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30 results on '"Tong, Chao-Nan"'

1. Deep learning on nuclear mass and $\alpha$ decay half-lives

Author

Li, Chen-Qi, Tong, Chao-Nan, Du, Hong-Jing, and Pang, Long-Gang

Subjects
Nuclear Theory
Abstract

Ab-initio calculations of nuclear masses, the binding energy and the $\alpha$ decay half-lives are intractable for heavy nucleus, because of the curse of dimensionality in many body quantum simulations as proton number($\mathrm{N}$) and neutron number($\mathrm{Z}$) grow. We take advantage of the powerful non-linear transformation and feature representation ability of deep neural network(DNN) to predict the nuclear masses and $\alpha$ decay half-lives. For nuclear binding energy prediction problem we achieve standard deviation $\sigma=0.263$ MeV on 10-fold cross validation on 2149 nuclei. Word-vectors which are high dimensional representation of nuclei from the hidden layers of mass-regression DNN help us to calculate $\alpha$ decay half-lives. For this task, we get $\sigma=0.797$ on 100 times 10-fold cross validation on 350 nuclei on $log_{10}T_{1/2}$ and $\sigma=0.731 $ on 486 nuclei. We also find physical a priori such as shell structure, magic numbers and augmented inputs inspired by Finite Range Droplet Model are important for this small data regression task., Comment: 17 pages

Published
2022
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2. Application of ensemble H-infinity filter in aquifer characterization and comparison to ensemble Kalman filter

Author

Tong-chao Nan and Ji-chun Wu

Subjects
Data assimilation, Hydraulic parameter estimation, Ensemble H-Infinity filter, Ensemble Kalman filter, Hydraulic conductivity, Robustness, River, lake, and water-supply engineering (General), TC401-506
Abstract

Though the ensemble Kalman filter (EnKF) has been successfully applied in many areas, it requires explicit and accurate model and measurement error information, leading to difficulties in practice when only limited information on error mechanisms of observational instruments for subsurface systems is accessible. To handle the uncertain errors, we applied a robust data assimilation algorithm, the ensemble H-infinity filter (EnHF), to estimation of aquifer hydraulic heads and conductivities in a flow model with uncertain/correlated observational errors. The impacts of spatial and temporal correlations in measurements were analyzed, and the performance of EnHF was compared with that of the EnKF. The results show that both EnHF and EnKF are able to estimate hydraulic conductivities properly when observations are free of error; EnHF can provide robust estimates of hydraulic conductivities even when no observational error information is provided. In contrast, the estimates of EnKF seem noticeably undermined because of correlated errors and inaccurate error statistics, and filter divergence was observed. It is concluded that EnHF is an efficient assimilation algorithm when observational errors are unknown or error statistics are inaccurate.

Published
2017
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3. Fuzzy-PI Switch Control in Intermediate Frequency Heating Process of 3PE-Coating

Author

Yang, Xu, Wen, Bo, Tong, Chao-nan, Feng, Yu-zhi, Zeng, Yan, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Sun, Changyin, editor, Fang, Fang, editor, Zhou, Zhi-Hua, editor, Yang, Wankou, editor, and Liu, Zhi-Yong, editor

Published
2013
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5. A Photovoltaic MPPT Control Strategy Based on Gradient Optimization and MPP Voltage Law

Author

Tong Chao-nan, Li Wei, Zhang Yong-jun, and Miao Lei

Subjects
Steady state (electronics), Computer science, Open-circuit voltage, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Irradiance, 02 engineering and technology, Maximum power point tracking, Law, 0202 electrical engineering, electronic engineering, information engineering, Waveform, Transient (oscillation), Electrical efficiency, Voltage
Abstract

In this work, a maximum power point tracking (MPPT) control algorithm is developed to determine power efficiency, and to improve the transient nature of the power curve characteristics of a PV cell. Based on the analysis of existing MPPT methods, for PV systems, the relationship between MPP voltage and the open circuit voltage of PV cell under different conditions is studied; moreover, a novel MPPT control strategy which can be applied to different irradiance conditions based on a sub-domain gradient optimization principle and MPP voltage law is proposed. Simulation results show that the proposed method has advantages of fast dynamic response and a non-oscillatory steady state response under different irradiance conditions and input waveforms. For the experimental setup, an existing control method and the proposed MPPT control algorithm are implemented on solar PV cell; it was observed that the proposed MPPT algorithm has stable steady state dynamic characteristics and a fast response speed.

