Your search keyword '"YANG Kun"' showing total 17,763 results

1. Primary frequency regulation strategy for battery-flywheel hybrid energy storage based on adaptive state of charge

Author

WANG Junyue, YANG Kun, SONG Zhengxiang, WU Chenyu, and BAI Yilin

Subjects

hybrid energy storage, primary frequency regulation, weight assignment, adaptive, state of charge (soc), control strategy, Applications of electric power, TK4001-4102

Abstract

With the gradual increase of the proportion of renewable energy in the power system, the risk of frequency fluctuation in the power system increases. Flywheel and lithium battery can complement each other as hybrid energy storage applied in the primary frequency regulation of the grid, effectively solving the problem of system frequency fluctuation. In order to give full play to the respective frequency regulation advantages of flywheel and lithium battery, a primary frequency regulation (PFR) strategy for battery-flywheel hybrid energy storage based on adaptive state of charge (SOC) is proposed. Firstly, a weight allocation PFR is proposed, containing three control methods, namely, positive and negative virtual inertia control and virtual droop control. Secondly, the parameters of the PFR are corrected by using the SOC of the doubly-fed flywheel and the Li-ion battery, so as to improve the PFR capability of hybrid energy storage near the threshold of SOC. Finally, the control strategy of the hybrid energy storage with the other control strategies is compared with that of this paper in simulation under the frequency regulation scenarios. The results show that the SOC fluctuation range of the energy storage system of the strategy proposed in this paper is minimum. The battery will not be overcharged and overdischarged, and the system frequency fluctuation is kept no more than ±0.2 Hz, which proves that the proposed strategy can improve the frequency stability of the grid.

Published

2024

2. A short-term PV power forecasting method based on cosine similarity and TSO-BP neural network

Author

LU Yi, XUE Feng, TANG Xiaobo, YANG Kun, LI Yi, and MA Gang

Subjects

pv power forecasting, pearson correlation coefficient, cosine similarity, tso, bp neural network, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Accurate photovoltaic （PV） output power forecasting plays a crucial role in ensuring the secure and stable operation of distribution networks. In light of this， the paper proposes a short-term PV power forecasting method using cosine similarity and a hybrid TSO （tuna swarm optimization） and BP （back propagation） neural network. Firstly， the cosine similarity algorithm is utilized to identify historical data with strong resemblance to the forecast day as training samples. Subsequently， the TSO algorithm is employed to search for optimal initial weights and thresholds for the BP neural network. The TSO-BP model is then trained for short-term PV power forecasting. Finally， the TSO-BP model is applied to predict PV output power under both stable and fluctuating weather conditions. Simulation results indicate that， the proposed method， compared to traditional forecasting methods， achieves higher accuracy in predictions for both steady and fluctuating weather scenarios.

Published

2024

3. Rapid assessment of distribution network equipment status based on fuzzy decision making

Author

Wang Qian, Li Yuquan, Wang Xiaohui, Yang Kun, Liu Yang, Xia Zhongyuan, Lan Guangyu, Liu Yunlong, and Tang Jiyuan

Subjects

electrical distribution equipment, fuzzy decision making, data-driven, status assessment, XGBoost, General Works

Abstract

Voltage instability, power imbalance, and unreliability are caused mainly by equipment failure in the distribution system, so it is important to accurately and quickly assess the status of distribution network equipment. However, it is challenging to detect equipment failures, the traditional XGBoost algorithm is unsuitable because some evaluation indices are incompetent to quantify. To address these issues, we propose a fast evaluation method for the state of electrical distribution equipment based on fuzzy decision-making. Firstly, key indices are selected from the multi-source equipment information. Secondly, this paper constructs the mapping between key indices and equipment status scores by combining the fuzzy iterative method and the XGBoost algorithm. Finally, the proposed assessment model is confirmed by using the distribution transformers as an example. The result shows that the proposed multi-source information assessment method can quickly and accurately determine the operation status of electrical distribution equipment, and the proposed method has better accuracy than the traditional method.

Published

2024

4. Application of psychological intervention combined with wet compress of Traditional Chinese Medicine in nursing of patients with diabetic foot ulcer (心理干预联合中药塌渍技术在糖尿病足溃疡护理中的应用)

Author

WANG Xiuyan (王秀燕), CAO Hongjing (曹红京), LI Ning (李宁), LI Yueru (李月茹), LI Jing (李静), YANG Kun (杨坤), LI Lin (李林), and TANG Hong (汤虹)

Subjects

diabetes mellitus, diabetic foot ulcer, wet compress of traditional chinese medicine, psychological intervention, 糖尿病, 糖尿病足溃疡, 中药塌渍, 心理护理, Nursing, RT1-120

Abstract

Objective To evaluate the psychological intervention combined with Traditional Chinese Medicine Ta stain therapy in nursing of patients with diabetic foot ulcer. Methods Totally 64 patients with diabetic foot ulcer were randomly divided into the control group and the observation group, with 32 cases in each group. All patients received local dressing change in addition to the comprehensive treatment such as blood glucose control and infection prevention. Patients in the observation group were given psychological intervention combined with wet compress of Traditional Chinese Medicine. The condition of swelling relief and wound repair were evaluated after intervention, and the degree of pain was measured by using Visual Analogue Scale (VAS). Results The total effective rates of swelling relief and wound repair in the observation group were higher than those in the control group(P＜0. 05). The VAS score was decreased in both two groups after intervention, and VAS score in the observation group was lower than that in the control group(P＜0. 01). Conclusion The psychological intervention combined with wet compress of Traditional Chinese Medicine is effective to improve the swelling relief and wound repair, and reduce the pain of patients with diabetic foot ulcer. (目的 探讨心理干预联合中药塌渍技术在糖尿病足溃疡患者护理中的应用效果。方法 采用随机数字表法将64例糖尿病足溃疡患者分为对照组和观察组, 各32例。两组患者在积极控制血糖和抗感染的基础上, 给予局部换药; 观察组增加中药塌渍治疗, 并强化患者心理干预。评估患者红肿伤口消肿情况和破溃伤口修复情况, 采用视觉模拟评分(VAS)评估患者足部疼痛感, 评价干预效果。结果 红肿伤口消肿和破溃伤口修复评价结果显示, 观察组干预效果均优于对照组, 差异有统计学意义(P＜0. 05)。干预后, 两组VAS量表评分均较干预前下降, 且观察组VAS量表评分低于对照组, 差异有统计学意义(P＜0. 01)。结论 在常规护理的基础上, 心理干预联合中药塌渍技术能有效促进糖尿病足溃疡患者红肿伤口消肿和破溃伤口的修复, 缓解足部疼痛感。)

Published

2024

5. Effect of humanistic nursing interventions on anxiety and depression of patients with diabetic foot (人文关怀护理对糖尿病足患者焦虑抑郁情绪效果观察)

Author

YANG Kun (杨坤), CAO Hongjing (曹红京), LI Ning (李宁), LI Yueru (李月茹), LI Lin (李林), WANG Xiuyan (王秀燕), and TANG Hong (汤虹)

Subjects

diabetic foot, humanistic care concept, nurse-patient communication, anxiety, depression, 糖尿病足, 人文关怀理念, 护患沟通, 焦虑, 抑郁, Nursing, RT1-120

Abstract

Objective To investigate the effect of humanistic nursing interventions on anxiety and depression of patients with diabetic foot. Methods A total of 100 patients with diabetic foot were randomly divided into the control group and observation group, with 50 cases in each group. All patients received comprehensive treatment of diabetes and routine care, and those in the observation group were given humanistic nursing interventions. The Self-rating Anxiety Scale and Self-rating Depression Scale were used to measure the negative emotions of patients. Results The SAS and SDS scores were significantly decreased after intervention, and SAS and SDS scores in the observation group were lower than those in the control group (P＜0. 01). Conclusion The humanistic nursing intervention is effective to relieve the anxiety and depression of patients with diabetic foot. It may help to enhance patient’s positive coping style and quality of life. (目的 运用人文关怀护理干预缓解糖尿病足患者焦虑抑郁情绪。方法 选取于2022年1月—2023年4月医院收治的糖尿病足患者100例为研究对象, 随机分组为对照组和观察组, 各50例。对照组接受常规治疗和护理, 观察组在对照组基础上增加人文关怀护理。采用焦虑自评量表(SAS)和抑郁自评量表(SDS)评估患者焦虑抑郁情绪。结果 干预后, 两组SAS和SDS量表评分均较干预前下降, 且观察组SAS和SDS量表评分低于对照组, 差异有统计学意义(P＜0. 01)。结论 人文关怀护理能有效改善糖尿病足患者焦虑抑郁情绪, 增强积极应对方式, 从而有利于改善生活质量。)

Published

2024

6. Study on plugging performance of heterogeneous systems in microchannels

Author

XIA Huifen, YANG Kun, LI Kunlong, JIANG Lili, and LIU Yang

Subjects

heterogeneous system, phase field method, plugging performance, pore-throat ratio, matching coefficient, Chemical technology, TP1-1185, Petroleum refining. Petroleum products, TP690-692.5, Geology, QE1-996.5

Abstract

This paper establishes a microchannel model based on the pore scale distribution characteristics of natural cores from Daqing Oilfield. It considers the deformation and flow characteristics of the dispersed and continuous phases in the heterogeneous system， builds a flow model by the phase field method， and solves it by the finite element method. The paper also simulates the generation of dispersed phase particles in the microchannel， realizes particle sorting， and studies the effect of the matching coefficient and pore-throat ratio on the plugging performance of particles in the microscopic pore-throat structure. The results show that when the particles are elastically plugged in the microscopic pore-throat structure， the pressure at the entrance of the pore throat changes periodically with the migration of the particles through the pore throat. The optimal matching coefficient between the particles and the pore throat is ［1.0， 1.4）. In this interval， the particles can be temporarily plugged at the entrance of the pore throat and recover their original shape after deformation and migration through the pore throat. When the pore diameter is the same， a larger matching coefficient and pore-throat ratio indicate greater pressure of particles through the pore throat， and larger particle size reflects a smaller critical value of particles through the pore throat.

