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Online since: September 2014
Authors: Gang Guo, Zheng Yan Li, Dong Ping Yang, Juan Juan Li
The Design of Laser Wavelength Measuring System Based on DSP
Zhengyan Li, Juanjuan Li, Gang Guo, Dongping Yang
Aviation University of Air Force, Jilin, Changchun, 130022
a50584420@qq.com, b173913766@ qq.com
Keywords: Measuring of Laser Wavelength; DSP; CCD
Abstract.
[3] Zhihui Zhang, Di Tian, Yixian Yang.
[3] Zhihui Zhang, Di Tian, Yixian Yang.
Online since: September 2014
Authors: Li Ying Cao, He Long Yu, Ting Ting Yang, Gui Fen Chen
Reform and Practice of Teaching Model of Computer Programming Courses
Cao Liying, Yu Helong, Chen Guifen, Yang Tingting
College of Information and Technology Science, Jilin Agricultural University, China, 130118
E-mail: caoliying99@163.com
Keywords: program design; teaching; three classes; four reform
Abstract: According to the problems of programming courses in the teaching process, this paper proposes the "two way, three classrooms, four reform, multiple assessment" teaching model of C++ programming combining with some teaching experience, and researches and discusses from programming course content, teaching methods and assessment methods.
References [1]SHEN Tian-qing, LIU Wei-fu,DING Wei-ping.
[2] ZHOU Yuan-zhe, YANG Li-fa.
References [1]SHEN Tian-qing, LIU Wei-fu,DING Wei-ping.
[2] ZHOU Yuan-zhe, YANG Li-fa.
Online since: May 2014
Authors: Guo Gang Wang, Xiao Ping Han, Tao Liang, Ming Hua Yang, Ling Zhang
Corresponding Author
Name: Guo-gang Wang; Email:w0801510424@163.com;
Mobile phone: 15394180429
References
[1] Li-ping Yang, Yun-bo Zou, Zhi-min Wu, Journal of Air Force Engineering University (Natural Science Edition), 2007, 8 ( 2) ,14-17.
In Chinese [3] Tian Bao-guang, Chinese Quarterly Journal of Mathematics, 2000, 15(2): 14-18 In Chinese [4] Yang Ri-jie, Jiang Zhi-zhong, Chen Jian-yong, etc, Journal of Naval Aeronautical Engineering Institute.2010,(5) [5] Friedman JH, Tukey JW.A.
In Chinese [3] Tian Bao-guang, Chinese Quarterly Journal of Mathematics, 2000, 15(2): 14-18 In Chinese [4] Yang Ri-jie, Jiang Zhi-zhong, Chen Jian-yong, etc, Journal of Naval Aeronautical Engineering Institute.2010,(5) [5] Friedman JH, Tukey JW.A.
Online since: June 2013
Authors: Jian Yang Li, Hong Yan Wang, Qiang Rui, Huang Jie Hong
Research on Cumulative Damage for Airborne Vehicle under Landing Impact
LI Jian-yang, WANG Hong-yan, RUI Qiang, HONG Huang-jie
Department of Mechanical Engineering, Academy of Armored Force Engineering, Beijing 100072
yang_zgy@yahoo.cn
Keywords:airborne vehicle, cumulative damage, landing impact, finite element
Abstract.
(in chinese) [4] YU Tian-qing, QIAN Ji-cheng.
(in chinese) [4] YU Tian-qing, QIAN Ji-cheng.
Online since: August 2013
Authors: Jing Yuan Shi, Yan Kun Tang, Kun Yang, Nuan Song
A Design of Graph generator of Laser Shake Mirror Based on C8051F020 Microprocessor
Yankun Tang, Jingyuan Shi, Nuan Song, Kun Yang
Aviation University of Air Force, ChangChun, 130022, China
email: laotang_506@163.com
Keywords: Shake Mirror; Graph Development Instrument; C8051 Microprocessor
Abstract.
