Your search keyword '"Wang, Xiang‐Li"' showing total 11 results

1. Research on the Knowledge System Framework of Eco-industrial Engineering

Author

Li Chunfa, Luo Yanbing, Li Mengmeng, and Wang Xiang-li

Subjects

Sustainable development, media_common.quotation_subject, Contradiction, Carrying capacity, System framework, Business, Environmental Science (miscellaneous), Environmental economics, Toxicology, Economic benefits, Natural (archaeology), Demography, media_common

Abstract

With intensified contradiction between the rapid development of modern industry and the carrying capacity of natural environment, coordinating the relationship between economic benefits and ecologi...

Published

2012

2. Preliminary studies on the early quality identification ofAuricularia auricular

Author

Zou Li, Li Ling, Wang Xiang-li, Ding Jun-nan, Luo Li, and Zhang Gui-hua

Subjects

Auricularia, Mushroom, Mildew, biology, Forestry, Edible fungus, biology.organism_classification, Horticulture, Auricularia auricula, visual_art, Botany, visual_art.visual_art_medium, Potato dextrose agar, Sawdust, Mycelium

Abstract

In production industry ofAuricularia auricular, the varieties quality is most important impact factor on output. For evaluating the early quality of the edible fungus, 9 varieties ofAuricularia auricular (Au9, CF09, CF05, 29, 916, chang10, chang7, Au.Japanese and 8808) were cultured on the medium consists of potato dextrose agar (PDA) and sawdust to test their mycelium growth rate, endurance to high temperature, resistance to mildew, assimilation of nutriment, and resistance to drought. The result showed that the mycelium of Chang 10, CF09, 29 and Au.Japanese varieties had the eminent characteristics such as short lifespan, stronger assimilation of nutriment, and endurance to high temperature and steady growth. These four varieties are determined as superiority varieties ofAuricularia auricular in accordance with the research results.

Published

2005

3. Extractraction of non-stationary harmonic from chaotic background based on synchrosqueezed wavelet transform

Author

Wang Wen-Bo, Wang Xiang-Li, Yu Min, and Wang Bin

Subjects

Wavelet, Continuous wavelet, Computer science, Harmonics, Chaotic, General Physics and Astronomy, Wavelet transform, Detection theory, Algorithm, Hilbert–Huang transform, Time–frequency analysis

Abstract

The signal detection in chaotic background has gradually become one of the research focuses in recent years. Previous research showed that the measured signals were often unavoidable to be contaminated by the chaotic noise, such as the radar signal detection from sea clutter wave,signal source extraction from chaotic secure communication and ECG/EEG abnormal signal detection,etc.At present,there are two methods to detect the target signal from the chaotic background.One is to detect the target signals by using the difference in geometric structure between the chaotic signal and the target signal,and the other is to regard the chaotic signal as the noise,and the target signal is extracted from the chaotic background by the time frequency analysis method,such as wavelet transform and empirical mode decomposition. The first kind of method can detect the target signal well,but it needs to characterize the chaotic system and reconstruct the phase space,which is difficult in the practical applications.The second kind of method does not need to reconstruct the chaotic phase space and can effectively extract the target signal from the chaotic background.However,the wavelet transform lacks adaption and how to select the optimal wavelet basis and decomposition layers is a difficult problem.In the empirical mode decomposition there exists the mode mixing that is very sensitive to the noise.The synchrosqueezed wavelet transform (SST) effectively improves the mixing of mode by compressing the continuous wavelet coefficients in the frequency direction,but also it has good robustness to noise.Therefore,the SST can extract the harmonic signal well from the chaotic background.In the present algorithm of abstracting harmonic signal from chaotic background by SST,the harmonic signals are extracted by using single accumulation frequency range SST (SAFR-SST) based on wavelet ridge detection.If the target signal is stable harmonic signal,whose frequency does not change with time,the SAFR-SST method can have a high abstraction precision.But if the target signal is the non-stable harmonic signal whose frequency changes with time,the SAFR-SST method is not enough nor can obtain high abstraction precision.In order to overcome the shortcomings of the SST in extracting the non-stationary harmonic signal from the chaotic background, an improved SST extracting method is proposed which is based on the adaptive optimal cumulative frequency range. Firstly,the formulas of calculating the adaptive cumulative frequency range in SST extraction are deduced according to the relationship between the wavelet coefficient of non-stationary harmonic and the interval of supporting wavelet bases.Then,the optimal values of the parameters in the adaptive cumulative frequency range formula are calculated by the minimum energy error criterion according to the integrity and orthogonality of the intrinsic mode types function.Finally,the SST adaptive extraction of the non-stationary harmonic signal is realized according to the SST inverse transform.In experiment,the different types of non-stationary harmonics are extracted from the Lorenz and Duffing chaotic background.The experimental results show that the proposed method can effectively extract the non-stationary harmonic from the noisy chaotic background.Compared with the classical SST method with single cumulative frequency range,the proposed method has good performance in both mean square error and correlation coefficient.And when the chaotic background contains different-intenity Gauss white noises,the proposed method can also effectively abstract the non-stationary harmonic from the chaos and noise interference.So,the proposed method has a good practice value.