Published

2024

7. Effect research of fuel injection and pressurization pulse width on injection characteristics of ultra high pressure common rail system

Author

YANG Kun, ZHOU Lei, ZHAO Jianhua, NIE Tao, and HUANG Lin

Subjects

fuel injection pulse width, pressurization pulse width, ultra high pressure common rail system, fuel injection characteristics, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Ultra high pressure common rail system can realize adjustable injection rate by controlling the relationship between fuel injection and pressurization timing, and then affect the fuel injection characteristics of diesel engine. In order to ascertain the effect law and its formation mechanism of the fuel injection and pressurization pulse width on the fuel injection characteristics of ultra high pressure common rail system, on the basis of introducing the mathematical model of the system, the simulation model of ultra high pressure common rail system was established, and the accuracy of the model was verified by performance experiment, the effect of fuel injection and pressurization pulse width on the fuel injection characteristics of the system under different common rail pressure were analyzed. The results show that with the increase of fuel injection pulse width, the shape of fuel injection rate curve is similar to saddle shape and the proportion of large fuel injection rate range in the whole injection process increases gradually. At the same time, the fuel injection opening delay remains unchanged, but the fuel injection closing delay increases significantly when the fuel injection pulse width is small (0.6~1 ms), while it remains basically unchanged when the fuel injection pulse width is large (1~1.4 ms). With the increase of pressurization pulse width, the shape of fuel injection rate curve is similar to saddle shape and remains unchanged under the condition of small injection pulse width, while the fuel injection rate curve shape may appear similar to the "inverted saddle-shaped" under the condition of large injection pulse width, this is due to the rapid decrease of pressurization pressure caused by the closing of the solenoid valve control signal in the pressure-amplifier device before the end of fuel injection.

Published

2023

8. Research status and development trend of acid-fracturing technologies

Author

LI Changhai, ZHAO Lun, ZHU Qiang, LI Yunhai, MA Caiqin, LI Xiaosheng, YANG Kun, and ZHANG Liying

Subjects

acid-fracturing, research status, difficulty in reservoir simulation, mechanism, influencing factor, development trend, Chemical technology, TP1-1185, Petroleum refining. Petroleum products, TP690-692.5, Geology, QE1-996.5

Abstract

Acid-fracturing technologies have become conventional measures to increase production in the field of petroleum engineering， and they are widely used in carbonate rock， tight sandstone， and volcanic rock reservoirs. However， relevant research mainly focuses on specific blocks， and there is a lack of a systematic and comprehensive summary of relevant research progress. This paper comprehensively investigated the latest progress of acid-fracturing technologies in China and abroad， systematically concluded the research achievements including the hot acid-fracturing technologies， difficulties and measures of acid-fracturing simulation in different reservoirs， acid-fracturing mechanism， and factors affecting acid-fracturing， and pointed out the development trend and existing problems of acid-fracturing technologies. Differentiated multi-staged acid-fracturing technology， volume acid-fracturing technology， and fracture height control acid-fracturing technology are hot acid-fracturing technologies in recent years. There are certain differences in the difficulties of acid-fracturing simulation in different reservoirs. Therefore， it is necessary to formulate corresponding acid-fracturing technology policies according to reservoir characteristics. The acid-fracturing mechanism can be analyzed through theoretical calculation and experiments. Theoretical calculation is the basis of acid-fracturing technology research，and experiments can provide important guidance for the research on acid-fracturing mechanisms and the determination of process parameters. Acid-fracturing technologies are affected by both geological and engineering factors. Geological factors are the basis of acid-fracturing technology policies， and engineering factors are the key to improving acid-fracturing effects. At present， acid-fracturing technologies are developing in four directions： deep and ultra-deep acid-fracturing layers， accurate acid-fracturing objects， expanded acid-fracturing scope， and controllable acid-fracturing technologies. It is suggested to strengthen the research on acid-fracturing theories， continuously improve the process and equipment， and establish the implementation template of typical acid-fracturing technologies， so as to guide the implementation of acid-fracturing technologies.

Published

2023

9. Engineering and Technical Research on Combined Application of Stormwater Regulation Pond and PP Modular Cistern in Wet Trapped Loess Area

Author

Liu Zhendong, Li Shuo, Wu Hui, and Yang Kun

Subjects

regulating volume, stormwater modeling, settlement, wetting coefficient, loess characteristics, 68t05, Mathematics, QA1-939

Abstract

This paper analyzes the engineering characteristics of loess and the factors affecting wet subsidence, briefly outlines the application effect of PP modular cisterns, and combines the two to design a PP modular cistern based on rainwater harvesting. Combined with the analysis of the pre-engineering conditions of the storage tank, propose the treatment method for wet subsidence loess foundations. Design the structure of the storage tank by determining the volume of the tank by comparing the difference between the inlet and outlet flow during the storage time integral. Simulate the modeling of storm floods and the process of emptying stormwater regulating ponds. Evaluate the geologic conditions for the construction of the regulating pond project. Compare the original investigation report with the results of this paper’s test of the engineering foundation’s wet subsidence coefficient. Set different thicknesses of bedding layers and calculate the settlement of the center of the pool under different humidity levels of the loess layer. Simulate the 2.3-hour rainstorm process, analyze the storage volume of the storage pond during the period, and calculate the cumulative storage volume of the storage pond. This project’s foundation loess wet subsidence coefficient is medium, and the actual additional pressure is much smaller than the starting pressure of wet subsidence. It is appropriate to use the soil bedding program (1.6m plain soil bedding layer and then rammed 0.4m thick 2:8 gray soil, with PP module seepage control). Combined with the local hydrological conditions, it is known that the peak present time of the peak outflow from the regulating pond TP =85min, and the volume of the regulating pond is 22543.47 m3.

Published

2024

10. The Relationship between Built Environment Characteristics and Metro Stations Pedestrian Catchment Areas

Author

Dong Chen, Yang Kun, and Guo Chun

Subjects

Transportation engineering, TA1001-1280, Transportation and communications, HE1-9990

Abstract

The study of pedestrian catchment areas for metro stations serves as the foundation for addressing issues such as-passenger flow forecasting, land use planning around stations, and transportation link facility planning. This study aims to investigate how various factors related to pedestrians, the environment, and the characteristics of metro stations affect the areas where pedestrians are attracted to. The goal is to gain insights into design strategies and policy interventions that can enhance the appeal of metro stations. The present study considers the metro stations in the Chengdu area as the primary research objects. A framework for examining the connection between the built environment and the pedestrian catchment area of a subway station through the use of a hybrid gradient decision tree approach has been used. The study examines the pedestrian catchment areas of these stations and confirms the presence of a nonlinear relationship between pedestrian catchment areas and variables at these stations. There exists a negative correlation, within specific thresholds, between the number of companies, bus stops, and road network density with the catchment area of passengers. Concurrently, there is a positive correlation between the distances to the city center and the catchment area. Furthermore, this framework, which accounts for spatial heterogeneity, showed significant goodness-of-fit and predictive capability, aspects that were overlooked in earlier research. As a result, these research findings can serve as a key foundation for advancing the theoretical framework and statistical proof to facilitate land planning and development near metro stations, predicting passenger flow, and designing essential connecting amenities in the vicinity of such facilities.

