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90 results on '"Kong, Xiaoming"'

1. An adaptive parameter estimator for poor-quality spectral data of white dwarfs

Author

Xie, Duo, Zhang, Jiangchuan, Bu, Yude, Yi, Zhenping, Liu, Meng, and Kong, Xiaoming

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

White dwarfs represent the end stage for 97% of stars, making precise parameter measurement crucial for understanding stellar evolution. Traditional estimation methods involve fitting spectra or photometry, which require high-quality data. In recent years, machine learning has played a crucial role in processing spectral data due to its speed, automation, and accuracy. However, two common issues have been identified. First, most studies rely on data with high signal-to-noise ratios (SNR > 10), leaving many poor-quality datasets underutilized. Second, existing machine learning models, primarily based on convolutional networks, recurrent networks, and their variants, cannot simultaneously capture both the spatial and sequential information of spectra. To address these challenges, we designed the Estimator Network (EstNet), an advanced algorithm integrating multiple techniques, including Residual Networks, Squeeze and Excitation Attention, Gated Recurrent Units, Adaptive Loss, and Monte-Carlo Dropout Layers. We conducted parameter estimation on 5,965 poor-quality white dwarf spectra (R~1800, SNR~1.17), achieving average percentage errors of 14.86% for effective temperature and 3.97% for surface gravity. These results are significantly superior to other mainstream algorithms and consistent with the outcomes of traditional theoretical spectrum fitting methods. In the future, our algorithms will be applied for large-scale parameter estimation on the Chinese Space Station Telescope and the Large Synoptic Survey Telescope.

Published
2024

2. SPT: Spectral Transformer for Red Giant Stars Age and Mass Estimation

Author

Zhang, Mengmeng, Wu, Fan, Bu, Yude, Li, Shanshan, Yi, Zhenping, Liu, Meng, and Kong, Xiaoming

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

The age and mass of red giants are essential for understanding the structure and evolution of the Milky Way. Traditional isochrone methods for these estimations are inherently limited due to overlapping isochrones in the Hertzsprung-Russell diagram, while asteroseismology, though more precise, requires high-precision, long-term observations. In response to these challenges, we developed a novel framework, Spectral Transformer (SPT), to predict the age and mass of red giants aligned with asteroseismology from their spectra. A key component of SPT, the Multi-head Hadamard Self-Attention mechanism, designed specifically for spectra, can capture complex relationships across different wavelength. Further, we introduced a Mahalanobis distance-based loss function to address scale imbalance and interaction mode loss, and incorporated Monte Carlo dropout for quantitative analysis of prediction uncertainty.Trained and tested on 3,880 red giant spectra from LAMOST, the SPT achieved remarkable age and mass estimations with average percentage errors of 17.64% and 6.61%, respectively, and provided uncertainties for each corresponding prediction. The results significantly outperform those of traditional machine learning algorithms and demonstrate a high level of consistency with asteroseismology methods and isochrone fitting techniques. In the future, our work will leverage datasets from the Chinese Space Station Telescope and the Large Synoptic Survey Telescope to enhance the precision of the model and broaden its applicability in the field of astronomy and astrophysics., Comment: Accepted by A&A

Published
2024

3. Edge-on Low-surface-brightness Galaxy Candidates Detected from SDSS Images Using YOLO

Author

Xing, Yongguang, Yi, Zhenping, Liang, Zengxu, Su, Hao, Du, Wei, He, Min, Liu, Meng, Kong, Xiaoming, Bu, Yude, and Wu, Hong

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Low-surface-brightness galaxies (LSBGs), fainter members of the galaxy population, are thought to be numerous. However, due to their low surface brightness, the search for a wide-area sample of LSBGs is difficult, which in turn limits our ability to fully understand the formation and evolution of galaxies as well as galaxy relationships. Edge-on LSBGs, due to their unique orientation, offer an excellent opportunity to study galaxy structure and galaxy components. In this work, we utilize the You Only Look Once object detection algorithm to construct an edge-on LSBG detection model by training on 281 edge-on LSBGs in Sloan Digital Sky Survey (SDSS) $gri$-band composite images. This model achieved a recall of 94.64% and a purity of 95.38% on the test set. We searched across 938,046 $gri$-band images from SDSS Data Release 16 and found 52,293 candidate LSBGs. To enhance the purity of the candidate LSBGs and reduce contamination, we employed the Deep Support Vector Data Description algorithm to identify anomalies within the candidate samples. Ultimately, we compiled a catalog containing 40,759 edge-on LSBG candidates. This sample has similar characteristics to the training data set, mainly composed of blue edge-on LSBG candidates. The catalog is available online at https://github.com/worldoutside/Edge-on_LSBG., Comment: 12 pages, 11 figures, accepted to be published on APJS

