Your search keyword '"Gao, Xudong"' showing total 4 results

1. On the Convergence of Sigmoid and tanh Fuzzy General Grey Cognitive Maps

Author

Gao, Xudong, Gao, Xiao Guang, Rong, Jia, Li, Ni, Niu, Yifeng, and Chen, Jun

Subjects

Electrical Engineering and Systems Science - Systems and Control, Computer Science - Artificial Intelligence

Abstract

Fuzzy General Grey Cognitive Map (FGGCM) and Fuzzy Grey Cognitive Map (FGCM) are extensions of Fuzzy Cognitive Map (FCM) in terms of uncertainty. FGGCM allows for the processing of general grey number with multiple intervals, enabling FCM to better address uncertain situations. Although the convergence of FCM and FGCM has been discussed in many literature, the convergence of FGGCM has not been thoroughly explored. This paper aims to fill this research gap. First, metrics for the general grey number space and its vector space is given and proved using the Minkowski inequality. By utilizing the characteristic that Cauchy sequences are convergent sequences, the completeness of these two space is demonstrated. On this premise, utilizing Banach fixed point theorem and Browder-Gohde-Kirk fixed point theorem, combined with Lagrange's mean value theorem and Cauchy's inequality, deduces the sufficient conditions for FGGCM to converge to a unique fixed point when using tanh and sigmoid functions as activation functions. The sufficient conditions for the kernels and greyness of FGGCM to converge to a unique fixed point are also provided separately. Finally, based on Web Experience and Civil engineering FCM, designed corresponding FGGCM with sigmoid and tanh as activation functions by modifying the weights to general grey numbers. By comparing with the convergence theorems of FCM and FGCM, the effectiveness of the theorems proposed in this paper was verified. It was also demonstrated that the convergence theorems of FCM are special cases of the theorems proposed in this paper. The study for convergence of FGGCM is of great significance for guiding the learning algorithm of FGGCM, which is needed for designing FGGCM with specific fixed points, lays a solid theoretical foundation for the application of FGGCM in fields such as control, prediction, and decision support systems.

Published

2024

2. HB-net: Holistic bursting cell cluster integrated network for occluded multi-objects recognition

Author

Gao, Xudong, Gao, Xiao Guang, Rong, Jia, Chen, Xiaowei, Liao, Xiang, and Chen, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Within the realm of image recognition, a specific category of multi-label classification (MLC) challenges arises when objects within the visual field may occlude one another, demanding simultaneous identification of both occluded and occluding objects. Traditional convolutional neural networks (CNNs) can tackle these challenges; however, those models tend to be bulky and can only attain modest levels of accuracy. Leveraging insights from cutting-edge neural science research, specifically the Holistic Bursting (HB) cell, this paper introduces a pioneering integrated network framework named HB-net. Built upon the foundation of HB cell clusters, HB-net is designed to address the intricate task of simultaneously recognizing multiple occluded objects within images. Various Bursting cell cluster structures are introduced, complemented by an evidence accumulation mechanism. Testing is conducted on multiple datasets comprising digits and letters. The results demonstrate that models incorporating the HB framework exhibit a significant $2.98\%$ enhancement in recognition accuracy compared to models without the HB framework ($1.0298$ times, $p=0.0499$). Although in high-noise settings, standard CNNs exhibit slightly greater robustness when compared to HB-net models, the models that combine the HB framework and EA mechanism achieve a comparable level of accuracy and resilience to ResNet50, despite having only three convolutional layers and approximately $1/30$ of the parameters. The findings of this study offer valuable insights for improving computer vision algorithms. The essential code is provided at https://github.com/d-lab438/hb-net.git.