Published

2024

11. Analysis of risk factors for multi-drug resistant bacterial infections and prevention and control based on logistic regression analysis

Author

Guo Changcheng, Jia Liping, Li Yan, Chen Xiuqin, and Yang Kun

Subjects

logistic regression, multilayer neural network, convolutional network model, multi-drug resistant bacteria, preventive control, 68t27, Mathematics, QA1-939

Abstract

Logistic regression and neural networks have developed rapidly in recent years, and the poor diet of people in modern society has led to the emergence of various diseases in which drug-resistant bacterial infections occur during treatment, so this paper proposes logistic regression to analyze risk factors and preventive control of multi-drug-resistant bacterial infections. A logistic regression model was established to determine the magnitude of the effect of each factor on the dependent variable based on the standardized values, and the prevalence was recoded in the prediction stage, with the screened indicators serving as factors and covariates. The number of neurons in the input and output layers is determined, and the weights are continuously adjusted in iterations to calculate the average error rate between the actual number of morbidities and the predicted values. The gradient explosion and dispersion problems of in-depth analysis are solved by selecting the maximum probability for classification. The error values were calculated by using the cost function, adjusting the model parameters, comparing the errors between predicted and observed values, and updating the weights with the hidden layer error values, thus improving the accuracy of the model for analyzing risk factors of multi-drug resistant bacterial infections and preventing and controlling the deterioration of the disease. The analysis of the results showed that the logistic regression analysis method, using the area of the ROC curve as a discriminant, yielded an AUC of 0.831 in this study, which combined with the neural network model to predict multi-drug resistant bacteria infections with a higher accuracy of 85.6%, identify the potential risk of multi-drug resistant bacteria occurrence, and prevent the aggravation of the infection.

Published

2024

12. Research on the intelligent management system of the trackless rubber-tyred vehicles in the coal mine

Author

YANG Kun

Subjects

mine auxiliary transportation, trackless rubber-tyred vehicle, vehicle management, uwb, intelligent navigation, traffic light control, anti-collision early warning, Mining engineering. Metallurgy, TN1-997

Abstract

In the coal mine, underground working places are scattered, transportation routes are complex, and there are many bends and intersections in the roadway. Based on the above characteristics and the needs of intelligent construction of coal mines, the intelligent management system of trackless rubber-tyred vehicles in coal mines is studied from the aspects of demand analysis, system architecture and key technologies. Through demand analysis, it is concluded that the intelligent management system of mine trackless rubber-tyred vehicles should have the functions of precise positioning of mine vehicles, real-time collection of mine vehicle working conditions information, mine vehicle mobile communication, mine vehicle intelligent navigation, real-time monitoring and control of mine vehicle status and mine vehicle anti-collision warning. The key technologies of the system are introduced in detail. The application of UWB positioning technology in mine trackless rubber-tyred vehicle positioning is analyzed. It is suggested that the mobile communication technology of mine vehicles should adopt WiFi and 4G/5G technology. The characteristics of common path-planning technology are discussed. It is concluded that the mine trackless rubber-tyred vehicle navigation technology should adopt the path planning algorithm based on graph search with high maturity. The mine trackless rubber-tyred vehicle navigation and track playback technology should be combined with GIS technology. The traffic light control technology of mine vehicles is studied. The intersection model and single-vehicle passing lane model are proposed. The vehicle anti-collision warning technology is studied. According to the position of pedestrians and vehicles and the relative direction and distance between them and the UWB base station, the anti-collision early warning principle under the two modes of the same base station and the cross-base station is analyzed. The experimental results show that the mine vehicle communication based on UWB, mine vehicle path planning and vehicle track playback based on A* algorithm, traffic light control, anti-collision early warning and other functions can meet the application requirements.

Published

2023

13. Mine infrared image enhancement algorithm based on dual domain and ILoG-CLAHE

Author

FAN Weiqiang, LI Xiaoyu, WENG Zhi, LIU Bin, and YANG Kun

Subjects

mine infrared image, dual domain decomposition, noise suppression, edge sharpening, brightness adjustment, reconstructed image, Mining engineering. Metallurgy, TN1-997

Abstract

The complex working environment of mine leads to the degradation of the infrared image. The existing infrared image enhancement algorithm is easy to lose the scene details or causes the target edge blur while improving the signal-to-noise ratio and contrast. In order to solve the above problems, a mine infrared image enhancement algorithm based on dual domain decomposition coupling improved Gaussian Laplacian (ILoG) factor and contrast limited adaptive histogram equalization (CLAHE) (ILoG-CLAHE) is proposed. Firstly, the dual domain decomposition model is used to decompose the mine infrared image into a detailed sub-images containing high-frequency information and a basic sub-images containing low-frequency information. Secondly, the CLAHE algorithm is used to improve the brightness, contrast and definition of the basic sub-images to highlight the general features of the monitoring scene. The constructed ILoG operator is used to suppress noise and sharpen edges of detail sub-images and eliminate gradient inversion. Thirdly, the reconstructed image with improved image quality is obtained through the basic sub-image and detail sub-image after reconstruction processing. Finally, a Gamma correction function of gray level redistribution is designed to adjust the brightness of the reconstructed image. The mine infrared-enhanced image is obtained. The performance of the algorithm is analyzed by subjective vision and objective indicators. The results show that the overall visual effect and objective index of the mine infrared image enhanced by the mine infrared image enhancement algorithm based on dual domain and ILoG-CLAHE have been greatly improved. The comprehensive enhancement performance and robustness are better. Compared with the original mine infrared image and the six comparison algorithms, the comprehensive evaluation index values of this algorithm are increased by 0.28, 0.11, 0.23, 0.38, 0.57, 0.04, and 0.10 respectively. The six algorithms include CLAHE algorithm, bilateral filtering(BF) decomposition and CLAHE enhancement of basic sub-images (BF-CLAHE) algorithm, BF decomposition and Gamma transform (BF-Gamma) algorithm, guided filtering and Gamma transform (GF-Gamma) algorithm, adaptive histogram equalization(AHE) coupled Laplacian transform (AHE-LP) algorithm, and un-sharp mask(UM) based layer fusion (LF-UM) algorithm. The brightness, clarity and contrast of images are greatly improved, and noise suppression and edge sharpening are realized. It shows that the algorithm is suitable for the enhancement of infrared images in the complex working environment of mine.

Published

2023

14. The Security of Database Network Model Based on Fractional Differential Equations

Author

Sun Jianzhao, Yang Kun, and Alshalabi Riyad

Subjects

fractional differential equation, database, network model, fully homomorphic encryption, 34a08, Mathematics, QA1-939

Abstract

This paper discusses a class of inhomogeneous fractional differential equations with boundary conditions. At the same time, we apply it to the database network encryption model. In this paper, the fractional differential equation algorithm segments the big data in the cloud environment, and the homomorphic algorithm is used for encryption. We encrypt the algorithms and store them in the database, respectively. When the model is queried, the corresponding ciphertext data in the database can be matched according to the type of query statement. The experimental simulation realizes the information retrieval and statistics in the case of full ciphertext on the server-side.

Published

2023

15. Analysis on the Effects of Process Parameters of HEDP Anodic Oxidation on the Surface of 7075 Aluminum Alloy

Author

YANG Kun, SUN Xiaolan, HAN Dongning, ZHAO Dong, LUO Jian

Subjects

hedp, aluminum alloy, anodic oxidation, orthogonal test, blocking layer, process parameter optimization, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology

Abstract

The anodic oxidation treatment on aluminum alloy using HEDP (hydroxyethylidene diphosphonic acid) as the electrolyte additive could significantly improve the corrosion resistance of the parts and be helpful for their use in marine conditions. The optimum process parameters of HEDP anodic oxidation were determined by orthogonal test and single factor test: a HEDP concentration of 0.3 mol/L, a temperature of 20～30 ℃, a current density of 0.83 A/dm2, and an oxidation time of 60 min. Moreover, the influences of various process parameters on the film microstructure were analyzed. Based on the morphology of the anodic oxide coating prepared using the optimum process parameters, the thickness of blocking layer was obtained, which was further compared with the thickness of sulfuric acid anodic blocking layer.

Published

2022

16. Optimization Method of Separation Equipment Cleaning

Author

YANG Kun

Subjects

cascade, sediment, clean, optimization, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The separation equipment will continuously produce a small amount of solid sediment during operation, which needs to be cleaned regularly. At present, the conventional cleaning method is to use the section single-stage cleaning mode to connect multiple separation equipment in parallel. In view of the disadvantages of large amount of raw materials and total time, a cascade cleaning method is proposed in this paper, and the optimization comparison between single-stage cleaning and cascade cleaning is carried out through calculation. Taking the 10 stage cascade cleaning as an example, the optimization results show that compared with the conventional cleaning method, the use of raw material is saved by 75.9% and the cleaning time is saved by 89.3%. Therefore, the cascade mode cleaning can greatly reduce the use of raw materials and effectively shorten the total cleaning time, which is significantly better than the single-stage mode cleaning.

