel estimator by minimizing a novel cost function, which incorporates the set of kernel matrices of the signals sharing the target channel via a weighted sum of projection errors. We investigate the asymptotic performance of the proposed estimator, i.e., bias, covariance, mean square error (MSE), and Cramér-Rao bound, for large numbers of independent observations. We show that the performance of the estimator can be optimized by increasing the number of kernel matrices and by using a special set of weights in the cost function. Finally, we consider the application of the proposed estimator to a downlink code division multiple access (CDMA) system operating in a frequency-selective fading channel with negligible intersymbol interference (ISI). The results of the computer simulations fully support our analytical developments. [ABSTRACT FROM AUTHOR]

Published

2005

138. Optimum Downlink Power Control of a DS-CDMA System via Convex Programming.

Author

Tung, Tai-Lai and Yao, Kung

Abstract

An optimum downlink power control that maximizes the user-capacity of a Direct Sequence-Code Division Multiple Access (DS-CDMA) cellular system is proposed based on a convex programming method. First, the downlink beamforming weights for the base-station antenna-array are designed based on the maximum Signal-Interference-Ratio (SIR) criterion. Then by optimizing the downlink power subject to a fixed total transmit power constraint, we further increase the Signal-Interference-Noise-Ratio (SINR) at the mobile terminal, thus increasing the capacity of the system. With the same methodology, we can also minimize the required transmit power while satisfying the SINR threshold constraints. Additionally, a robust downlink power control approach for mitigating the performance degradation due to channel estimates error is also proposed. Computer simulations are given to demonstrate the improvement of downlink capacity, received SINR, robustness, and the minimization of the required transmit power for a DS-CDMA system with antenna-array at the base-station. [ABSTRACT FROM AUTHOR]

Published

2005

139. Performance analysis of Volterra-based nonlinear adaptive blind multiuser detectors for DS-CDMA systems

Author

Linlin, Guo and Puthusserypady, Sadasivan

Subjects

*CODE division multiple access, *ALGORITHMS, *WIRELESS communications, *SPREAD spectrum communications

Abstract

The major limitation on the performance and capacity of direct sequence code division multiple access (DS-CDMA) communication systems is the multiple access interference (MAI) due to simultaneous transmission of several users. The linear minimum mean square error (MMSE) detector is a well-known method to suppress MAI adaptively and blindly, however, it is sub-optimal because of the inherent nonlinearity of the system. Therefore, in this paper, two nonlinear blind adaptive interference cancellation algorithms (the exact Newton (EXN) and the approximate Newton (APN)) were proposed and developed based on the 2nd order Volterra expansion. A complete performance analysis of the conventional matched filter (MF) detector, linear adaptive detector (which employs the standard Newton algorithm) and the proposed two nonlinear adaptive (EXN and APN) detectors was carried out in various DS-CDMA systems. Numerical results show that the three Newton type adaptive blind multiuser detectors yield significant bit error ratio (BER) improvement over the conventional MF detector in the presence of strong MAI. Further, the two nonlinear adaptive algorithms always outperformed the linear algorithm. Most attractively, the APN algorithm offers lower computation complexity, higher numerical stability and almost identical BER performance in comparison with the EXN algorithm. [Copyright &y& Elsevier]

Published

2004

140. Super-exponential methods for blind detection of asynchronous CDMA signals over multipath channels.

Author

Tongtong Li and Tugnait, J.K.

Abstract

In this letter, code-constrained super-exponential algorithms (CSEA) are presented for blind detection of asynchronous short-code direct-sequence code-division multiple-access signals over multipath channels. Constrained SEA leads to the extraction of the desired user whereas unconstrained SEA leads to the extraction of any one of the actives users. The results are further improved by following the constrained SEA by unconstrained SEA. Convergence of the constrained SEA is proved and simulation examples are provided to illustrate the proposed approaches. [ABSTRACT FROM PUBLISHER]

Published

2004

141. Blind multiuser receiver for space-time coded CDMA signals in frequency-selective channels.

Author

Tugnait, J.K. and Jinghong Ma

Abstract

Blind detection of a desired user's signal in a direct sequence code-division multiple-access (DS-CDMA) system using multiple transmit and receive antennas and space-time (ST) block coding is considered. We consider Alamouti's ST coding scheme for two transmit antennas designed for flat-fading channels but allow the channel to be frequency selective. A (spreading) code-constrained inverse filter criterion (IFC)-based linear blind detector to detect a desired user's signal for uncoded CDMA signals exploiting only a single transmit and single receive antenna was recently presented. The IFC method exploits the higher order statistics of the data. In ST-coded multiantenna CDMA systems, a user signal may be treated as the superposition of several virtual user signals derived from the same parent user. In particular, for Alamouti's scheme, one has two virtual users for each user if the information symbols are real valued. The previously proposed code-constrained IFC-based detector is modified to detect a given virtual-user signal. The original user signal can then be recovered from the associated detected virtual user signals obtained by running two code-constrained IFC-based detectors in parallel. We also propose a novel approach combining the code-constrained IFC and a penalty function to simultaneously extract the two virtual user signals associated with a given user. Global minima of the proposed cost functions are analyzed. An illustrative simulation example is presented. [ABSTRACT FROM PUBLISHER]

Published

2004

142. Bit-wise parallel algorithms for efficient software correlation applied to a GPS software receiver.

Author

Ledvina, B.M., Psiaki, M.L., Powell, S.P., and Kintner, P.M.