Published

2016

4. A New Mixed Variable Step Size ELMS Algorithm and Its Application in ANC

Author

Sun Li Jun, Wang Xiang-li, and Zhang Shou-Yong

Subjects

Least mean squares filter, Adaptive filter, Variable (computer science), Mean squared error, Physics::Plasma Physics, Control theory, Computer Science::Neural and Evolutionary Computation, Convergence (routing), Sense (electronics), Algorithm, Mathematics

Abstract

In this paper, we proposed a new mixed variable step size ELMS algorithm (MVSS-ELMS) which combined the mean square error and the correlation of the error to modify the step size. The approach is general in the sense that it not only retains the benefits of ELMS algorithm lower steady-state error, but also improves the system convergence speed. In comparison, the new approach performance is much better than VSS-ELMS algorithm and VFSS-ELMS algorithm in the convergence speed and anti-noise capacity. Effectiveness of the proposed algorithm is demonstrated through computer simulations.

Published

2011

5. Harmonic signal extraction from chaotic interference based on synchrosqueezed wavelet transform

Author

Wang Bin, Wang Zhen, Yu Min, Chang YuChan, Wang Xiang-Li, and Wang Wen-Bo

Subjects

Physics, symbols.namesake, Wavelet, Frequency domain, Acoustics, Harmonic, symbols, General Physics and Astronomy, Wavelet transform, White noise, Hilbert transform, Continuous wavelet transform, Hilbert–Huang transform

Abstract

Extracting the harmonic signal from the chaotic interference background is very important for theory and practical application. The wavelet transform and empirical mode decomposition (EMD) have been widely applied to harmonic extraction from chaotic interference, but because the wavelet and EMD both present the mode mixing and are sensitive to noise, the harmonic signal often cannot be precisely separated out. The synchrosqueezing wavelet transform (SST) is based on the continuous wavelet transform, through compressing the time-frequency map of wavelet transform in the frequency domain, the highly accurate time-frequency curve is obtained. The time-frequency curve of SST which does not exist between cross terms, can better improve the mode mixing. The SST has also good robustness against noise. When the signal is a mixed strong noise, the SST can still obtain the clear time-frequency curve and approximate invariant decomposition results. In this paper, the SST is applied to the multiple harmonic signal extraction from chaotic interference background, and a new harmonic extracting method is proposed based on the SST. First, the signal obtained by mixing chaotic and harmonic signals is decomposed into intrinsic mode type function (IMTF) by the SST. Then using the Hilbert transform the frequency of each IMTF is analyzed, and the harmonic signals are separated from the mixed signal. Selecting the Duffing signal as the chaotic interference signal, the extracting ability of the proposed method for multiple harmonic signals is analyzed. The different harmonic extraction experiments are conducted by using the proposed SST method for different frequency intervals and different noise intensity multiple harmonic signals. And the experimental results are compared with those from the classical EMD method. When the chaotic interference signal is not contained by noise, the harmonic signal extraction effect is seriously affected by the frequency interval between harmonic signals. If the harmonic frequency interval between harmonic signals is relatively narrow, each harmonic signal cannot be accurately extracted by the EMD method. However, the harmonic extraction precision of SST method is not seriously influenced by the change of harmonic frequency interval, and when the frequency interval between harmonic signals is small the SST method can still accurately extract each harmonic signal from chaotic interference. When the noise contains a chaotic interference signal, the harmonic extraction effect of EMD method significantly decreases with noise intensity increasing. When the noise level reaches 80%, the extracted harmonic signal from the EMD method is seriously distorted, the correlation coefficient of the extracted harmonic signal with original harmonic signal is only about 0.6. With the increase of noise intensity, the harmonic extraction effect of SST method has also a declining trend. But as the noise intensity is within 120%, the harmonic extraction effect of SST method does not greatly change and the extracted harmonic signal precision is still higher, which shows that the harmonic extraction method based on the SST has good robustness against noise. The comprehensive experimental results show that the proposed SST method has high extracting precision for multiple harmonic signals of different frequency intervals, and the SST method has better robustness against Gauss white noise. The extracted results of harmonic signal are better than those from the classical empirical mode decomposition method.