Published

2022

17. A study on collision warning of gas wells in coal-gas cross mining area

Author

Wang Wen, Yang Kun, He Yun, Wang Bin, Gao Fei, and Pan Yexin

Subjects

cross-mining, natural gas well, vibration wave, attenuation law, collision monitoring, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712, Mining engineering. Metallurgy, TN1-997

Abstract

Along with the gradual normalization of coordinated cross-mining of multiple mineral resources, the safety situation of natural gas wells has become increasingly serious. Taking coal-gas cross-mining in the Ordos Basin as the research object, this paper proposed an anti-collision early warning method based on vibration wave monitoring prevent the occurrence of collision accidents between roadheader and gas well. Through the steel pipe percussion vibration test and coal mine excavation vibration test, the attenuation law of vibration waves in the steel pipe and coal rock is studied, and the formula for calculating the distance from the roadheader to the natural gas well is deduced according to the vibration attenuation law. The results show that the attenuation coefficients of vibration waves in steel pipes and coal rocks are different, but the attenuation laws are basically the same, both conforming to the exponential attenuation law, with the vibration waves first decaying rapidly and then slowly. It provides a reference for the realization of surface monitoring of the distance from the roadheader to the natural gas well, preventing collision and predicting early warning.

Published

2022

18. Clinical analysis of peripheral blood NLR and NHR in carotid atherosclerosis in patients with end-stage renal disease

Author

YANG Kun, LI Qinyun, WANG Jingzhu, LIU Jiali, TANG Jincheng, and ZHANG Heping

Subjects

end-stage renal disease, neutrophil/lymphocyte ratio, neutrophil/high-density lipoprotein cholesterol ratio, carotid atherosclerosis, Medicine (General), R5-920

Abstract

Objective To investigate the clinical value of neutrophil/lymphocyte ratio (NLR) and neutrophil/high-density lipoprotein cholesterol ratio (NHR) for carotid atherosclerosis (CAS) in patients with end-stage renal disease (ESRD). Methods A total of 220 ESRD patients [glomerular filtration rate < 15 mL/(min·1.73 m2)] admitted in our department from January 2017 to January 2021 were recruited in this study. According to the results of neck color Doppler ultrasound, they were divided into CAS group (n=80) and non-CAS group (n=140). Their general data, results of blood routine test, biochemical indexes and hs-CRP level were collected, and then NLR, NHR, monocyte to high-density lipoprotein cholesterol ratio (MHR), and platelet to lymphocyte ratio (PLR) were calculated. Results The CAS group had significant older age, higher NLR, NHR, PLR and MHR, and lower hemoglobin, albumin and HDL levels when compared with the non-CAS group (P < 0.05). Multivariate logistic regression analysis showed that older age (OR=1.067, 95%CI: 1.035~1.099, P < 0.001), elevated NLR (OR=1.295, 95%CI: 1.066~1.574, P=0.009), and increased NHR (OR=2.143, 95%CI: 1.620~2.834, P < 0.001) were risk factors for CAS, and risen hemoglobin (OR=0.945, 95%CI: 0.923~0.967, P < 0.001) were protective factors for CAS in ESRD patients. ROC curve analysis indicated that NLR (AUC=0.759, 95%CI: 0.696~0.82, P < 0.000 1), NHR (AUC=0.755, 95%CI: 0.691~0.820, P < 0.000 1) and their combination (AUC=0.793, 95%CI: 0.733~0.853, P < 0.000 1) had certain predictive values for CAS in ESRD patients. Conclusion NLR and NHR, as inflammatory indexes, are independent risk factors for CAS in ESRD patients. Their combination might have better predictive value for CAS in these patients.

Published

2022

19. Massive data mining and analysis platform design for fully mechanized working face

Author

WANG Hongwei, YANG Kun, FU Xiang, LI Jin, and JIA Sifeng

Subjects

fully mechanized working face, massive data, data mining, data acquisition, data storage, data cleaning, data visualization, Mining engineering. Metallurgy, TN1-997

Abstract

The current real-time and integrity of massive data acquisition in fully mechanized working faces are poor. The abnormal data cleaning takes a long time. The data mining delays are large. This leads to low utilization rate of fully mechanized working data and incapability to assist management in issuing decision-making instructions in real-time. In order to solve the above problems, a massive data mining and analysis platform for fully mechanized working faces is designed. The platform consists of a data source layer, a data acquisition and storage layer, a data mining layer, and a front-end application layer. The data source layer is provided with raw data by various hardware devices on the working surface. The data acquisition and storage layer uses the OPC UA gateway to collect real-time monitoring information from underground sensors, and then stores the data in the InfluxDB storage engine through the MQTT protocol and RESTful interface. The data mining layer uses the Hive data engine and Yarn resource manager to filter out abnormal data caused by workplace interference during the data acquisition process. It solves the problem of local data acquisition order disorder caused by network latency. The Spark distributed mining engine is used to explore the potential value of massive working condition data in the working face device group, improving the running speed of the data mining model. The front-end application layer utilizes visual components to associate with the back-end database. It interacts with the back-end data in real-time through AJAX technology to achieve visual display of model mining results and various monitoring data. The test results show that the platform can fully ensure the real-time and integrity of data acquisition. The cleaning efficiency is 5 times better than a standalone MySQL query engine and the mining efficiency is 4 times better than a standalone Python mining engine.

Published

2023

20. Sulfosuccinimidyl oleate ameliorates the high-fat diet-induced obesity syndrome by reducing intestinal and hepatic absorption

Author

Qiming Ma, Li Wen, Yanxia Tian, Liqin Ma, Zhangsheng Wen, Yang Kun, Mengping Xu, and Xiaoping Liu

Subjects

intestine, obesity, lipid absorption, sulfosuccinimidyl oleate, high-fat diet, Therapeutics. Pharmacology, RM1-950

Abstract

Background: A high-fat Western diet is a risk factor for obesity and steatosis. Reducing intestinal absorption of a high-fat diet (HFD) is a feasible strategy to control obesity. Sulfosuccinimidyl oleate (SSO) inhibits intestinal fatty acid transport. Therefore, the aim of this study was to investigate the effects of SSO on HFD-induced glucose and lipid metabolism in mice and its possible underlying mechanisms.Methods: Male C57/BL were fed a HFD (60% calories) for 12 weeks and were administered an oral dose of SSO (50 mg/kg/day). The expression of lipid absorption genes (CD36, MTTP, and DGAT1) and the serum levels of triglycerides (TGs), total cholesterol (TC), and free fatty acids (FFAs) were detected. Lipid distribution in the liver was detected by oil red and hematoxylin and eosin staining. In addition, serum levels of inflammatory factors, alanine aminotransferase (ALT), and aspartate aminotransferase (AST) were measured to detect side effects.Results: SSO was effective in the treatment of obesity and metabolic syndrome induced by HFD in mice. It attenuated the assembly of intestinal epithelial chylomicrons by inhibiting intestinal epithelial transport and absorption of fatty acids, thereby reducing the gene expression levels of MTTP and DGAT1, resulting in decreased plasma TG and FFA levels. At the same time, it inhibited the transport of fatty acids in the liver and improved the steatosis induced by a HFD. The results of oil red staining showed that SSO treatment can reduce lipid accumulation in the liver by 70%, with no drug-induced liver injury detected on the basis of interleukin-6, C-reactive protein, ALT, and AST levels. In addition, SSO treatment significantly improved insulin resistance, decreased fasting blood glucose levels, and improved glucose tolerance in HFD-fed mice.Conclusion: SSO is effective in the treatment of obesity and metabolic syndrome induced by a HFD in mice. SSO reduces intestinal fatty acid absorption by reducing the inhibition of intestinal CD36 expression, followed by decreased TG and FFA levels, which attenuates HFD-induced fatty liver.

Published

2023

21. Multi-patch and Multi-scale Hierarchical Aggregation Network for Fast Nonhomogeneous ImageDehazing

Author

YANG Kun, ZHANG Juan, FANG Zhi-jun

Subjects

multi-patch, multi-scale, hierarchical fusion module, attention mechanism, dilated convolution, image dehazing, Computer software, QA76.75-76.765, Technology (General), T1-995

Abstract

Despite dehazing algorithms based on convolutional neural networks have made tremendous progress in synthetic uniform hazy datasets,they still perform poorly on real nonhomogeneous hazy images.In order to achieve fast and effective nonhomogeneous image dehazing,we propose a multi-patch and multi-scale hierarchical aggregation network (MPSHAN),which fuses multi-patch local information and multi-scale global information.Secondly,we propose a hierarchical fusion module (HFM),which not only decouples residual fusion to achieve richer non-linear feature expression,but also improves the feature fusion qua-lity at key locations through the channel attention mechanism.At the same time,dilated convolution is used on hierarchies to obtain multi-scale information,which enhances feature maps to optimize the fusion effect.In addition,in the loss function,we add frequency domain loss to restore better edge quality.The experimental results show that the proposed algorithm has good robustness on nonhomogeneous hazy images,and the average processing time of 1 200×1 600 high-resolution images is only 0.044 s.Compared with other dehazing algorithms,it achieves a better balance between image dehazing effect and running time.