Published
2023
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4. Clinical Characteristics Analysis of Hospitalized Elderly Depression Patients with Subclinical Hypothyroidism

Author

CHEN Ling, KONG Xiaoming, SUN Yan, HONG Hong, ZHANG Li

Subjects
subclinical hypothyroidism, depressive disorder, aged, clinical characteristics, Medicine
Abstract

Background Geriatric depression is a severe mental illness distinct from depression in other age groups, characterized by significant heterogeneity. Subclinical hypothyroidism (SCH) is a state of hypothyroidism with subtle clinical signs. The impact of SCH on elderly depression is easily overlooked, and the association between SCH and elderly depression is not well understood. Objective To explore the clinical characteristics of hospitalized elderly depression patients with SCH. Methods Depressed patients hospitalized in the Fourth People's Hospital of Hefei from April 2019 to March 2023 were included in the study and divided into the subclinical hypothyroidism depression (SCHD) group (n=108) and control depression (CD) group (n=110). General data of the subjects was collected, fasting venous blood samples were collected for testing biochemical markers, and the Hamilton Depression Rating Scale (HAMD-24) was used to assess depressive symptoms. Results The SCHD group showed a higher number of antipsychotic drug use, comorbid somatic diseases, days of hospitalization, and duration of the disease than the CD group (P

Published
2024
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5. Estimating Stellar Parameters and Identifying Very Metal-poor Stars Using Convolutional Neural Networks for Low-resolution Spectra (R~200)

Author

Wu, Tianmin, Bu, Yude, Xie, Jianhang, Liang, Junchao, Liu, Wei, Yi, Zhenping, Kong, Xiaoming, and Liu, Meng

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Very metal-poor (VMP, [Fe/H]<-2.0) stars offer a wealth of information on the nature and evolution of elemental production in the early galaxy and universe. The upcoming China Space Station Telescope (CSST) will provide us with a large amount of spectroscopic data that may contain plenty of VMP stars, and thus it is crucial to determine the stellar atmospheric parameters ($T_{eff}$, $\log g$, and [Fe/H]) for low-resolution spectra similar to the CSST spectra (R~200). In this paper, a two-dimensional Convolutional Neural Network (CNN) model with three convolutional layers and two fully connected layers is constructed. The principal aim of this work is to measure the ability of this model to estimate stellar parameters on low-resolution (R~200) spectra and to identify VMP stars so that we can better search for VMP stars in the spectra observed by CSST.We mainly use 10,008 observed spectra of VMP stars from LAMOST DR3, and 16,638 spectra of common stars ([Fe/H]>-2.0) from LAMOST DR8 for the experiment and make comparisons. All spectra are reduced to R~200 to match the resolution of the CSST and are preprocessed and collapsed into two-dimensional spectra for input to the CNN model. The results show that the MAE values are 99.40 K for $T_{eff}$, 0.22 dex for $\log g$, 0.14 dex for [Fe/H], and 0.26 dex for [C/Fe], respectively. Besides, the CNN model efficiently identifies VMP stars with a precision of 94.77%. The validation and practicality of this model are also tested on the MARCS synthetic spectra. This paper powerfully demonstrates the effectiveness of the proposed CNN model in estimating stellar parameters for low-resolution spectra (R~200) and recognizing VMP stars that are of interest for stellar population and galactic evolution work., Comment: 13 pages, 9 figures

Published
2023

6. Identifying hot subdwarf stars from photometric data using Gaussian mixture model and graph neural network

Author

Liu, Wei, Bu, Yude, Kong, Xiaoming, Yi, Zhenping, and Liu, Meng

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Hot subdwarf stars are very important for understanding stellar evolution, stellar astrophysics, and binary star systems. Identifying more such stars can help us better understand their statistical distribution, properties, and evolution. In this paper, we present a new method to search for hot subdwarf stars in photometric data (b, y, g, r, i, z) using a machine learning algorithm, graph neural network, and Gaussian mixture model. We use a Gaussian mixture model and Markov distance to build the graph structure, and on the graph structure, we use a graph neural network to identify hot subdwarf stars from 86 084 stars, when the recall, precision, and f1 score are maximized on the original, weight and synthetic minority oversampling technique datasets. Finally, from 21 885 candidates, we selected approximately 6 000 stars that were the most similar to the hot subdwarf star.