Published

2023

3. The GALAH Survey: A new constraint on cosmological lithium and Galactic lithium evolution from warm dwarf stars

Author

Gao, Xudong, Lind, Karin, Amarsi, Anish M., Buder, Sven, Bland-Hawthorn, Joss, Campbell, Simon W., Asplund, Martin, Casey, Andrew R., De Silva, Gayandhi M., Freeman, Ken C., Hayden, Michael R., Lewis, Geraint F., Martell, Sarah L., Simpson, Jeffrey D., Sharma, Sanjib, Zucker, Daniel B., Zwitter, Tomaž, Horner, Jonathan, Munari, Ulisse, Nordlander, Thomas, Stello, Dennis, Ting, Yuan-Sen, Traven, Gregor, Wittenmyer, Robert A., and collaboration, the GALAH

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Lithium depletion and enrichment in the cosmos is not yet well understood. To help tighten constraints on stellar and Galactic evolution models, we present the largest high-resolution analysis of Li abundances A(Li) to date, with results for over 100 000 GALAH field stars spanning effective temperatures $5900\,\mathrm{K} \lesssim \rm{T_{eff}} \lesssim7000\,\mathrm{K}$ and metallicities $-3 \lesssim \rm[Fe/H] \lesssim +0.5$. We separated these stars into two groups, on the warm and cool side of the so-called Li-dip, a localised region of the Kiel diagram wherein lithium is severely depleted. We discovered that stars in these two groups show similar trends in the A(Li)-[Fe/H] plane, but with a roughly constant offset in A(Li) of 0.4 dex, the warm group having higher Li abundances. At $\rm[Fe/H]\gtrsim-0.5$, a significant increasing in Li abundance with increasing metallicity is evident in both groups, signalling the onset of significant Galactic production. At lower metallicity, stars in the cool group sit on the Spite plateau, showing a reduced lithium of around 0.4 dex relative to the primordial value predicted from Big Bang nucleosynthesis (BBN). However, stars in the warm group between [Fe/H] = -1.0 and -0.5, form an elevated plateau that is largely consistent with the BBN prediction. This may indicate that these stars in fact preserve the primordial Li produced in the early Universe., Comment: 5 pages, 2 figures, Accepted for publication by MNRAS

Published

2020

4. The GALAH Survey: Verifying abundance trends in the open cluster M67 using non-LTE spectroscopy

Author

Gao, Xudong, Lind, Karin, Amarsi, Anish M., Buder, Sven, Dotter, Aaron, Nordlander, Thomas, Asplund, Martin, Bland-Hawthorn, Joss, De Silva, Gayandhi M., D'Orazi, Valentina, Duong, Ly, Freeman, Ken C., Kos, Janez, Lewis, Geraint F., Lin, Jane, Martell, Sarah L., Schlesinger, Katharine. J., Sharma, Sanjib, Simpson, Jeffrey D., Zucker, Daniel B., Zwitter, Tomaz, Da Costa, Gary, Anguiano, Borja, Horner, Jonathan, Hyde, Elaina A., Kafle, Prajwal R., Nataf, David M., Reid, Warren, Stello, Dennis, Ting, Yuan-Sen, and collaboration, the GALAH

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Open cluster members are coeval and share the same initial bulk chemical compositions. Consequently, differences in surface abundances between members of a cluster that are at different evolutionary stages can be used to study the effects of mixing and internal chemical processing. We carry out an abundance analysis of seven elements (Li, O, Na, Mg, Al, Si, Fe) in 66 stars belonging to the open cluster M67, based on high resolution GALAH spectra, 1D MARCS model atmospheres, and, for the first time for a large sample of M67 stars, non-local thermodynamic equilibrium (non-LTE) radiative transfer. From the non-LTE analysis, we find a typical star-to-star scatter in the abundance ratios of around 0.05 dex; this scatter is slightly but systematically larger when LTE is assumed instead. We find trends in the abundance ratios with effective temperature, indicating systematic differences in the surface abundances between turn-off and giant stars; these trends are more pronounced when LTE is assumed. However, in the non-LTE analysis, most of the element trends have been flattened. Two species are exceptions to this behaviour, namely Al and Si, which both clearly display remaining trends in the non-LTE analysis. We comment on the possible origin of these trends, by comparing them with recent stellar models that include atomic diffusion., Comment: 14 pages, 10 figures; resubmitted to MNRAS

Published

2018