W. Li scite author profile

Registration of multidate or multisensor images is an essential process in many image processing applications including remote sensing, medical image analysis, and computer vision. Control point (CP) and intensity are the two basic features used separately for image registration in the literature. In this paper, an exact maximum likelihood (EML) registration method, which combines both CP and intensity, is proposed for image alignment. The EML registration method maximizes the likelihood function based CP and intensity to estimate the registration parameters, including affine transformation and CP coordinates. The explicit formulas of the Cramer-Rao bound (CRB) are also derived for the proposed EML and conventional image registration algorithms. The performances of these image registration techniques are evaluated with the CRBs.

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Simultaneous Registration and Fusion of Multiple Dissimilar Sensors for Cooperative Driving

Leung

2004

IEEE Trans. Intell. Transport. Syst.

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Performance evaluation of digital beamforming strategies for satellite communications

Huang

Leung

2004

IEEE Trans. Aerosp. Electron. Syst.

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Smart antennas are becoming one of the promising technologies to meet the rapidly increasing demands for more capacity of satellite communication systems. A main component in a smart antenna system is beamforming. Because of the limitations of analog beamforming, digital beamforming will be employed in future satellite communication systems. We evaluate the performance of various digital beamforming strategies proposed in the literature for satellite communications: 1) single fixed beam/single user, 2) single fixed beam/multiple users, 3) single adaptive beam/single user, and 4) single Chebyshev dynamic beam/multiple users. Multiple criteria including coverage, system capacity, signal-to-interference-plus-noise ratio (SINR), and computation complexity are used to evaluate these satellite communication beamforming strategies. In particular, a Ka-band satellite communication system is used to address the various issues of these beamforming strategies. For the adaptive beamforming approach, subarray structure is used to obtain the weights of a large 2D antenna array, and a globally convergent recurrent neural network (RNN) is proposed to realize the adaptive beamforming algorithm in parallel. The new subarray-based neural beamforming algorithm can reduce the computation complexity greatly, and is more effective than the conventional least mean square (LMS) beamforming approach. It is shown that the single adaptive beam/single user approach has the highest system capacity.

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E-Nose Vapor Identification Based on Dempster–Shafer Fusion of Multiple Classifiers

Leung

Kwan

et al. 2008

IEEE Trans. Instrum. Meas.

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Electronic nose (e-nose) vapor identification is an efficient approach to monitor air contaminants in space stations and shuttles in order to ensure the health and safety of astronauts. Data preprocessing (measurement denoising and feature extraction) and pattern classification are important components of an e-nose system. In this paper, a wavelet-based denoising method is applied to filter the noisy sensor measurements. Transient-state features are then extracted from the denoised sensor measurements, and are used to train multiple classifiers such as multi-layer perceptions (MLP), support vector machines (SVM), k nearest neighbor (KNN), and Parzen classifier. The Dempster-Shafer (DS) technique is used at the end to fuse the results of the multiple classifiers to get the final classification. Experimental analysis based on real vapor data shows that the wavelet denoising method can remove both random noise and outliers successfully, and the classification rate can be improved by using classifier fusion.

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A Low Cost/Low Power Chaos-based Transceiver Exploiting Ergodicity

Majumdar

Leung

et al. 2006

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W. Li

Space-time registration of radar and ESM using unscented Kalman filter

Constrained unscented Kalman filter based fusion of GPS/INS/digital map for vehicle localization

A Maximum Likelihood Approach for Image Registration Using Control Point And Intensity

Simultaneous Registration and Fusion of Multiple Dissimilar Sensors for Cooperative Driving

Performance evaluation of digital beamforming strategies for satellite communications

E-Nose Vapor Identification Based on Dempster–Shafer Fusion of Multiple Classifiers

A Low Cost/Low Power Chaos-based Transceiver Exploiting Ergodicity

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