Your search keyword '"Maoling Yan"' showing total 12 results

1. Shale Formation Damage during Fracturing Fluid Imbibition and Flowback Process Considering Adsorbed Methane

Author

Mingjun Chen, Maoling Yan, Yili Kang, Sidong Fang, Hua Liu, Weihong Wang, Jikun Shen, and Zhiqiang Chen

Subjects

shale gas, fracturing fluids, imbibition, flowback, formation damage, pore structure, Technology

Abstract

Hydraulic fracturing of shale gas reservoirs is characterized by large fracturing fluid consumption, long working cycle and low flowback efficiency. Huge amounts of fracturing fluid retained in shale reservoirs for a long time would definitely cause formation damage and reduce the gas production efficiency. In this work, a pressure decay method was conducted in order to measure the amount of fracturing fluid imbibition and sample permeability under the conditions of formation temperature, pressure and adsorbed methane in real time. Experimental results show that (1) the mass of imbibed fracturing fluid per unit mass of shale sample is 0.00021–0.00439 g/g considering the in-situ pressure, temperature and adsorbed methane. (2) The imbibition and flowback behavior of fracturing fluid are affected by the imbibition or flowback pressure difference, pore structure, pore surface properties, mechanical properties of shale and mineral contents. (3) 0.01 mD and 0.001 mD are the critical initial permeability of shales, which could be used to determine the relationship between the formation damage degree and the flowback pressure difference. This work is beneficial for a real experimental evaluation of shale formation damage induced by fracturing fluid.

Published

2022

2. Research on precision management of farming season based on big data

Author

Maoling Yan, Pingzeng Liu, Fujiang Wen, Chao Zhang, Rui Zhao, Weijie Chen, Xuefei Liu, and Yuqi Liu

Subjects

Agricultural big data, Association rules, Mining analysis, Precise management, Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

Abstract In order to strengthen the scientific management of saline-alkali land and the accurate management of agricultural production, a scientific data governance platform for saline-alkali land was developed. Based on the data accumulation of big data platform, the relationship between wheat growth and meteorology was taken as the research object. Thirteen variables including atmospheric pressure, temperature, light, and precipitation were extracted from surface meteorological data for correlation analysis, and temperature, precipitation, and sunshine were selected as the characteristic variables; through discretization processing, we have finally determined the three indicators that can be categorized: accumulative temperature, sunshine hours, and temperature. Finally, the three indicators are combined with months to build a model of farming season and weather based on Apriori. The results show that when judging the farming season with the month as the index, the accuracy of the model is between 78.81 and 100%. When the temperature or accumulated temperature is taken as the index to judge the winter wheat farming time, the accuracy of the model is above 90%. This shows that accurate analysis of farming season can be achieved through big data correlation analysis, which provides technical support for the timely adoption of agricultural production.

Published

2018

3. Information collection system of duck products based on IoT

Author

Lining Liu, Pingzeng Liu, Fujiang Wen, Chao Zhang, Rui Zhao, Maoling Yan, and Xueru Yu

Subjects

Information collection system, Duck product traceability, IoT, Industrial chain, RFID, Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

Abstract In view of the problems existing in the processing of duck products, such as complicated technology, difficulties in information collection and information linkage, and lack of dedicated information collection equipment, the duck product traceability information of the Institute of Things automatic collection system was developed. Acquisition system is mainly composed of sensing terminals, bus structure, and host computer management system. Perceiving the terminal can automatically perceive the information of each link and transmit the perception information to the upper computer management system through the bus. The upper computer management system realizes the functions of storing the sensing information, intelligent analysis, and alarm prompting. The long-term operation results show that the system performance is stable and reliable; the collection of data is efficient, complete, and accurate; and the degree of automation of the system is high, which significantly improves the product quality and safety supervision capabilities of the company.

Published

2018

4. Evaluation Models for the Nearest Closer Routing Protocol in Wireless Sensor Networks

Author

Ning Cao, Pingzeng Liu, Guofu Li, Ce Zhang, Shaohua Cao, Guangsheng Cao, Maoling Yan, and Brij Bhooshan Gupta

Subjects

Evaluation model, nearest closer, routing protocol, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Wireless sensor networks (WSNs) have been pushed to the forefront in the past decade, owing to the advert of the Internet of Things. Our research suggests that the reliability and lifetime performance of a typical application in WSNs depends crucially on a set of parameters. In this paper, we implemented our experiments on the nearest closer protocol with the J-Sim simulation tool. We then analyze the closure relationships among the density, reliability and lifetime, and reveal the trade-off among them based on our analysis on the experiment results. Next, we propose five intelligent evaluation models that are applicable to such situations. Our research allows the WSN users to predict the significant evaluation parameters directly from the settings while costly simulations are no longer necessary.