Published
2019

6. Design of Multiple Model Adaptive Controller for Tension System of Temper Mill

Author

Pengwei Li and Tong Chao-nan

Subjects
Nonlinear system, Adaptive control, Control theory, Computer science, Tension (physics), Control system, Linear regulator, Piecewise, System model
Abstract

On the tension elongation control system of temper mill in cold rolling thin gauge product line, the roll diameter of coiling always varies. The electromechanical time constant in the tension system model is varies with the nonlinear law. So this paper proposes a piecewise multiple model switching adaptive control method, which can solve the defect problem of the linear regulator that is difficult to achieve global optimization control. Firstly, the object model of tension system is analyzed. Then a piecewise multiple model structure, a multiple model switching mechanism, and an adaptive interpolation method of controller parameters are designed. Simulation results and field test results are given and effective.

Published
2019

7. Sliding mode repetitive equivalent control for induction motor based on hardware-in-loop system

Author

Tong Chao-nan and Cao Jing

Subjects
0209 industrial biotechnology, Steady state, Computer science, 020208 electrical & electronic engineering, Hardware-in-the-loop simulation, 02 engineering and technology, Repetitive control, Sliding mode control, Equivalent control, 020901 industrial engineering & automation, Control theory, Robustness (computer science), 0202 electrical engineering, electronic engineering, information engineering, Torque, Induction motor
Abstract

A novel current control strategy named sliding mode repetitive equivalent control (SMREC) is proposed to improve both the steady-state performance and the dynamic response of an induction motor control system. The SMREC controller integrates the advantages of both the sliding mode control (SMC) and the repetitive control (RC). Hardware-in-loop simulations are implemented to validate the control method developed in this paper. It is demonstrated that both the steady-state accuracy and the robustness of load disturbance in the AC drive system are improved by utilizing the proposed control strategy.

Published
2017

8. Energy consumption optimization of air conditioning based on building monitoring system

Author

Chen Zhiwen, Gu Liu, Yang Xu, Tong Chao-nan, Cui Jiarui, Ding Dawei, and Zhang Lei

Subjects
Engineering, Temperature control, business.industry, Energy consumption optimization, 020209 energy, Node (networking), Environmental engineering, Monitoring system, 02 engineering and technology, Energy consumption, Concentrator, Automotive engineering, Reduction (complexity), Air conditioning, 0202 electrical engineering, electronic engineering, information engineering, business
Abstract

This paper proposes building monitoring system and optimization scheme about energy consumption of air conditioning. At first, building monitoring system is introduced in detail, which consists of node group, concentrator and upper computer. Large amounts of data including environmental parameters and air conditioning energy consumption data are collected, transmitted, stored, and displayed through the proposed system in real time. According to it, optimal performance index of air conditioning is defined. Optimization scheme of air conditioning is put forward based on this index, under which the use pattern of air conditioning is adjusted by the system. The reduction of air conditioning energy consumption is demonstrated its effectiveness through a case study.

Published
2017

9. Maximum power point tracking algorithm for photovoltaic generation based on voltage compensation

Author

Hu Chang-bin, Huang Long, Tong Chao-nan, and Yang Xu

Subjects
Operating point, Engineering, Maximum power principle, business.industry, Photovoltaic system, Maximum power point tracking, Power optimizer, Voltage compensation, Control theory, Electronic engineering, MATLAB, business, computer, computer.programming_language, Nominal power (photovoltaic)
Abstract

In order to improve the maximum power point tracking efficiency of photovoltaic generation system at sudden changes of weather conditions, an improved MPPT algorithm is proposed, which is developed from the main idea of perturb and observe (P&O) method and constant voltage method. When the temperature or irradiance changes, the proposed algorithm sets the operating point close to the new maximum power point by voltage compensation, then using the P&O method to make the system reach the new maximum power point. Meanwhile, a case study of photovoltaic (PV) system is established in the Matlab/Simulink, to show its better performance on stability and dynamic behavior, by comparing this algorithm with traditional P&O method.

Published
2015

10. The coupling model and robust controller design of vertical system in rolling mills

Author

Ding Dawei, Yang Xu, and Tong Chao-nan

Subjects
Coupling, Nonlinear system, Engineering, Quantitative feedback theory, Control theory, business.industry, Control system, PID controller, Control engineering, Hydraulic machinery, business, Servo
Abstract

The mathematical model of electromechanical-hydraulic coupling system in rolling mills, which includes the servo hydraulic system, the mill housing system and rolls system, is established with the consideration of influence on dynamic behavior by nonlinearity and parameter uncertainties. Then the closed-loop gauge control system in frequency form is obtained. The robust controller design is introduced by using quantitative feedback theory, based on several system performance indexes. The influence on system stability by the performance of hydraulic automatic gauge control system is discussed, the reference signal tracking behavior and control performance comparison with PI controller is made via simulation case study, to show the advantage of the proposed control algorithm.