Published

2015

6. Theoretical study on K , L , and M X-ray transition energies and rates of neptunium and its ions

Author

Wu Zhong-Wen, Zhou Wei-Dong, Dong Chen-Zhong, Wang Xiang-Li, and I. Saber

Subjects

Physics, Dipole, chemistry, Neptunium, X-ray, General Physics and Astronomy, chemistry.chemical_element, Charge (physics), Vacuum polarization, Electron, Atomic physics, Ion, Line (formation)

Abstract

The transition energies and electric dipole (E1) transition rates of the K, L, and M lines in neutral Np have been theoretically determined from the MultiConfiguration Dirac—Fock (MCDF) method. In the calculations, the contributions from Breit interaction and quantum electrodynamics (QED) effects (vacuum polarization and self-energy), as well as nuclear finite mass and volume effects, are taken into account. The calculated transition energies and rates are found to be in good agreement with other experimental and theoretical results. The accuracy of the results is estimated and discussed. Furthermore, we calculated the transition energies of the same lines radiating from the decaying transitions of the K-, L-, and M-shell hole states of Np ions with the charge states Np1+ to Np6+ for the first time. We found that for a specific line, the corresponding transition energies relating to all the Np ions are almost the same; it means the outermost electrons have a very small influence on the inner-shell transition processes.

Published

2014

7. A preliminary study on air microorganism in a wood mill

Author

Wang Xiang-li, Zheng Hong, Zou Li, and Ji-fei

Subjects

Plate method, biology, Microorganism, Forestry, Sedimentation, biology.organism_classification, Pulp and paper industry, Actinomyces, Bacteria, Microbiology

Abstract

The air microbial species and quantities in a wood mill in Harbin, China were measured using sedimentation plate method. Results showed that the microbial quantity in the air at the workshop without depurator (54939cfu•m^(-3)) was 2.1 times that of the workshop with depurator (25768cfu•m^(-3)). The depurator could purify air microorganisms at the workshop, with a purifying rate of 53.1%, but it did not reach the standards of clean air. Comparatively the depurator is effective in reducing the quantity of air actinomyces, and some kinds of air actinomyces, such as Scabies, Cinereas and Hygroscopicas, can be clean out, but it is not very effective to bacteria and fungi. It is suggested that more effective and feasible methods should be developed for purifying air microorganisms at the workshop in the future.

Published

2005

8. Chaotic signal denoising method based on independent component analysis and empirical mode decomposition

Author

Wang Wen-Bo, Wang Xiang-Li, and Zhang Xiao-Dong

Subjects

business.industry, Noise reduction, Chaotic, General Physics and Astronomy, Pattern recognition, Artificial intelligence, business, Independent component analysis, Signal, Hilbert–Huang transform, Mathematics