Published

2021

22. Transformers as Game Players: Provable In-context Game-playing Capabilities of Pre-trained Models

Author

Shi, Chengshuai, Yang, Kun, Yang, Jing, and Shen, Cong

Subjects

Statistics - Machine Learning, Computer Science - Computer Science and Game Theory, Computer Science - Information Theory, Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

The in-context learning (ICL) capability of pre-trained models based on the transformer architecture has received growing interest in recent years. While theoretical understanding has been obtained for ICL in reinforcement learning (RL), the previous results are largely confined to the single-agent setting. This work proposes to further explore the in-context learning capabilities of pre-trained transformer models in competitive multi-agent games, i.e., in-context game-playing (ICGP). Focusing on the classical two-player zero-sum games, theoretical guarantees are provided to demonstrate that pre-trained transformers can provably learn to approximate Nash equilibrium in an in-context manner for both decentralized and centralized learning settings. As a key part of the proof, constructional results are established to demonstrate that the transformer architecture is sufficiently rich to realize celebrated multi-agent game-playing algorithms, in particular, decentralized V-learning and centralized VI-ULCB., Comment: Accepted to NeurIPS 2024

Published

2024

23. GAI-Enabled Explainable Personalized Federated Semi-Supervised Learning

Author

Peng, Yubo, Jiang, Feibo, Dong, Li, Wang, Kezhi, and Yang, Kun

Subjects

Computer Science - Machine Learning, Computer Science - Information Theory

Abstract

Federated learning (FL) is a commonly distributed algorithm for mobile users (MUs) training artificial intelligence (AI) models, however, several challenges arise when applying FL to real-world scenarios, such as label scarcity, non-IID data, and unexplainability. As a result, we propose an explainable personalized FL framework, called XPFL. First, we introduce a generative AI (GAI) assisted personalized federated semi-supervised learning, called GFed. Particularly, in local training, we utilize a GAI model to learn from large unlabeled data and apply knowledge distillation-based semi-supervised learning to train the local FL model using the knowledge acquired from the GAI model. In global aggregation, we obtain the new local FL model by fusing the local and global FL models in specific proportions, allowing each local model to incorporate knowledge from others while preserving its personalized characteristics. Second, we propose an explainable AI mechanism for FL, named XFed. Specifically, in local training, we apply a decision tree to match the input and output of the local FL model. In global aggregation, we utilize t-distributed stochastic neighbor embedding (t-SNE) to visualize the local models before and after aggregation. Finally, simulation results validate the effectiveness of the proposed XPFL framework.

Published

2024

24. Temporal-Assisted Dynamic Beampattern Optimization in Integrated Sensing and Communication Systems

Author

Zhou, Shengcai, Xiang, Luping, and Yang, Kun

Subjects

Computer Science - Computational Geometry

Abstract

In this paper, an integrated sensing and communication (ISAC) system is investigated. Initially, we introduce a design criterion wherein sensing data acquired from the preceding time slot is employed for instantaneous optimal beamforming in the succeeding time slot, aiming to enhance the communication rate. Subsequently, the development of optimal beamforming is addressed, and a high-caliber suboptimal resolution is derived utilizing successive convex approximation (SCA) techniques combined with the iterative rank minimization (IRM) methodology. Our evaluations, grounded on numerical analyses, reveal that the communication rate of the introduced beamforming strategy surpasses that of conventional omnidirectional sensing and pilot based approaches.

Published

2024

25. A Seesaw Model Attack Algorithm for Distributed Learning

Author

Yang, Kun, Luo, Tianyi, Dong, Yanjie, and Li, Aohan

Subjects

Computer Science - Distributed, Parallel, and Cluster Computing

Abstract

We investigate the Byzantine attack problem within the context of model training in distributed learning systems. While ensuring the convergence of current model training processes, common solvers (e.g. SGD, Adam, RMSProp, etc.) can be easily compromised by malicious nodes in these systems. Consequently, the training process may either converge slowly or even diverge. To develop effective secure distributed learning solvers, it is crucial to first examine attack methods to assess the robustness of these solvers. In this work, we contribute to the design of attack strategies by initially highlighting the limitations of finite-norm attacks. We then introduce the seesaw attack, which has been demonstrated to be more effective than the finite-norm attack. Through numerical experiments, we evaluate the efficacy of the seesaw attack across various gradient aggregation rules., Comment: Accepted for presentation at IEEE SmartIoT 2024

Published

2024

26. Personalized Federated Learning for Generative AI-Assisted Semantic Communications

Author

Peng, Yubo, Jiang, Feibo, Dong, Li, Wang, Kezhi, and Yang, Kun

Subjects

Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Information Theory

Abstract

Semantic Communication (SC) focuses on transmitting only the semantic information rather than the raw data. This approach offers an efficient solution to the issue of spectrum resource utilization caused by the various intelligent applications on Mobile Users (MUs). Generative Artificial Intelligence (GAI) models have recently exhibited remarkable content generation and signal processing capabilities, presenting new opportunities for enhancing SC. Therefore, we propose a GAI-assisted SC (GSC) model deployed between MUs and the Base Station (BS). Then, to train the GSC model using the local data of MUs while ensuring privacy and accommodating heterogeneous requirements of MUs, we introduce Personalized Semantic Federated Learning (PSFL). This approach incorporates a novel Personalized Local Distillation (PLD) and Adaptive Global Pruning (AGP). In PLD, each MU selects a personalized GSC model as a mentor tailored to its local resources and a unified Convolutional Neural Networks (CNN)-based SC (CSC) model as a student. This mentor model is then distilled into the student model for global aggregation. In AGP, we perform network pruning on the aggregated global model according to real-time communication environments, reducing communication energy. Finally, numerical results demonstrate the feasibility and efficiency of the proposed PSFL scheme.

Published

2024

27. Precise Interception Flight Targets by Image-based Visual Servoing of Multicopter

Author

Yan, Hailong, Yang, Kun, Cheng, Yixiao, Wang, Zihao, and Li, Dawei

Subjects

Computer Science - Robotics

Abstract

Interception of low-altitude intruding targets with low-cost drones equipped strapdown camera presents a competitive option. However, the malicious maneuvers by the non-cooperative target and the coupling of the camera make the task challenging. To solve this problem, an Image-Based Visual Servoing (IBVS) control algorithm based on proportional navigation guidance with field-of-view holding capability is designed. The proposed controller reduces the miss distance while improving the stability of the visual servo system during interception. Software-in-the-loop (SITL) simulation experiments show a 72.8% reduction in the circular error probability (CEP) compared to the most recent study. This improvement enhances interception accuracy from the decimeter to the centimeter level. Real-world experiments further validate the effectiveness of the proposed algorithm., Comment: 9 pages, 15 figures, In the process of being submitted to the Journal of IEEE Transactions on Industrial Electronics

Published

2024

28. Electric Space-time Translation and Floquet-Bloch Wavefunction

Author

Ke, Chenhang, Yang, Kun, and Wu, Congjun

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

As for the study of Landau level wavefunctions for the quantum Hall effect, the magnetic Bloch wavefunctions based on the magnetic translation symmetry have been extensively investigated in the past few decades. In this article, the electric Floquet-Bloch wavefunctions based on the electric translation symmetry are studied as well as the momentum-frequency Brillouin zone, which is applied to the problem of one dimensional tight-binding model under an external electric field. The spectrum of electric Floquet-Bloch states can be generated by the projective representation of electric translation group, and the topological properties of these states are investigated., Comment: 5 pages, 2 figures

Published

2024

29. SemAI: Semantic Artificial Intelligence-enhanced DNA storage for Internet-of-Things

Author

Wu, Wenfeng, Xiang, Luping, Liu, Qiang, and Yang, Kun

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

In the wake of the swift evolution of technologies such as the Internet of Things (IoT), the global data landscape undergoes an exponential surge, propelling DNA storage into the spotlight as a prospective medium for contemporary cloud storage applications. This paper introduces a Semantic Artificial Intelligence-enhanced DNA storage (SemAI-DNA) paradigm, distinguishing itself from prevalent deep learning-based methodologies through two key modifications: 1) embedding a semantic extraction module at the encoding terminus, facilitating the meticulous encoding and storage of nuanced semantic information; 2) conceiving a forethoughtful multi-reads filtering model at the decoding terminus, leveraging the inherent multi-copy propensity of DNA molecules to bolster system fault tolerance, coupled with a strategically optimized decoder's architectural framework. Numerical results demonstrate the SemAI-DNA's efficacy, attaining 2.61 dB Peak Signal-to-Noise Ratio (PSNR) gain and 0.13 improvement in Structural Similarity Index (SSIM) over conventional deep learning-based approaches.