Published
2015

12. A new interleaved three-level Boost converter and neutral-point potential balancing

Author

Hu Bing, Zhou Jinghua, Zhou Hao, and Tong Chao-nan

Subjects
Engineering, business.industry, Ćuk converter, Electrical engineering, Topology (electrical circuits), Converters, Filter capacitor, law.invention, Capacitor, Control theory, Duty cycle, law, Boost converter, Inverter, business
Abstract

Due to a voltage imbalance of the divided capacitors in the output side of three-level Boost photovoltaic grid-connected inverter, a new topology of interleaved three-level Boost converters is presented. The proposed topology can balance the voltage of the divided capacitors through adjusting the duty cycle of the power switches. The operational principle is detailed and the work modes are analyzed. The neutral point drift problem of the inverter has been solved within the first level three-level Boost converter. The prototype has been verified both by a PSPICE simulation and a new topology inverter platform. Simulation and experimental results show that the current ripple of the converter equals to 1/8 of the traditional Boost converter current ripple, and the converter can well solve the neutral point drift problem of the inverter with voltage divided capacitors to obtain good dynamic and steady-state performance.

Published
2013

13. The efficiency analysis for three-level grid-connected photovoltaic inverters

Author

Qu Kewang, Zhou Hao, Tong Chao-nan, Liu Yan, and Hu Bing

Subjects
Engineering, Isolation transformer, business.industry, EMI, Photovoltaic system, Electrical engineering, Electronic engineering, Inverter, Topology (electrical circuits), Network topology, Grid, business, Electromagnetic interference
Abstract

The grid-connected photovoltaic (PV) systems are an important part of renewable energy sources and their effect is getting more and more extensive. To improve the efficiency, small volume, and low prices of the PV systems, many kinds of new inverter topologies have been proposed to avoid using a grid isolation transformer, and the traditional three-level neutral-point-clamped (NPC) topology structure and T topology structure are presented and in-depth analyzed in this paper. Relative to conventional NPC topology, the T topology with fewer switching devices than before when producing the same number of output levels, which simplifies circuit and saves costs. Efficiency analysis results show that T topology have high efficiency, lower leakage current and EMI.

Published
2012

14. Nonlinear Modeling and Global Sliding Mode Control of Main Drive System Torsional Vibration in Cold Rollling Mill

Author

Tong Chao-nan and Yang Xu

Subjects
Vibration, Nonlinear system, Engineering, Torsional vibration, business.industry, Control theory, Control system, Process control, Mill, Structural engineering, business, Sliding mode control
Abstract

the torsional vibration model in main drive system of cold rolling mill is built with the consideration of nonlinear stiffness and nonlinear friction coefficient. The global sliding mode controller is designed for rolling mill drive system for rejecting plants with rolling parameters' uncertainties, as well as a better tracking behavior. Simulation results show the validity of the nonlinear model and the strong robustness, good dynamic characteristic of control algorithms.

Published
2012

16. The Computer System of High Precision Reversible Cold Rolling Mill

Author

Zhang Hong-wei, Wang Jing, Tong Chao-nan, and Sun Yikang

Subjects
Engineering, business.industry, media_common.quotation_subject, Computer control system, Mechanical engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Software, Installation, Control system, Computer software, Factory, Rolling mill, Function (engineering), business, media_common
Abstract

The high precision Four-high reversible cold rolling mill was successfully completed in Shanghai in 1989, all the work of the project, including design, manufacture, installing and test, was done with the cooperation of Shanghai Metallurgic Equipment General Factory and the University of Science and Technology Beijing. The cold rolling mill is used to produce high precise cold strip, so it is necessary that the function and precision of control system are powerful. In this paper, the function of computer control system is introduced, the software function is also described. The ideas of the control units that affects thickness precision seriously are introduced emphatically, the control result is given at last.

Published
1992

30. Data-Based Second-Order Linear Extended State Observer Filter.

Author

Wang Li-Jun, Cang Huang-Lina, Li Qing, Tong Chao-Nan, Yin Yi-Xin, and Dong Jie

Subjects
MATHEMATICAL models, NONLINEAR systems, IRON & steel plates, OBSERVABILITY (Control theory), CONTROL theory (Engineering)
Abstract

To deal with the difficulty of establishing mathematical models for non-linear system, a practical data-based second-order linear extended state observer (LESO) filtering method is proposed. By ESO estimating the uncertain disturbance in real time, a simple linear ESO filter with less tunable parameters was designed in the absence of dynamic model. Then the parameters tuning way of the filter and the method of discrete-time realization were given respectively. Last, the designed LESO filter was applied to the tracking of square signal and sine signal, to filtering the signal with uniformly distributed white noise and the width data of hot rolling strip in real time. Simulation results show that the proposed filter is effective and practical. [ABSTRACT FROM AUTHOR]

Published
2012

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