Published
2022

7. Searching for Barium Stars from the LAMOST Spectra Using the Machine Learning Method: I

Author

Guo, Fengyue, Cheng, Zhongding, Kong, Xiaoming, Zhang, Yatao, Bu, Yude, Yi, Zhenping, Du, Bing, and Pan, Jingchang

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies
Abstract

Barium stars are chemically peculiar stars that exhibit enhancement of s-process elements. Chemical abundance analysis of barium stars can provide crucial clues for the study of the chemical evolution of the Galaxy. The Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) has released more than 6 million low-resolution spectra of FGK-type stars by Data Release 9 (DR9), which can significantly increase the sample size of barium stars. In this paper, we used machine learning algorithms to search for barium stars from low-resolution spectra of LAMOST. We have applied the Light Gradient Boosting Machine (LGBM) algorithm to build classifiers of barium stars based on different features, and build predictors for determining [Ba/Fe] and [Sr/Fe] of barium candidates. The classification with features in the whole spectrum performs best: for the sample with strontium enhancement, Precision = 97.81%, and Recall = 96.05%; for the sample with barium enhancement, Precision = 96.03% and Recall = 97.70%. In prediction, [Ba/Fe] estimated from BaII line at 4554 \r{A} has smaller dispersion than that from BaII line at 4934 \r{A}: MAE$_{4554 \r{A}}$ = 0.07, $\sigma_{4554 \r{A}}$ = 0.12. [Sr/Fe] estimated from SrII line at 4077 \r{A} performs better than that from SrII line at 4215 \r{A}: MAE$_{4077 \r{A}}$ = 0.09, $\sigma_{4077 \r{A}}$ = 0.16. A comparison of the LGBM and other popular algorithms shows that LGBM is accurate and efficient in classifying barium stars. This work demonstrated that machine learning can be used as an effective means to identify chemically peculiar stars and determine their elemental abundance., Comment: 13 pages, 6 figures

Published
2022
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8. Li-rich Giants Identified from LAMOST DR8 Low-Resolution Survey

Author

Cai, BeiChen, Kong, XiaoMing, Shi, JianRong, Gao, Qi, Bu, Yude, and Yi, Zhenping

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

A small fraction of giants possess photospheric lithium(Li) abundance higher than the value predicted by the standard stellar evolution models, and the detailed mechanisms of Li enhancement are complicated and lack a definite conclusion. In order to better understand the Li enhancement behaviors, a large and homogeneous Li-rich giants sample is needed. In this study, we designed a modified convolutional neural network model called Coord-DenseNet to determine the A(Li) of Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) low-resolution survey (LRS) giant spectra. The precision is good on the test set: MAE=0.15 dex, and {\sigma}=0.21 dex. We used this model to predict the Li abundance of more than 900,000 LAMOST DR8 LRS giant spectra and identified 7,768 Li-rich giants with Li abundances ranging from 2.0 to 5.4 dex, accounting for about 1.02% of all giants. We compared the Li abundance estimated by our work with those derived from high-resolution spectra. We found that the consistency was good if the overall deviation of 0.27 dex between them was not considered. The analysis shows that the difference is mainly due to the high A(Li) from the medium-resolution spectra in the training set. This sample of Li-rich giants dramatically expands the existing sample size of Li-rich giants and provides us with more samples to further study the formation and evolution of Li-rich giants., Comment: 14 pages,13 figures

Published
2022
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9. Automatic detection of low surface brightness galaxies from SDSS images

Author

Yi, Zhenping, Li, Jia, Du, Wei, Liu, Meng, Liang, Zengxu, Xing, Yongguang, Pan, Jingchang, Bu, Yude, Kong, Xiaoming, and Wu, Hong