Published

2024

30. Frequency Diverse RIS (FD-RIS) Enhanced Wireless Communications via Joint Distance-Angle Beamforming

Author

Xiao, Han, Hu, Xiaoyan, Wang, Wenjie, Wong, Kai-Kit, and Yang, Kun

Subjects

Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing

Abstract

The conventional reconfigurable intelligent surface (RIS) assisted far-field communication systems can only implement angle beamforming, which actually limits the capability for reconfiguring the wireless propagation environment. To overcome this limitation, this paper proposes a newly designed frequency diverse RIS (FD-RIS), which can achieve joint distance-angle beamforming with the assistance of the time modulation technology. The signal processing model for FD-RIS-aided wireless communications is first derived. Then, an optimization problem aimed at maximizing the achievable rate is formulated where the frequency-time modulations are jointly optimized to achieve distance-angle beamforming. Furthermore, a novel iterative algorithm based on the cross-entropy optimization (CEO) framework is proposed to effectively handle the non-convex optimization problem. The numerical results validate that the proposed FD-RIS assisted communication scheme can achieve a notable performance improvement compared with the baseline scheme utilizing traditional RIS. In addition, the effectiveness of the proposed CEO algorithm is further verified by comparing with the benchmark using the genetic algorithm (GA).

Published

2024

31. Optimizing Placement and Power Allocation in Reconfigurable Intelligent Sensing Surfaces for Enhanced Sensing and Communication Performance

Author

Luo, Cheng, Hu, Jie, Xiang, Luping, Yang, Kun, and Lei, Bo

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

In this letter, we investigate the design of multiple reconfigurable intelligent sensing surfaces (RISSs) that enhance both communication and sensing tasks. An RISS incorporates additional active elements tailored to improve sensing accuracy. Our initial task involves optimizing placement of RISSs to mitigate signal interference. Subsequently, we establish power allocation schemes for sensing and communication within the system. Our final consideration involves examining how sensing results can be utilized to enhance communication, alongside an evaluation of communication performance under the impact of sensing inaccuracies. Numerical results reveal that the sensing task reaches its optimal performance with a finite number of RISSs, while the communication task exhibits enhanced performance with an increasing number of RISSs. Additionally, we identify an optimal communication spot under user movement.

Published

2024

32. Exciton crystal melting and destruction by disorder in bilayer quantum hall system with total filling factor one

Author

Hu, Zhengfei and Yang, Kun

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Bilayer quantum hall system with total filling factor 1 was studied in the regime of heavy layer imbalance in a recent transport experiment (Ref. 1), with intriguing new findings. We demonstrate in this paper that 1) the exciton Wigner crystal in this regime can melt into a superfluid phase, giving rise to re-entrant superfluid behavior; 2) in the presence of disorder, electron and hole Wigner crystals in the two layers go through a locking/decoupling transition as layer separation increases, resulting in a sudden change in the counter flow conductance. Comparison will be made with the findings of Ref. 1., Comment: 12 pages, 3 figures

Published

2024

33. Exploring Hannan Limitation for 3D Antenna Array

Author

Ji, Ran, Huang, Chongwen, Chen, Xiaoming, Sha, Wei E. I., Zhang, Zhaoyang, Yang, Jun, Yang, Kun, Yuen, Chau, and Debbah, Mérouane

Subjects

Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing

Abstract

Hannan Limitation successfully links the directivity characteristics of 2D arrays with the aperture gain limit, providing the radiation efficiency upper limit for large 2D planar antenna arrays. This demonstrates the inevitable radiation efficiency degradation caused by mutual coupling effects between array elements. However, this limitation is derived based on the assumption of infinitely large 2D arrays, which means that it is not an accurate law for small-size arrays. In this paper, we extend this theory and propose an estimation formula for the radiation efficiency upper limit of finite-sized 2D arrays. Furthermore, we analyze a 3D array structure consisting of two parallel 2D arrays. Specifically, we provide evaluation formulas for the mutual coupling strengths for both infinite and finite size arrays and derive the fundamental efficiency limit of 3D arrays. Moreover, based on the established gain limit of antenna arrays with fixed aperture sizes, we derive the achievable gain limit of finite size 3D arrays. Besides the performance analyses, we also investigate the spatial radiation characteristics of the considered 3D array structure, offering a feasible region for 2D phase settings under a given energy attenuation threshold. Through simulations, we demonstrate the effectiveness of our proposed theories and gain advantages of 3D arrays for better spatial coverage under various scenarios., Comment: 13 pages, 16 figures

Published

2024

34. Optimization and identification technology of hyperspectral spectral features of insulator pollution levels

Author

SHEN Long, QIAN Guochao, PENG Zhaoyu, LI Qianhui, YANG Kun, and MA Yutang

Subjects

hyperspectral technology, insulator pollution level, wavelet packet energy spectrum, background segmentation, support vector machine (svm), principal component analysis (pca), Applications of electric power, TK4001-4102

Abstract

To solve the problem of traditional pollution detection methods on the prevention and control of pollution flashover of transmission line insulators,the non-contact and high-resolution hyperspectral technology is used to study the on-line pollution detection technology. At the same time,an insulator pollution level identification technology based on wavelet packet energy spectrum feature optimization is proposed to effectively extract the spectral features reflecting the pollution degree and weaken the influence of redundancy and interference information. Firstly,the spectral images of insulator samples with different pollution levels are segmented to extract the spectral mean curve of pixels in uniform pollution area. Secondly,the difference of light intensity uniformity and environmental noise of different images are preprocessed,and the differentiability among different pollution levels is improved by logarithmic transformation. Thirdly,the feature extraction of wavelet packet energy spectrum is performed on the preprocessed spectral lines. Finally,a pollution level recognition model based on the proposed features and support vector machines (SVM) is established. The experimental results show that the SVM pollution level recognition model based on wavelet energy spectrum features achieves 99.8%,and it has higher recognition accuracy than full band data or principal component analysis (PCA) feature data does.

Published

2022

35. Congenital Cutis Laxa: A Case Report and Literature Review

Author

Yang Kun, Shi Mengdong, Fu Cong, and Huo Ran

Subjects

Congenital Cutis Laxa, plastic surgery, recurrence, systematic treatment, sequential treatment, Surgery, RD1-811

Abstract

Cutis Laxa is a rare connective tissue disease featuring inelastic and saggy skin. It is thought that plastic surgery might be the most effective treatment, while the previous pieces of literature on the surgical treatment for Cutis Laxa complained of the recurrence. We report a patient of Congenital Cutis Laxa who has received systematic and sequential treatment based on plastic surgery. The patient is content with the effect of treatment, and there are no signs of recurrence after 5 months. By referring to relevant pieces of literature, we evaluate the clinical manifestations and diagnosis of the disease. A multi-step, systematic, and sequential treatment is recommended for the treatment of Congenital Cutis Laxa.

Published

2022

36. Information Scrambling at Quantum Hall Interfaces and Their Analog to Black Hole Event Horizon

Author

Ma, Ken K. W. and Yang, Kun

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, General Relativity and Quantum Cosmology

Abstract

The black hole information paradox has been hotly debated for the last few decades without a full resolution. This makes it desirable to find analogues of this paradox in simple and experimentally accessible systems, whose resolutions may shed light on this longstanding and fundamental problem. Here, we review and resolve the apparent "information paradox" in two different interfaces separating Abelian and non-Abelian quantum Hall states. In both cases, the information carried by the pseudospin degree of freedom of the Abelian anyons get scrambled when they cross the interface and enter the non-Abelian quantum Hall liquid. Nevertheless, it is found that the scrambling mechanism depends on the nature of the interface. The corresponding analogues of different concepts in black hole physics such as event horizon, black hole interior, Hawking radiation, and Page curve will also be discussed., Comment: 44 pages, 5 figures. An invited book chapter for "The Black Hole Information Paradox", to be published by Springer Singapore in 2025. arXiv admin note: substantial text overlap with arXiv:2209.11119, arXiv:2106.11306

Published

2024

37. Explain EEG-based End-to-end Deep Learning Models in the Frequency Domain

Author

Wang, Hanqi, Yang, Kun, Zhang, Jingyu, Chen, Tao, and Song, Liang

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

The recent rise of EEG-based end-to-end deep learning models presents a significant challenge in elucidating how these models process raw EEG signals and generate predictions in the frequency domain. This challenge limits the transparency and credibility of EEG-based end-to-end models, hindering their application in security-sensitive areas. To address this issue, we propose a mask perturbation method to explain the behavior of end-to-end models in the frequency domain. Considering the characteristics of EEG data, we introduce a target alignment loss to mitigate the out-of-distribution problem associated with perturbation operations. Additionally, we develop a perturbation generator to define perturbation generation in the frequency domain. Our explanation method is validated through experiments on multiple representative end-to-end deep learning models in the EEG decoding field, using an established EEG benchmark dataset. The results demonstrate the effectiveness and superiority of our method, and highlight its potential to advance research in EEG-based end-to-end models.