Published

2018

5. Information collection system of duck products based on IoT

Author

Rui Zhao, Lining Liu, Fujiang Wen, Chao Zhang, Maoling Yan, Xueru Yu, and Pingzeng Liu

Subjects

IoT, Duck product traceability, Computer Networks and Communications, Computer science, media_common.quotation_subject, lcsh:TK7800-8360, 02 engineering and technology, Linkage (mechanical), computer.software_genre, Information collection system, law.invention, lcsh:Telecommunication, 0404 agricultural biotechnology, law, lcsh:TK5101-6720, 0202 electrical engineering, electronic engineering, information engineering, Quality (business), media_common, Structure (mathematical logic), RFID, Terminal (telecommunication), Database, Industrial chain, business.industry, lcsh:Electronics, 020206 networking & telecommunications, 04 agricultural and veterinary sciences, 040401 food science, Automation, Computer Science Applications, Product (business), Signal Processing, Management system, business, computer

Abstract

In view of the problems existing in the processing of duck products, such as complicated technology, difficulties in information collection and information linkage, and lack of dedicated information collection equipment, the duck product traceability information of the Institute of Things automatic collection system was developed. Acquisition system is mainly composed of sensing terminals, bus structure, and host computer management system. Perceiving the terminal can automatically perceive the information of each link and transmit the perception information to the upper computer management system through the bus. The upper computer management system realizes the functions of storing the sensing information, intelligent analysis, and alarm prompting. The long-term operation results show that the system performance is stable and reliable; the collection of data is efficient, complete, and accurate; and the degree of automation of the system is high, which significantly improves the product quality and safety supervision capabilities of the company.

Published

2018

6. Evaluation Models for the Nearest Closer Routing Protocol in Wireless Sensor Networks

Author

Pingzeng Liu, Ning Cao, Maoling Yan, Guofu Li, Ce Zhang, Brij B. Gupta, Guangsheng Cao, and Shaohua Cao

Subjects

Routing protocol, General Computer Science, Evaluation model, Computer science, Reliability (computer networking), Distributed computing, General Engineering, 020206 networking & telecommunications, 02 engineering and technology, routing protocol, Set (abstract data type), nearest closer, Closure (mathematics), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Wireless sensor network, Protocol (object-oriented programming)

Abstract

Wireless sensor networks (WSNs) have been pushed to the forefront in the past decade, owing to the advert of the Internet of Things. Our research suggests that the reliability and lifetime performance of a typical application in WSNs depends crucially on a set of parameters. In this paper, we implemented our experiments on the nearest closer protocol with the J-Sim simulation tool. We then analyze the closure relationships among the density, reliability and lifetime, and reveal the trade-off among them based on our analysis on the experiment results. Next, we propose five intelligent evaluation models that are applicable to such situations. Our research allows the WSN users to predict the significant evaluation parameters directly from the settings while costly simulations are no longer necessary.

Published

2018

7. A non-parametric method to investigate internal trends in time sequence: A case study of temperature and precipitation

Author

Hang Yu, Maoling Yang, Long Wang, and Yuanfang Chen

Subjects

Trend test, Overall trend, Internal trend, Temperature and precipitation, Ecology, QH540-549.5

Abstract

Trend testing is essential for time sequence analysis. However, the existing trend testing methods mainly study the trends of the sequence as a whole, while there is a lack of feasible research tools for the internal trends of the sequence. Therefore, a non-parametric method was proposed to study the overall and internal trends of the sequence using the ideas of set pair, Cox-Stuart, Innovative Trend Analysis Methodology, and Mann-Kendall and applied to temperature and precipitation sequences. The applied study indicated that the overall and internal trends for global temperature were significantly increasing at the confidence level of α = 0.05. For precipitation, the trends (both overall and internal) of Laifeng and Leibo were increasing and decreasing, respectively, and some of the internal trends were significant (α = 0.05); however, the overall and internal trends of Pingbian and Sangzhi were not exactly the same, i.e., the trend of high (low) values in Pingbian (Sangzhi) was different from the other trends of the rest. In general, the method successfully tested not only the overall trends in temperature and precipitation, but also their internal (divided into low, middle, and high values) trends. These results agreed with the linear slope, Sen's slope, Mann-Kendall, and its improved. Therefore, the method can be used for trend analysis of the sequences.