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Low surface brightness (LSB) galaxies are galaxies with central surface brightness fainter than the night sky. Due to the faint nature of LSB galaxies and the comparable sky background, it is difficult to search LSB galaxies automatically and efficiently from large sky survey. In this study, we established the Low Surface Brightness Galaxies Auto Detect model (LSBG-AD), which is a data-driven model for end-to-end detection of LSB galaxies from Sloan Digital Sky Survey (SDSS) images. Object detection techniques based on deep learning are applied to the SDSS field images to identify LSB galaxies and estimate their coordinates at the same time. Applying LSBG-AD to 1120 SDSS images, we detected 1197 LSB galaxy candidates, of which 1081 samples are already known and 116 samples are newly found candidates. The B-band central surface brightness of the candidates searched by the model ranges from 22 mag arcsec $^ {- 2} $ to 24 mag arcsec $^ {- 2} $, quite consistent with the surface brightness distribution of the standard sample. 96.46\% of LSB galaxy candidates have an axis ratio ($b/a$) greater than 0.3, and 92.04\% of them have $fracDev\_r$\textless 0.4, which is also consistent with the standard sample. The results show that the LSBG-AD model learns the features of LSB galaxies of the training samples well, and can be used to search LSB galaxies without using photometric parameters. Next, this method will be used to develop efficient algorithms to detect LSB galaxies from massive images of the next generation observatories., Comment: 11 pages, 9 figures,accepted to be published on MNRAS

Published
2022
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10. A new moving group in the Local Arm

Author

Liang, Xilong, Zhao, Jingkun, Chen, Yuqin, Fang, Xiangsong, Ye, Xianhao, Zhang, Jiajun, Kong, Xiaoming, and Zhao, Gang

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present a new moving group clustered in kinematics, spatial position and elemental abundances. Its spatial position is around the center of the Local Arm of the Milky Way. A convergent point method was taken to select candidate member stars.\textbf{ Among 206 candidate member stars, 74 are pre-main-sequence stars and some of them have stellar disks.} We presume those pre-main sequence stars belong to Orion nebula. We suggest this moving group is caused by density wave of the Local Arm passing by., Comment: accepted by AJ

Published
2020
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12. Tracing the origin of moving groups I. The {\gamma} Leo moving group with high resolution spectra from the Subaru Telescope

Author

Liang, Xilong, Zhao, Jingkun, Zhao, Gang, Aoki, Wako, Miho, Ishigaki, Tadafumi, Matsuno, Chen, Yuqin, Kong, Xiaoming, Shi, Jianrong, and Xing, Qianfan

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present chemical abundances of 15 stars in the {\gamma} Leo moving group based on high-resolution spectra with the Subaru High Dispersion Spectrograph. The sample was picked up by applying wavelet transform to UVW velocity compo- nents of stars in the solar neighbourhood. Both photometric and spectroscopic method have been used to determine the stellar parameters of stars. Abun- dances of 11 elements including Na, Mg, Al, Si, Ca, Ti, Cr, Fe, Ni, Y and Ba are measured. Our results show that the member stars display a wide metallicity distribution with abundance ratios similar to Milky way disk stars. We presume that the {\gamma} Leo moving group is originated from dynamical effects probably related to the Galactic spiral arms., Comment: 21 pages, 6 figures, apj in press

Published
2018
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16. Identifying hot subdwarf stars from photometric data using a Gaussian mixture model and graph neural network.

Author

Liu, Wei, Bu, Yude, Kong, Xiaoming, Yi, Zhenping, and Liu, Meng

Subjects
GRAPH neural networks, GAUSSIAN mixture models, BINARY stars, DISTRIBUTION (Probability theory), MACHINE learning
Abstract

Hot subdwarf stars are very important for understanding stellar evolution, stellar astrophysics, and binary star systems. Identifying more such stars can help us better understand their statistical distribution, properties, and evolution. In this paper, we present a new method to search for hot subdwarf stars in photometric data (BP, RP, G, g, r, i, z, y) using a machine-learning algorithm, a graph neural network, and a Gaussian mixture model. We use a Gaussian mixture model and Markov distance to build the graph structure, and on the graph structure we use a graph neural network to identify hot subdwarf stars from a dataset containing 31838 stars, with the recall, precision, and F1 score maximized on the original, weight, and synthetic minority oversampling technique datasets. Finally, to validate the model, we selected about 2116 hot subdwarf candidates from the Gaia Data Release 3 database and compared them with the studies by Culpan et al. (2022 , A&A, 662, A40) and Geier et al. (2019 , A&A, 621, A38). [ABSTRACT FROM AUTHOR]

Published
2024
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19. Detection of mild cognitive impairment based on attention mechanism and parallel dilated convolution.