Published

2024

38. Towards Context-Aware Emotion Recognition Debiasing from a Causal Demystification Perspective via De-confounded Training

Author

Yang, Dingkang, Yang, Kun, Kuang, Haopeng, Chen, Zhaoyu, Wang, Yuzheng, and Zhang, Lihua

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Understanding emotions from diverse contexts has received widespread attention in computer vision communities. The core philosophy of Context-Aware Emotion Recognition (CAER) is to provide valuable semantic cues for recognizing the emotions of target persons by leveraging rich contextual information. Current approaches invariably focus on designing sophisticated structures to extract perceptually critical representations from contexts. Nevertheless, a long-neglected dilemma is that a severe context bias in existing datasets results in an unbalanced distribution of emotional states among different contexts, causing biased visual representation learning. From a causal demystification perspective, the harmful bias is identified as a confounder that misleads existing models to learn spurious correlations based on likelihood estimation, limiting the models' performance. To address the issue, we embrace causal inference to disentangle the models from the impact of such bias, and formulate the causalities among variables in the CAER task via a customized causal graph. Subsequently, we present a Contextual Causal Intervention Module (CCIM) to de-confound the confounder, which is built upon backdoor adjustment theory to facilitate seeking approximate causal effects during model training. As a plug-and-play component, CCIM can easily integrate with existing approaches and bring significant improvements. Systematic experiments on three datasets demonstrate the effectiveness of our CCIM., Comment: TPAMI 2024

Published

2024

39. Asynchronous Multimodal Video Sequence Fusion via Learning Modality-Exclusive and -Agnostic Representations

Author

Yang, Dingkang, Li, Mingcheng, Qu, Linhao, Yang, Kun, Zhai, Peng, Wang, Song, and Zhang, Lihua

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Understanding human intentions (e.g., emotions) from videos has received considerable attention recently. Video streams generally constitute a blend of temporal data stemming from distinct modalities, including natural language, facial expressions, and auditory clues. Despite the impressive advancements of previous works via attention-based paradigms, the inherent temporal asynchrony and modality heterogeneity challenges remain in multimodal sequence fusion, causing adverse performance bottlenecks. To tackle these issues, we propose a Multimodal fusion approach for learning modality-Exclusive and modality-Agnostic representations (MEA) to refine multimodal features and leverage the complementarity across distinct modalities. On the one hand, MEA introduces a predictive self-attention module to capture reliable context dynamics within modalities and reinforce unique features over the modality-exclusive spaces. On the other hand, a hierarchical cross-modal attention module is designed to explore valuable element correlations among modalities over the modality-agnostic space. Meanwhile, a double-discriminator strategy is presented to ensure the production of distinct representations in an adversarial manner. Eventually, we propose a decoupled graph fusion mechanism to enhance knowledge exchange across heterogeneous modalities and learn robust multimodal representations for downstream tasks. Numerous experiments are implemented on three multimodal datasets with asynchronous sequences. Systematic analyses show the necessity of our approach., Comment: Accepted by TCSVT 2024

Published

2024

40. Timely Requesting for Time-Critical Content Users in Decentralized F-RANs

Author

Chen, Xingran, Li, Kai, and Yang, Kun

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

With the rising demand for high-rate and timely communications, fog radio access networks (F-RANs) offer a promising solution. This work investigates age of information (AoI) performance in F-RANs, consisting of multiple content users (CUs), enhanced remote radio heads (eRRHs), and content providers (CPs). Time-critical CUs need rapid content updates from CPs but cannot communicate directly with them; instead, eRRHs act as intermediaries. CUs decide whether to request content from a CP and which eRRH to send the request to, while eRRHs decide whether to command CPs to update content or use cached content. We study two general classes of policies: (i) oblivious policies, where decision-making is independent of historical information, and (ii) non-oblivious policies, where decisions are influenced by historical information. First, we obtain closed-form expressions for the average AoI of eRRHs under both policy types. Due to the complexity of calculating closed-form expressions for CUs, we then derive general upper bounds for their average AoI. Next, we identify optimal policies for both types. Under both optimal policies, each CU requests content from each CP at an equal rate, consolidating all requests to a single eRRH when demand is low or resources are limited, and distributing requests evenly among eRRHs when demand is high and resources are ample. eRRHs command content from each CP at an equal rate under an optimal oblivious policy, while prioritize the CP with the highest age under an optimal non-oblivious policy. Our numerical results validate these theoretical findings.

Published

2024

41. End-to-End Design of Polar Coded Integrated Data and Energy Networking

Author

Hu, Jie, Cui, Jingwen, Xiang, Luping, and Yang, Kun

Subjects

Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing

Abstract

In order to transmit data and transfer energy to the low-power Internet of Things (IoT) devices, integrated data and energy networking (IDEN) system may be harnessed. In this context, we propose a bitwise end-to-end design for polar coded IDEN systems, where the conventional encoding/decoding, modulation/demodulation, and energy harvesting (EH) modules are replaced by the neural networks (NNs). In this way, the entire system can be treated as an AutoEncoder (AE) and trained in an end-to-end manner. Hence achieving global optimization. Additionally, we improve the common NN-based belief propagation (BP) decoder by adding an extra hypernetwork, which generates the corresponding NN weights for the main network under different number of iterations, thus the adaptability of the receiver architecture can be further enhanced. Our numerical results demonstrate that our BP-based end-to-end design is superior to conventional BP-based counterparts in terms of both the BER and power transfer, but it is inferior to the successive cancellation list (SCL)-based conventional IDEN system, which may be due to the inherent performance gap between the BP and SCL decoders.

Published

2024

42. Automatic detection and segmentation of adenomatous colorectal polyps during colonoscopy using Mask R-CNN

Author

Meng Jie, Xue Linyan, Chang Ying, Zhang Jianguang, Chang Shilong, Liu Kun, Liu Shuang, Wang Bangmao, and Yang Kun

Subjects

crc, adenomatous polyps, cad, cnn, colonoscopy, Biology (General), QH301-705.5

Abstract

Colorectal cancer (CRC) is one of the main alimentary tract system malignancies affecting people worldwide. Adenomatous polyps are precursors of CRC, and therefore, preventing the development of these lesions may also prevent subsequent malignancy. However, the adenoma detection rate (ADR), a measure of the ability of a colonoscopist to identify and remove precancerous colorectal polyps, varies significantly among endoscopists. Here, we attempt to use a convolutional neural network (CNN) to generate a unique computer-aided diagnosis (CAD) system by exploring in detail the multiple-scale performance of deep neural networks. We applied this system to 3,375 hand-labeled images from the screening colonoscopies of 1,197 patients; of whom, 3,045 were assigned to the training dataset and 330 to the testing dataset. The images were diagnosed simply as either an adenomatous or non-adenomatous polyp. When applied to the testing dataset, our CNN-CAD system achieved a mean average precision of 89.5%. We conclude that the proposed framework could increase the ADR and decrease the incidence of interval CRCs, although further validation through large multicenter trials is required.

Published

2020

43. Expression of substance P and neurokinin-1 receptor in nasopharyngeal carcinoma and their clinical significance

Author

ZHANG Yu, YANG Yucheng, YANG Kun, FENG Dandan, and HUANG Jiangju

Subjects

nasopharyngeal carcinoma, substance p, neurokinin-1 receptor, Medicine (General), R5-920

Abstract

Objective To investigate the expression of substance P (SP) and its receptor, neurokinin-1 receptor (NK-1R), in nasopharyngeal carcinoma (NPC) tissues and their correlation with the clinicopathological parameters of the patients. Methods Real-time fluorescence quantitative PCR (RT-qPCR) and Western blotting were used to detect the expression of SP and NK-1R mRNAs in the specimen of tumor tissues of NPC patients and normal tissues from patients with deviated nasal septum, and their protein expression and distribution in the tissues were observed using immunohistochemistry. Chi-square test was used to analyze the correlation of the expression of SP and NK-1R with the clinicopathological characteristics of the patients. CCK8 and Transwell assays were used to evaluate the effects of SP on the proliferation and invasion of HNE1 cells. Results The mRNA levels of SP and NK-1R were significantly increased in NPC tissues (7.96±1.75 and 7.12±1.54, respectively) as compared with the normal tissues (1.05±0.34, 1.04±0.2; P < 0.01); the protein expression of SP and NK-1R were also significantly upregulated in the NPC tissues (1.18±0.27 and 0.81±0.17, respectively) in comparison with the normal tissues (0.56±0.06, 0.48±0.05; P < 0.01). The positive expression rate of SP and NK-1R in the NPC tissues was 64% and 68%, respectively, significantly higher than the rates in normal tissues (11% and 22%, respectively; P < 0.01). The positive expression rates of SP and NK-1R were significantly higher in stage Ⅲ and stage Ⅳ NPC cases than in stage Ⅰ-Ⅱ cases (P < 0.05). Exogenous SP significantly enhanced the proliferation (P < 0.05) and invasion (P < 0.01) of HNE1 cells in vitro. Conclusion SP and NK-1R are over-expressed in NPC tissues, and their expression levels are correlated with the TNM stages of NPC, suggesting their value as potential new targets for diagnosis and treatment of NPC.