Abstract

A set of efficient algorithms for processing code-division multiple-access spread spectrum signals has been developed. They make use of bit-wise parallelism to process 32 samples simultaneously. These algorithms have been implemented in a real-time global positioning system software receiver. The receiver consists of a radio-frequency front end, a system of shift registers, a digital data acquisition card, and software that runs on a 1.73-GHz PC. The PC performs base-band mixing and pseudorandom noise code correlations in a manner that directly simulates a hardware digital correlator. [ABSTRACT FROM PUBLISHER]

Published

2004

143. Improved Viterbi decoder metrics for two-stage detectors in DS-CDMA.

Author

Elezabi, A. and Duel-Hallen, A.

Abstract

Modified branch metrics are proposed for single-user Viterbi decoders in two-stage detectors for convolutionally-encoded code-division multiple-access (CDMA) systems with random spreading sequences. The modifications are based on modeling the residual multiple-access interference (RMAI) after subtractive interference cancellation as conditionally Gaussian with time-dependent variance, where the conditioning is on the time-varying user crosscorrelations. A novel estimate of the variance of the total RMAI is presented, and used in the proposed branch metrics. Significant performance gains are demonstrated over the Euclidean branch metric of the standard Viterbi decoder. [ABSTRACT FROM PUBLISHER]

Published

2004

144. Linear and DF Joint Detectors for DS-CDMA Communications Using Periodic Long Codes.

Author

Sartenaer, Thierry and Vandendorpe, Luc

Subjects

*CODE division multiple access, *WIRELESS communications, *DETECTORS, *SIGNAL processing, *DIGITAL electronics, *SPREAD spectrum communications

Abstract

Detection structures for a direct sequence (US) code division multiple access (CDMA) multiuser uplink using codes with a period of several symbols, called long codes, are investigated. In a first part, we propose a multirate description of the uplink. Based on this formalism, we revisit the linear and decision feedback minimum mean square error (MMSE) detectors. In order to identify the best attainable performance, we focus on the infinite size versions. In a second part, reduced complexity solutions are put forward and discussed. Finally, the performance of the proposed detectors is investigated and compared with that of the classical rake receiver and the single-bit horizon detectors. The relevance of the different solutions is discussed in the light of the channel length. [ABSTRACT FROM AUTHOR]

Published

2004

145. Analysis of DS-CDMA system supporting heterogeneous traffic with decorrelating detector.

Author

Zhiwei Mao and Bhargava, V.K.

Abstract

Single-cell and multiple-cell direct-sequence code-division multiple-access (DS-CDMA) systems supporting heterogeneous traffic are investigated when decorrelating detector is used at receiver. Theoretical analyses and numerical examples are presented to study the effect of imperfect power control on the system performance of the reverse link. As to the forward link, the system performance is analyzed and the power allocation problem at base stations is formulated as a constrained optimization problem. Two algorithms, namely, the optimal algorithm and the unit transmission power allocation (UTXPA) algorithm, are proposed to solve this optimization problem. Computer simulations are presented to compare the performance of the proposed algorithms. [ABSTRACT FROM PUBLISHER]

Published

2004

146. Performance analysis of a linear MMSE receiver for bandlimited random-CDMA using quadriphase spreading over multipath channels.

Author

Mirbagheri, A. and Yoon, Y.C.

Abstract

This paper analyzes the bit-error-rate (Pe) performance of a linear minimum mean-square error (LMMSE) receiver for bandlimited direct-sequence code-division multiple-access systems which use quadriphase spreading with aperiodic pseudonoise (PN) sequences. The analysis is based on the improved Gaussian approximation (IGA) with focus on chip pulse shaping. It shows that the IGA reduces to the standard Gaussian approximation (SGA) if 1) random quadriphase spreading is employed, 2) the spreading factor takes moderate to large values, and 3) the chip pulse excess bandwidth (BW) is zero. Hence, the SGA, known for its inaccuracy in low regions of Pe, remains an accurate approximation even when the number of active users in the system is small as long as the aforementioned conditions are met. The analysis holds for either matched or different transmit and receive filters. Consequently, closed form conditional Pe expressions are derived for the coherent selective RAKE and the LMMSE receivers and verified with Monte Carlo simulations. Numerical results are presented to illustrate the performance improvement achieved by the LMMSE receiver which, in contrast to the coherent selective RAKE receiver, not only suppresses interference when the excess BW of chip pulse is nonzero, but also harnesses the energy of all paths of the desired user. Under the examined scenarios tailored toward current narrowband system settings, the LMMSE receiver achieves 60% gain in capacity over the selective RAKE receiver. A third of the gain is due to interference suppression capability of the receiver while the rest is credited to its ability to collect the energy of the desired user diversified to many paths. Future wideband systems will yield an ever larger gain. [ABSTRACT FROM PUBLISHER]