Author

Wang, Tao, Ding, Zenghui, Yang, Xianjun, Chen, Yanyan, Liu, Yu, Kong, Xiaoming, and Sun, Yining

Subjects
MILD cognitive impairment, ALZHEIMER'S disease, DEEP learning, MAGNETIC resonance imaging, NEURODEGENERATION
Abstract

Mild cognitive impairment (MCI) is a precursor to neurodegenerative diseases such as Alzheimer's disease, and an early diagnosis and intervention can delay its progression. However, the brain MRI images of MCI patients have small changes and blurry shapes. At the same time, MRI contains a large amount of redundant information, which leads to the poor performance of current MCI detection methods based on deep learning. This article proposes an MCI detection method that integrates the attention mechanism and parallel dilated convolution. By introducing an attention mechanism, it highlights the relevant information of the lesion area in the image, suppresses irrelevant areas, eliminates redundant information in MRI images, and improves the ability to mine detailed information. Parallel dilated convolution is used to obtain a larger receptive field without downsampling, thereby enhancing the ability to acquire contextual information and improving the accuracy of small target classification while maintaining detailed information on large-scale feature maps. Experimental results on the public dataset ADNI show that the detection accuracy of the method on MCI reaches 81.63%, which is approximately 6.8% higher than the basic model. The method is expected to be used in clinical practice in the future to provide earlier intervention and treatment for MCI patients, thereby improving their quality of life. [ABSTRACT FROM AUTHOR]

Published
2024
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32. A New Moving Group in the Local Arm

Author

Liang, Xilong, primary, Zhao, Jingkun, additional, Chen, Yuqin, additional, Fang, Xiangshong, additional, Ye, Xianhao, additional, Zhang, Jiajun, additional, Kong, Xiaoming, additional, and Zhao, Gang, additional

Published
2020
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35. Atmospheric parameter measurement of Low-S/N stellar spectra based on deep learning

Author

Bu Yude, Pan Jingchang, Kong Xiaoming, Yi Zhenping, and Wu Minglei

Subjects
Artificial neural network, Computer science, business.industry, Deep learning, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Convolutional neural network, Atomic and Molecular Physics, and Optics, Astronomical spectroscopy, Spectral line, Electronic, Optical and Magnetic Materials, 010309 optics, Support vector machine, 0103 physical sciences, Linear regression, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Artificial intelligence, Electrical and Electronic Engineering, 0210 nano-technology, business, Algorithm
Abstract

Deriving accurate atmospheric parameters from stellar spectra is of fundamental importance for stellar research. At present, machine learning, such as multiple linear regression, artificial neural networks (ANN), and support vector machines, have been widely used to derive atmospheric parameters. However, these methods are generally only applicable to estimate the atmospheric parameters of high signal-to-noise ratio (high-S/N) stellar spectra. For low signal-to-noise ratio (low-S/N) stellar spectra, these methods tend to perform poorly. In order to address the problem, we propose a one-dimensional convolutional neural network StarNet. The proposed method includes the following three steps: firstly, select the spectra with S/N

Published
2020

36. Tracing the origin of moving groups I. The �� Leo moving group with high resolution spectra from the Subaru Telescope

Author

Liang, Xilong, Zhao, Jingkun, Zhao, Gang, Aoki, Wako, Miho, Ishigaki, Tadafumi, Matsuno, Chen, Yuqin, Kong, Xiaoming, Shi, Jianrong, and Xing, Qianfan

Subjects
Astrophysics of Galaxies (astro-ph.GA), Astrophysics::Solar and Stellar Astrophysics, FOS: Physical sciences, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

We present chemical abundances of 15 stars in the �� Leo moving group based on high-resolution spectra with the Subaru High Dispersion Spectrograph. The sample was picked up by applying wavelet transform to UVW velocity compo- nents of stars in the solar neighbourhood. Both photometric and spectroscopic method have been used to determine the stellar parameters of stars. Abun- dances of 11 elements including Na, Mg, Al, Si, Ca, Ti, Cr, Fe, Ni, Y and Ba are measured. Our results show that the member stars display a wide metallicity distribution with abundance ratios similar to Milky way disk stars. We presume that the �� Leo moving group is originated from dynamical effects probably related to the Galactic spiral arms., 21 pages, 6 figures, apj in press

