Initialization Techniques for Improved Convergence of LMS DFEs in Strong Interference Environments

Batra, Arun; Zeidler, J.R.; Beex, A.A.

doi:10.1109/glocom.2007.581

Cited by 3 publications

(2 citation statements)

References 19 publications

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“…Several reduced-rank methods have been proposed in the last several years, namely, MNWF [4] and consequent modified filters [5], which have been widely applied in navigation applications [6]. Although several researchers [7], [8] have investigated how to improve convergence of LMS and reduce complexity based on reduced-rank adaptive filter, a challenging problem which remains unsolved by conventional techniques is that there is a contradictory between performance of the filter and its complexity, especially for navigation receiver applications. Thus, the implementation of joint more filters to develop adaptive filter, according to their own characters is probably a more effective way to deal with this problem.…”

Section: Introductionmentioning

confidence: 99%

A novel adaptive interference mitigation approach based on space time processing for global navigation system receiver arrays

Sun

2010

IEEE 10th INTERNATIONAL CONFERENCE ON SIGNAL PROCESSING PROCEEDINGS

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This paper proposes a novel adaptive interference mitigation approach based on space time processing for global navigation system receiver arrays. The novel approach combines two adaptive filters, Normalized Least Mean Square (NLMS) algorithm and reduced-rank Multistage Nested Wiener Filter (MNWF), for interference mitigation, and shares the information of different channels' characters under various interference environments. Furthermore, the proposed filter adaptive exchanges their weights according to acquisition results and MSE (Mean Square Error). It is demonstrated that the proposed mixed double adaptive filter provides both advantages at the aspects of higher convergence speed and lower complexity for navigation receiver arrays than the other traditional adaptive array algorithms via simulations.

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Section: Introductionmentioning

confidence: 99%

A novel adaptive interference mitigation approach based on space time processing for global navigation system receiver arrays

Sun

2010

IEEE 10th INTERNATIONAL CONFERENCE ON SIGNAL PROCESSING PROCEEDINGS

View full text Add to dashboard Cite

show abstract

“…Several reduced-rank methods have been proposed in the last several years, namely, MNWF [1] and consequent modified filters [2], which have been widely applied in navigation applications [3]. Although several researchers [4], [5] have investigated how to improve convergence of LMS and reduce complexity based on reduced-rank adaptive filter, a challenging problem which remains unsolved by conventional techniques is that there is a contradictory between performance of the filter and its complexity, especially for navigation receiver applications. Thus, the implementation of joint more filters to develop adaptive filter, according to their own characters is probably a more effective way to deal with this problem.…”

Section: Introductionmentioning

confidence: 99%

Combination of two adaptive filters for interference mitigation based on space time processing

Tan

2010

2010 IEEE International Conference on Information Theory and Information Security

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This paper proposed a novel algorithm for combination of two adaptive filters which stem from different families. The algorithm extended the combination coefficient from a scale in traditional convex and affine combination methods to a vector. These improvements would significantly enhance the performances than any other existing methods under various interference environments, because the new method took more parameters in vector into account, which may accelerate convergence speed and enhance the Signal to Interference Noise Ratio (SINR) at output. Furthermore, the paper exploited the Multistage Nested Wiener Filter (MNWF) and LMS for combination according to their obvious complementary characters for anti-interferences and effective implementation of their low computational complexity. Finally, we simulated the proposed algorithm in navigation multiple antenna array application, which have better combination performance than other approaches.

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A New Mathematical Model of High Speed Satellite Channel

Xiaotian¹,

Li²,

Lin³

et al. 2013

IJCCE

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A new mathematical model of satellite channel was proposed. On the basis of the analysis of high-speed remote sensing satellite link, and combining vector network test results, we obtained a new mathematical model of a high-speed satellite link. Through simulation analysis, the amplitude-frequency characteristics and group delay characteristics of the model is corresponded with the actual link. The model laid the foundation for analysis of future high-speed data transfer between satellite and ground

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Initialization Techniques for Improved Convergence of LMS DFEs in Strong Interference Environments

Cited by 3 publications

References 19 publications

A novel adaptive interference mitigation approach based on space time processing for global navigation system receiver arrays

A novel adaptive interference mitigation approach based on space time processing for global navigation system receiver arrays

Combination of two adaptive filters for interference mitigation based on space time processing

A New Mathematical Model of High Speed Satellite Channel

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