Published

2020

44. Aero-engine Gas Path Analysis Method during Transient Process

Author

YANG Kun, ZHANG Xin, TU Qiuye, CHEN Feiyang, and ZHENG Kang

Subjects

aero-engine, transient process, maneuvering characteristics degradation, sequential operating points, underdetermined gas path analysis with considerable deviations, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

At present, most of the research on aero-engine gas path analysis is based on the steady-state process of the engine, but the steady-state data is usually difficult to obtain, and some fault features can only be displayed in the transient working state, so the transition state data which is relatively easy to obtain can be used to evaluate the health state of the engine more comprehensively. In the case of a small number of gas path sensors, a large number of health parameters are analyzed by using the sequential operating points method, which can increase the available information and reduce the systematic error of parameter estimation introduced by the average effect of the multiple working points method. An indirect recursive Newton Raphson method is proposed to enhance the non-dominated sorting differential evolution algorithm to solve the problem of computational convergence in the estimation of large deviation performance degradation health parameters of engines. The results show that this method can effectively and accurately estimate a large number of health parameters in a large deviation range by using engine transition state data under the condition of limited number of gas path sensors.

Published

2020

45. Research on the implementation path of event carbon neutrality

Author

Hou Peng, Wang Qiang, Wang Jie, Yang Kun, Du Xiyue, and Huang Siyu

Subjects

Environmental sciences, GE1-350

Abstract

This essay explores the concept of activity-based carbon neutrality as a critical component in achieving carbon emission reduction targets. With the Chinese government’s commitment to carbon sequestration by 2030 and carbon neutrality by 2060. activity-based carbon neutrality has gamed prominence as a hot topic in environmental discussions. The essay emphasizes the significance of activity-based carbon neutrality in promoting public awareness and participation in carbon reduction efforts. It highlights the existing research gap in this field and stresses the need for exploring methodologies to achieve activity-based carbon neutrality. The essay outlines the accounting standards for activity-based carbon neutrality, focusing on large-scale events and offering practical examples of carbon emission reduction measures during the preparation, execution, and conclusion phases of activities. Additionally, it introduces carbon offsetting methods such as carbon quotas and carbon credits. The article also presents a specific case study of the “Six-Five Environment Day National Event” held in Liaoning Province, which successfully achieved carbon neutrality through various initiatives. Overall, the essay encourages further investigation into activity-based carbon neutrality to enhance overall carbon reduction efforts.

Published

2023

46. Study on Laminar Combustion Characteristics of Ammonia/ Hydrogen Premixed Based on Chemical Reaction Kinetics

Author

Nie Tao, Zhang Ping, Yang Kun, Zhou Lei, Zheng Xiangquan, and Luo Li

Subjects

Environmental sciences, GE1-350

Abstract

The combustion characteristics of ammonia/hydrogen premixed laminar flow and the effect of hydrogen on the combustion performance of ammonia fuel were studied. First, the corresponding model of ammonia/ hydrogen premixed laminar combustion is established by using GRI3.0 mechanism, Konnov mechanism, Mei mechanism, Okafor mechanism, and Otomo mechanism respectively. Second, the simulation results are compared with the experimental results. It is found that the Mei mechanism and Okafor mechanism are more suitable for ammonia/ hydrogen premixed laminar combustion. On this basis, the effects of equivalent ratio, hydrogen ratio, and initial temperature on laminar flame velocity, maximum combustion temperature, and NO mole fraction were studied. The results show that the laminar flame velocity, the maximum combustion temperature, and the mole fraction of NO first increase and then decrease with the increase of the equivalent ratio, and the laminar flame velocity reaches the maximum when the equivalent ratio is 1.1. At the same time, with the increase of hydrogen ratio and initial temperature, the maximum combustion temperature increases first and then decreases. The mole fraction of NO increased with the increase of hydrogen ratio and initial temperature. The results show that mixing hydrogen in ammonia can improve the combustion characteristics of ammonia.

Published

2023

47. Experimental study on solidification/stabilization of heavy metal lead and chromium sludge solidified by cement-based materials

Author

Zheng Chao, Xiong Kangwei, Yang Kun, and Feng Deluan

Subjects

heavy metal, normal portland cement, magnesium phosphate cement, solidification/stabilization, leaching toxicity, Engineering (General). Civil engineering (General), TA1-2040

Abstract

To explore the strength change law and solidification mechanism of cement solidified heavy metal lead and chromium contaminated soil, ordinary Portland cement (OPC) and magnesium phosphate cement (MPC) were used for solidification/stabilization treatment. Through the unconfined compressive strength (UCS) test, scanning electron microscopy (SEM) and the leaching toxicity test, the microscopic characteristics of the cement type, the cement content, the ion type, the ion concentration, and the age and their influence law on the strength characteristics of heavy metal contaminated soil were obtained. The UCS test shows that the compressive strength increases with the cement content and age. When OPC and MPC were used to solidify lead and chromium heavy metal contaminated soil, the compressive strength of OPC was greater than that of MPC, and when the curing age was 28 days, 20% of OPC and MPC satisfied the landfill requirements. The leaching toxicity test showed that after the solidification/stabilization of heavy metal lead and chromium contaminated soil by OPC and MPC, the leaching content of lead ions in the leaching solution conforms to the national limit. For chromium contaminated soil, the concentration was less than or equal to 5000mg/kg, which conform to the limit standard. When the concentration was 10000mg/kg, the content exceeded the limit. Therefore, heavy metal lead contaminated soil is more easily stabilized than chromium contaminated soil. Microscopic tests show that OPC solidified heavy metal contaminated soil is solidified/stabilized by heavy metal ions through hydration products, namely, ettringite and amorphous cementing materials. MPC is obtained by the hydration reaction of magnesium oxide and ammonium dihydrogen phosphate to form struvite, and heavy metal ions are encapsulated in the lattice to achieve solidification/stabilization.

Published

2023

48. Effect of dam removal of small hydropower station on migration and distribution of biogenic elements: Progress and prospects

Author

Li Cai, Guan Linjie, Yang Kun, Zhang Li, and Fan Qingsong

Subjects

biogenic elements, organic detritus, distribution and morphology, diversion-type small hydropower station, dam removal, Environmental sciences, GE1-350

Abstract

The small hydropower stations have reached a new balance after years of operation. The ecological balance of the river would been broken by the dam removal and the reservoir area above the dam would disappear. Consequently, a series of changes occurred in water depth, velocity of flow, the concentration of organic and inorganic nutrients, distribution and form of organic matter, aquatic organism, etc. It is unclear what would happen for the hydrodynamic conditions, sediment characteristics and aquatic organism community structure of the reservoir area and the lower reaches after the dam removal. Therefore, it is urgent to study the impact of dam removal on the transportation and redistribution of organic debris and the potential ecological effects with benthos as indicators in the river where the small hydropower station is located.

Published

2023

49. On the Ideological Quality Requirements of Higher Vocational College Students in the New Era from the Perspective of Overall National Overall Security

Author

Tian Pei-pei, Zhong Juan, Liu Hui, Li Hai-yan, Wang Xiu-pan, and Yang Kun

Subjects

Social Sciences

Abstract

In the new era of China’s development for higher vocational college students have new quality development requirements, especially in terms of ideological quality, college students in the new era are required to have patriotic feelings and practical action, correct overall view of world development, and conscious view of global ecological environment protection. At a higher vocational college in Anhui province for two months investigation and study of the topic, through the data analysis found that some problems existing in the college students in the new era of ideological quality development: some college students of level of concern for domestic event and domestic security is not high, and the patriotic practical actions need to be further improved; Some of them have a shallow understanding of the international situation, and the ideological quality of a few college students does not meet the requirements of The times; College students have nearly for ecological environment protection is the lack of action. It puts forward the corresponding countermeasures and Suggestions: Guiding the college students pay attention to the national development, and to the right side of thinking, actively safeguard national interests; Guiding the youth to learn to distinguish right from wrong, and form a correct global vision and the soul of thought; Through the education of higher vocational college students to learn ecological security concept of national overall security, enhance their awareness of environmental protection, ecological security and the ability to consciously maintain ecological security.

Published

2023

50. Summary of Small Gas Flow Control Methods in The Field of Isotope Separation

Author

YANG Kun

Subjects

isotope separation, small gas flow, measuring method, sound velocity orifice plate, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

In the field of gas isotope separation, it is necessary to accurately measure the gas flow in the system. To meet the design requirements, the accuracy of 0.1 mg/s even needs to be achieved at some key positions. In order to control the flow accurately, the principle of “sound velocity orifice plate” in gas hydrodynamics has been widely used in the field of gas isotope separation. Based on the physical principle of sound velocity orifice plate, this paper introduces several commonly used orifice calibration methods, and sorts out the basic application direction, so as to facilitate the majority of scientific researchers to use directly in the process of experimental research and engineering design, etc.

Published

2021