Published
2018
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37. Design and implementation of mobile health monitoring system based on MQTT protocol

Author

Kong Xiaoming, Ma Qianqian, Ding Yi, and Fan Binwen

Subjects
MQTT, business.industry, Computer science, Wearable computer, 020206 networking & telecommunications, Cloud computing, 02 engineering and technology, 020202 computer hardware & architecture, Embedded system, Server, 0202 electrical engineering, electronic engineering, information engineering, The Internet, Mobile telephony, Android (operating system), business, Message queue
Abstract

Mobile and smart health care exists some questions and challenges including signs and symptoms information collection, remote real-time detection and online information push. In this paper, remote network vital sign information monitoring system and cloud data storage platform is designed and implemented to solve the problems mentioned above. The system is realized based on STM32 wearable hardware devices with sensor embedded to capture information and send information to internet via the routing Gateway. The server constructed by using Spring MVC framework with the high concurrency features and the server is based on MQTT (Message Queuing Telemetry Transport) protocol to realize subscription and message pushing on Android platform. Experimental results demonstrate that the technology architecture can meet the basic functions and requirements of mobile health monitoring system with low power consumption, low delay and low flow consumption.

Published
2016

38. Mass Reduction and Propulsion Control for a Permanent-Magnet Linear Synchronous Motor Vehicle

Author

Yoshida, Kinjiro, Takami, Hiroshi, Kong, Xiaoming, and Sonoda, Akihiro

Subjects
Synchronous electric motors -- Testing, Business, Computers, Electronics, Electronics and electrical industries
Abstract

This paper deals with fundamental research on a new container transport system utilizing a permanent-magnet (PM) linear synchronous motor (LSM), and proposes a concept of mass reduction and propulsion control for container transfer operation. By applying the repulsive lift force in the PM LSM, a large percent of vehicle weight is compensated for, and it needs less thrust force to propel the vehicle. An experiment which involved propelling the test vehicle by reducing its weight by about 85% was conducted successfully. Index Terms--Mass reduction and propulsion control, permanent-magnet linear synchronous motor.

Published
2001

39. Propulsion Motion Control With Mass-Reduction in PM LSM Container Test Vehicle

Author

Yoshida, Kinjiro, Takami, Hiroshi, and Kong, Xiaoming

Subjects
Mass-reduction and propulsion control, Container test vehicle, PM LSM, Thrust force, Decoupled levitation-and-propulsion control, Repulsive lift force
Abstract

This paper deals with a fundamental research of a new container transport system driven by permanent magnet (PM) excited linear synchronous motor (LSM), and proposes a concept of mass-reduction and propulsion control for heavier goods transfer operation. By controlling the repulsive lift force in PM LSM, a large percent of vehicle weight and its load is compensated for, while it only needs less thrust force to propel the vehicle. The repulsive lift force and the propulsion force can be controlled respectively according to the decoupled control law for LM. Therefore, a combined mass-reduction and propulsion control of the vehicle is realized even in standstill state. An experiment of propelling the test vehicle with reducing its weight by about 85% has been conducted successfully.

Published
2000

41. An update on the field trial concerning Free Cooling solution for FTTCab architecture

Author

Gianluca Griffa, Kong Xiaoming, Chen Qiao, Flavio Cucchietti, Claudio Bianco, Hong Yuping, Han Dong, and Luo Shudong

Subjects
Energy conservation, Engineering, Software deployment, Order (exchange), business.industry, Field trial, Next-generation network, Free cooling, Architecture, business, Telecommunications equipment, Telecommunications
Abstract

The concept of the energy-saving strategy has become in recent years one of the top priorities of Telecom Operators and Governments. To this end, the deployment of the Next Generation Networks represents one of the main drivers towards the reduction of the energy bill. The NGN architecture can include different scenarios: FTTE, FTTCab, FTTB or FTTH. Among these, the FTTCab certainly brings the greatest challenges concerning the issue of heat dissipation. To this end, the present paper describes the first field trial (jointly carried on by Telecom Italia and Huawei) results for an innovative cooling solution: the Free Cooling Cabinet. This system directly uses the external fresh air in order to increase the cooling efficiency. In particular, data collected from the field trial and concerning internal/external temperature, humidity as well as noise levels will be reported. Finally, the next steps of the trial will be anticipated.