Published

2024

8. Research on precision management of farming season based on big data

Author

Weijie Chen, Rui Zhao, Maoling Yan, Xuefei Liu, Chao Zhang, Yuqi Liu, Fujiang Wen, and Pingzeng Liu

Subjects

Precise management, Index (economics), 020205 medical informatics, Computer Networks and Communications, Computer science, Winter wheat, Big data, lcsh:TK7800-8360, 02 engineering and technology, Agricultural engineering, Association rules, lcsh:Telecommunication, Data governance, lcsh:TK5101-6720, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Precipitation, Agricultural productivity, Agricultural big data, Atmospheric pressure, business.industry, lcsh:Electronics, 05 social sciences, Computer Science Applications, Agriculture, Signal Processing, Correlation analysis, Sunshine duration, Mining analysis, business, 050203 business & management

Abstract

In order to strengthen the scientific management of saline-alkali land and the accurate management of agricultural production, a scientific data governance platform for saline-alkali land was developed. Based on the data accumulation of big data platform, the relationship between wheat growth and meteorology was taken as the research object. Thirteen variables including atmospheric pressure, temperature, light, and precipitation were extracted from surface meteorological data for correlation analysis, and temperature, precipitation, and sunshine were selected as the characteristic variables; through discretization processing, we have finally determined the three indicators that can be categorized: accumulative temperature, sunshine hours, and temperature. Finally, the three indicators are combined with months to build a model of farming season and weather based on Apriori. The results show that when judging the farming season with the month as the index, the accuracy of the model is between 78.81 and 100%. When the temperature or accumulated temperature is taken as the index to judge the winter wheat farming time, the accuracy of the model is above 90%. This shows that accurate analysis of farming season can be achieved through big data correlation analysis, which provides technical support for the timely adoption of agricultural production.

Published

2018

9. Application of Temperature Prediction Based on Neural Network in Intrusion Detection of IoT

Author

Jianyong Zhang, Xuefei Liu, Pingzeng Liu, Maoling Yan, Russell Higgs, Chao Zhang, and Baojia Wang

Subjects

Artificial neural network, Article Subject, Computer Networks and Communications, Network security, business.industry, Computer science, 020209 energy, Real-time computing, 02 engineering and technology, Construct (python library), Intrusion detection system, Complex network, 01 natural sciences, 010101 applied mathematics, Intrusion, lcsh:Technology (General), 0202 electrical engineering, electronic engineering, information engineering, lcsh:T1-995, Autoregressive integrated moving average, 0101 mathematics, business, Internet of Things, lcsh:Science (General), Information Systems, lcsh:Q1-390

Abstract

The security of network information in the Internet of Things faces enormous challenges. The traditional security defense mechanism is passive and certain loopholes. Intrusion detection can carry out network security monitoring and take corresponding measures actively. The neural network-based intrusion detection technology has specific adaptive capabilities, which can adapt to complex network environments and provide high intrusion detection rate. For the sake of solving the problem that the farmland Internet of Things is very vulnerable to invasion, we use a neural network to construct the farmland Internet of Things intrusion detection system to detect anomalous intrusion. In this study, the temperature of the IoT acquisition system is taken as the research object. It has divided which into different time granularities for feature analysis. We provide the detection standard for the data training detection module by comparing the traditional ARIMA and neural network methods. Its results show that the information on the temperature series is abundant. In addition, the neural network can predict the temperature sequence of varying time granularities better and ensure a small prediction error. It provides the testing standard for the construction of an intrusion detection system of the Internet of Things.

Published

2018

10. Quantitative Research on the Relationship between Yield of Winter Wheat and Agroclimatological Resources—the Case Study from Yanzhou District, Shandong Province, China

Author

Rui Zhao, Yong Zheng, Chao Zhang, Weijie Chen, Maoling Yan, Yan Zhang, Xizhi Wang, and Pingzeng Liu