Abstract

According to the characteristics of empirical mode decomposition and denoise of independent component analysis, an adaptive denoising method of chaotic signal is proposed based on independent component analysis and empirical mode decomposition. First, the chaotic signal is decomposed into a set of intrinsic mode functions by empirical mode decomposition; then, the multi-dimensional input vectors are constructed based on the translation invariant empirical mode decomposition, and the noise of each intrinsic mode function is removed through the constructed multi-dimensional input vectors and the independent component analysis; finally, the denoisied chaotic signal is obtained by accumulating and reconstructing all the processed intrinsic mode functions. Both the chaotic signal generated by Lorenz map with different level Gaussian noises, and the observed monthly series of sunspots are respectively used for noise reduction using the proposed method. The results of numerical experiments show that the proposed method is efficient. It can better correct the positions of data points in phase space and approximate the real chaotic attractor trajectories more closely．

Published

2013

9. The Radiative and Auger Decay Properties of K -Shell Ionized Np Ions

Author

Wang Xiang-Li, Dong Chen-Zhong, Zhou Wei-Dong, Saber Ismail Abdalla, Shi Ying-Long, and Xie Lu-You

Subjects

Physics, Auger effect, Electron shell, General Physics and Astronomy, Spectral line, Auger, Ion, symbols.namesake, Ionization, Physics::Atomic and Molecular Clusters, Radiative transfer, symbols, Atomic physics, Relativistic quantum chemistry

Abstract

The radiative and Auger decay processes of K-shell ionized Np ions are studied theoretically using the flexible atomic code (FAC). Relativistic effects, Breit interaction, QED corrections and nuclear finite mass and volume effects are considered systematically. The resulting calculated K x-rays and Auger spectra of Np are compared with the measured spectra emitted after the electron-capture (EC)-decay of mass-separated 237Pu. The general consistency between theory and experiment is good; the relative intensities and relative positions of the peaks in the measured spectra are reproduced with good accuracy, in spite of the existence of different ways to produce the primary K-shell vacancy, enabling identification of the observed structure in the experimental spectra. We find that most of the radiative transition rates are greater than the Auger transition rates, and the latter decrease rapidly with the transfer of initial vacancies to the outer shell.

Published

2012

10. Quantitative analysis of element concentration in Al alloy by using laser-induced breakdown spectroscopy

Author

Ma Xin-Wen, Zhang Da-Cheng, Sun Dui-Xiong, Maogen Su, Dong Chen-Zhong, and Wang Xiang-Li

Subjects

Materials science, Thermodynamic equilibrium, Alloy, Analytical chemistry, General Physics and Astronomy, Plasma, engineering.material, Laser, Spectral line, law.invention, law, engineering, Mass concentration (chemistry), Laser-induced breakdown spectroscopy, Quantitative analysis (chemistry)

Abstract

Laser-induced breakdown plasma is produced by using Q-switched Nd: YAG laser operating at 532 nm, which interacts with the Al alloy sample target in air. The spectral lines in the 230—440 nm wavelength range have been identified, and based on the calibration-free method, the mass concentration of Al alloy are obtained, which is in good agreement with the standard value of the sample.

Published

2010

11. Theoretical study on Ne 1s photoionization and corresponding Auger decay processes

Author

Wang Xiang-Li, Dong Chen-Zhong, and Sang Cui-Cui

Subjects

Photoemission spectroscopy, Chemistry, General Physics and Astronomy, Photoionization, Atomic physics, Auger, Ion

Abstract

In this paper, the Ne 1s photoelectron spectrum and the corresponding Auger decay processes have been investigated theoretically by using the GRASP92, RATIP and the recently developed RERR06 codes based on the multi-configuration Dirac-Fock method. Good overall agreement was found between the present calculations and the previous theoretical and experimental results. By analyzing the Auger decay processes of the photoionization satellite state Ne+1s-12p-1（1,3Ｐ）3p, it was found that the spectator Auger decay is the dominant decay mode and the Auger intensity of the Ne+1s-12p-1（1Ｐ）3p is greater than that of the Ne+1s-12p-1（3Ｐ）3p as a whole. Meanwhile, the relative populations of the final ions Ne+, Ne2+and Ne3+produced by the photoionization satellite state Ne+1s-12p-1（1,3Ｐ）3p were predicted to be 0.02, 0.58 and 0.41, respectively.

Published

2009