Published
2009

42. An update on the field trial concerning underground solution for FTTCab architecture

Author

Chen Qiao, Hong Yuping, Gianluca Griffa, Kong Xiaoming, Zhai liqian, Paolo Gemma, Flavio Cucchietti, and Claudio Bianco

Subjects
Energy conservation, Heat pipe, Engineering, Software deployment, Air conditioning, business.industry, Field trial, Next-generation network, Process (computing), Architecture, business, Telecommunications
Abstract

The concept of the energy-saving strategy has become in recent years one of the top priorities of Telecom Operators and Governments. To this end, the deployment of the Next Generation Networks represents one of the main drivers towards the reduction of the energy bill. The NGN architecture can include different scenarios: FTTE, FTTCab, FTTB or FTTH. Among these, the FTTCab certainly brings the greatest challenges concerning the issue of heat dissipation. To this end, the present paper describes the first field trial (jointly carried on by Telecom Italia and Huawei) results for an innovative cooling solution: the Underground Cooling Cabinet. This system adopts a certain number of heat pipes (sealed hollow tubes containing a solution of ammonia) installed underground with the aim of refreshing the hot air coming from the equipment. The cooling process is simply pursued with the support of one fan, and is therefore far more efficient with respect to traditional solutions involving for example mechanical air conditioning systems. Data collected from the field trial and concerning internal/external temperature, as well as humidity, will be reported in the following. Finally, the next steps of the trial will be anticipated.

Published
2009

43. Energy saving active cooling systems for outdoor cabinet

Author

Kong Xiaoming, Chen Qiao, F. Cucchietti, Zhang Yunhui, G. Griffa, Hong Yuping, and Ji Shengqin

Subjects
Engineering, Air conditioning, business.industry, Passive cooling, Next-generation network, Active cooling, Water cooling, Free cooling, Heat sink, business, Operating expense, Simulation, Automotive engineering
Abstract

Currently the energy-saving strategy is one of the top priorities of Telecom Operators and Governments. In particular, the area of cooling has heavy impact on the total electrical energy consumption, and needs to be optimized to improve overall performances, reducing both CAPEX/OPEX and the environmental impact. In this paper, two innovative cooling solutions for outdoor cabinets are described: free cooling system and manhole cooling system. Free cooling system is a solution directly using external fresh air in order to increase the cooling efficiency of active outdoor cabinet. Three key technologies are developed and used in this system: experimental results indicate that excellent heat dissipation capacity and good corrosion resistance of outdoor cabinet are achieved simultaneously. Manhole cooling system is another innovative solution, in which manhole (part of the underground maintenance infrastructure of TLC operator) is innovatively used as a huge heat sink. The cooling performance of manhole cooling system is predicted through CFD simulations. It has been demonstrated that as much as 60% of the heat load can be dissipated into the ground, still maintaining the equipment well within its operating temperature range. The proposed cooling solutions are particularly interesting for the FTTCab architecture. FTTCab deployment, as foreseen in several NGN strategies, will strongly increase in the next years.

Published
2008

44. CFD thermal analysis for CO of TI lab

Author

P. Salamandra, Kong Xiaoming, Luo Zhaoxia, Han Qian, Huang Wenxiong, Tang Wenfei, G. Rossi, V. Bernardini, D. Suino, Han Dong, A. Arena, and Hong Yuping

Subjects
Engineering, Reliability (semiconductor), business.industry, Water cooling, Mechanical engineering, Dissipation, Computational fluid dynamics, Thermal analysis, Operating expense, Process engineering, business, Temperature measurement, Energy (signal processing)
Abstract

With the growing power dissipation of information and telecommunication equipments, more concerns should be put on the cooling issues due to the reliability and OPEX requirements. This paper describes a fast optimizing cooling solution for the existing CO/ DC. As an important analysis approach, CFD simulation aims to improve the heat dissipation condition and the energy saving. With the application of CFD, lots of benefits from the fast optimization analysis can be obtained. In the paper, the local hot spots are firstly found out and solutions for these hot spots are proposed to keep the equipment operating in a proper environment and to guarantee the operation reliability. Then the layout of CO/DC is optimized to enhance the efficiency of the cooling system. Following the CFD analysis, several optimized solutions are presented. With the comparison of the results of different solutions in the experiment, the best one can be identified to be applied in a similar practical situation.

Published
2008

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