Published

2004

147. Log Likelihood Ratio Calculation Without SNR Estimation for Forward Link DS-CDMA Receivers.

Author

Jungwoo Lee

Subjects

CODE division multiple access, RADIOS, DECODERS (Electronics), SIGNAL processing

Abstract

This letter deals with the log likelihood ratio computation for the turbo decoder operating on the forward link of a CDMA system. It is shown that the log likelihood ratio contains a time-varying factor, which is the power ratio between the data and the pilot channels. Two alternative techniques for estimating the power ratio are compared along with an ideal scheme. [ABSTRACT FROM AUTHOR]

Published

2004

148. Minimum probability of error-based methods for adaptive multiuser detection in multipath DS-CDMA channels.

Author

Dua, A., Desai, U.B., and Mallik, R.K.

Abstract

Direct-sequence code-division multiple-access (DS-CDMA) is a popular multiple-access technology for wireless communications. However, its performance is limited by multiple-access interference and multipath distortion. Multiuser detection and space-time processing are two signal processing techniques employed to improve the performance of DS-CDMA. Two minimum probability of error-based space-time multiuser detection algorithms are proposed in this paper. The first algorithm, minimum joint probability of error (MJPOE), aims to minimize the joint probability of error for all users. The second algorithm, minimum conditional probability of error (MCPOE), minimizes the probability of error of each user conditioned on the transmitted bit vector, for each user individually. In both the algorithms, the optimal filter weights are computed adaptively using a gradient descent approach. The MJPOE algorithm is blind and offers a bit-error-rate (BER) performance better than the nonadaptive minimum mean squared error (MMSE) algorithm, at the cost of higher computational complexity. An approach for reducing the computational overheads of MJPOE using Gram-Schmidt orthogonalization is suggested. The BER performance of the MCPOE algorithm is slightly inferior to MMSE, however, it has a computational complexity linear in the number of users. Both blind and training-based implementations for MCPOE are proposed. Both MJPOE and MCPOE have a convergence rate much faster than earlier known adaptive implementations of the MMSE detector, viz. least mean square and recursive least squares. Simulation results are presented for synchronous single path channels as well as asynchronous multipath channels, with multiple antennas employed at the receiver. [ABSTRACT FROM PUBLISHER]

Published

2004

149. Energy-efficient control of rate and power in DS-CDMA systems.

Author

Berggren, F. and Seong-Lyun Kim

Abstract

The quality of service in direct-sequence code-division multiple access (DS-CDMA) can be controlled by a suitable selection of processing gain and transmission powers. In this paper, distributed control of rate and power for best effort data services is considered. In particular, we elaborate on the problem of how to control the transmission rates for maximizing system throughput while simultaneously minimizing the transmission powers. We assume a practical scenario, where every user has a finite set of discrete transmission rates and propose a simple heuristic rate allocation scheme, greedy rate packing (GRP), applicable in both up- and downlink. The scheme can be interpreted as a practical form of water-filling, in the sense that high transmission rates are allocated to users having high link gains and low interference. We show that under certain conditions, GRP will give maximum throughput and that it can be extended to guarantee a minimum data rate while maximizing network excess capacity. We suggest and analyze a distributed power control algorithm to control the intercell interference when GRP is applied to a multicellular system. Numerical results show that the proposed transmission scheme can significantly decrease the power levels while maintaining high throughput. [ABSTRACT FROM PUBLISHER]

Published

2004

150. A narrowband interference rejection technique for DS-CDMA system.

Author

Kitano, Toyokazu, Nabetani, Toshihisa, Hara, Shinsuke, and Morinaga, Norihiko

Subjects

*WIRELESS communications, *CODE division multiple access, *ELECTROMAGNETIC interference, *BANDWIDTHS, *BROADBAND communication systems, *TELECOMMUNICATION systems

Abstract

Due to congestion in wireless frequency use, it is difficult to assign an independent frequency bandwidth to broadband wireless communication systems based on the DS-CDMA (Direct Sequence Code Division Multiple Access) system. Therefore, operation of the DS-CDMA system on the existing narrowband wireless system is contemplated. However, the interference of the transmitted power of the existing narrowband wireless system on the DS-CDMA system has not been studied. There is a possibility that significant narrowband interference on the DS-CDMA system may occur. In this paper, a narrowband interference rejection system in DS-CDMA is proposed. By making use of prior information on the carrier frequency of the narrowband interference, a narrowband interference rejection process with little computational overhead is realized. © 2003 Wiley Periodicals, Inc. Electron Comm Jpn Pt 1, 87(3): 74–86, 2004; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/ecja.10076 [ABSTRACT FROM AUTHOR]

Published

2004