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, business.industry, Crop yield, Yield (finance), Sowing, General Medicine, General Chemistry, 01 natural sciences, Agronomy, Agriculture, Sunshine duration, Environmental science, Stage (hydrology), Agricultural productivity, business, Overwintering, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Agroclimatological resources provide material and energy for agricultural production. This study is aimed to analyze the impact of selected climate factors change on wheat yield over the different growth period applied quantitatively method, by comparing two different time division modules of wheat growth cycle- monthly empirical-statistical multiple regression models ( From October to June of next year ) and growth stage empirical-statistical multiple regression models (Including sowing stage, seedling stage, tillering stage, overwintering period, regreening period, jointing stage, heading stage, maturity stage) analysis of relationship between agrometeorological data and growth stage records and winter wheat production in Yanzhou, Shandong Province of China. Correlation analysis(CA)was done for 35 years (from 1981 to 2015) between crop yield and corresponding weather parameters including daily mean temperature, sunshine duration, and average daily precipitation selected from 18 different meteorological factors. The results shows that the greatest impact on the winter wheat yield is the precipitation overwintering period in this area, each 1mm increase in daily mean rainfall was associated with 201.64 kg/hm2 lowered output. Moreover, the temperature and sunshine duration in heading period and maturity stage also exert significant influence on the output, every 1°C increase in daily mean temperature was associated with 199.85kg/hm2 adding output, every 1h increase in mean sunshine duration was associated with 130.68kg/hm2 reduced output. Comparing with the results of experiment which using months as step sizes and using farming as step sizes was in better agreement with the fluctuation in meteorological yield, offered a better explanation on the growth mechanism of wheat. Eventually the results indicated that 3 factors affects the yield during different growing periods of wheat in different extent and provided more specific reference to guide the agricultural production management in this area.

Published

2018

11. Zonal Patterns of Meteorological Drought on the Yunnan-Guizhou Plateau, China

Author

Hang Yu, Long Wang, and Maoling Yang

Subjects

Yunnan-Guizhou Plateau, longitude, elevation, zonal patterns, drought, Environmental sciences, GE1-350

Abstract

Drought is a natural phenomenon caused by a shortage of water resources and has a great impact on agriculture, the economy, and the environment. To study the Spatio-temporal distribution and explore the zonal patterns of drought, this paper took the Yunnan-Guizhou Plateau (YGP) as the research region, selected the air temperature, relative humidity, sunshine duration, wind speed, and precipitation data from 47 meteorological stations on the YGP. First, the standardized precipitation evapotranspiration index (SPEI) was calculated, and then the Spatio-temporal distribution of YGP drought was analyzed with the SPEI, Mann–Kendall test, and principal component analysis (PCA). Finally, the correlations between the average SPEI, drought characteristics extracted from the SPEI, and longitude/elevation/latitude were analyzed with the linear regression method, and then the zonal patterns of the YGP drought were obtained. The results revealed that the annual and seasonal SPEI values mainly decreased. Because the first component of the SPEI (the largest eigenvalue makes it the most important component) in annual and winter had a poor relationship with longitude/elevation, its correlation was weak, while the average SPEI values in other seasons were significantly correlated with longitude/elevation (α = 0.001), and the absolute value of the correlation coefficient was between 0.6879–0.9453. Except for PC1 in annual and winter, PC1 and PC2 were significantly correlated with longitude/elevation (α = 0.001), and the absolute value of the correlation coefficient was between 0.5087–0.9501. The duration, severity, intensity, frequency of drought were significantly correlated with longitude/elevation (α = 0.001) in most situations. The average SPEI values and drought characteristics showed a good multivariate linear correlation with longitude, latitude, and elevation, indicating that drought exhibited strong zonal patterns. This study will provide new ideas for drought research and technical support for regional industrial layouts, planting structure adjustments, and drought and disaster reduction.

Published

2021

12. The Relationship between Retinol-Binding Protein 4 and Markers of Inflammation and Thrombogenesis in Children with Kawasaki Disease

Author

Maoling Yang, Haobo Weng, Qiongfei Pei, Fengchuan Jing, and Qijian Yi

Subjects

Pathology, RB1-214

Abstract

Background. Kawasaki disease (KD) is a self-limited vasculitis with unknown etiologies, and coronary artery lesions (CALs) are the most common and serious complications. Retinol-binding protein 4 (RBP4) has been confirmed effects on vasodilation, platelet activation inhibition, and cardiovascular diseases by researches. Therefore, this study was aimed at investigating the relationship between RBP4 and inflammation as well as thrombogenesis in children with KD. Methods. 79 subjects were from 62 children with KD and 17 healthy controls (HCs). The KD group was divided into KD with CALs (KD-CALs) and KD without CALs (KD-NCALs), and the serum RBP4 levels were measured by enzyme-linked immunosorbent assay (ELISA). Results. Compared with the HC group, serum RBP4 levels in the KD group were significantly decreased (p

Published

2021