A new type of shake mirror system designed by BeiJing Shi Ji Tuo Tian Co.
A new type of shake mirror system designed by BeiJing Shi Ji Tuo Tian Co.
Online since: July 2012
Authors: Yue Jin Ma, Xiong Zhuang Li, Jian Jun Hao, Shu Hua Yang, Liang Gao
Study on TiCN/Ti Based Composite Coating Fabricated by Reactive Electric Spark Deposition
Hao Jian-jun1, Gao Liang1, Yang Shu-hua1, Li Xiong-zhuang2, Ma Yue-jin1
1 Agriculture University of Hebei, Baoding 071001, China
2 Baoding Tianwei Electric Wire Co., Ltd, Baoding 071051, China
E-mail:hjj@hebau.edu.cn
Keywords: reactive electric spark deposition; titanium alloy; TiCN composite coating
Abstract: In order to improve the wear-resisting properties of titanium alloy surface, reactive electric spark deposition was carried out using a graphite electrode in a nitrogen gas atmosphere, and TiCN/Ti based composite coating was fabricated on TC4 titanium alloy surface.
[2] Yang Shoujie, Dai Shenglong.
[5] Wei Tongbo, Yan Fengyuan, Tian Jun.
[2] Yang Shoujie, Dai Shenglong.
[5] Wei Tongbo, Yan Fengyuan, Tian Jun.
Online since: November 2013
Authors: Zhan She Yang, Xian Min Ma
References:
[1]Liang Zhonghua Tian Maoqin, Ren Min Hu Qing:Fault diagnosis of power electronic circuits based on artificial neural network.Journal of shen yang university of technology.2004.4:140-141
[2]Zang xiaohui:Three-phase bridge type all control the rectifier circuit modeling and simulation based on Simulink .
Online since: August 2013
Authors: Ying Jun Yang, Jun Mao Zheng, Zheng Qing Ding
Application of Inversion after limestone hollow-out in Pearl River Mouth Basin
Yang Ying Jun 1, a, Zheng Jun Mao1,b,Ding Zheng Qing 2,c
1China University of Geosciences, Beijing, 100083
2 Tian An Xing Da Petroleum Technology Company Limited, Beijing, 100021
ayjyang1996@163.com, bzhengjunmao@163.com,cjjjj_876@sina.com
Keywords: thin bed; wave impedance; limestone hollow-out; forward; sand body sculpture
Abstract:The target layer of study area belongs to delta front and shallow shelf deposition, and the sedimentary formation is sandstone and mudstone thin interbed, the limy developed in sand layer.
[2] Cai Xiling, Yang Zhong, Cui Quanzhang, etc al.Theoretic analysis of the resolution of thin sand-mud interhed [J].
[4] Zhang H B, Yang C C, Shang Z P.Impendance inversion with soft constrained model [J].
[6] Liu Xiaoping, Yang Xiaolan, Liu Yanjun.
[2] Cai Xiling, Yang Zhong, Cui Quanzhang, etc al.Theoretic analysis of the resolution of thin sand-mud interhed [J].
[4] Zhang H B, Yang C C, Shang Z P.Impendance inversion with soft constrained model [J].
[6] Liu Xiaoping, Yang Xiaolan, Liu Yanjun.
Online since: April 2010
Authors: Zhong Qing Tian, You Li Yang, Lin Lin
Sol-gel Synthesis and Characterization of LaAlO3 Nanoparticles
Using Gelatin as Organic Precursor
Zhongqing Tiana, Youli Yang and Lin Lin
School of Materials Science and Engineering, Chongqing University of Technology, Xingsheng
Road 4, Chongqing 400050, P.
Tian, W.
Tian, W.
Online since: October 2012
Authors: Quan Shuai Liu, Gui Ping Liu, Hong Wu Tang, Li Mo Tang, Yang Xiao
Prediction of the Maximum Riverbed Erosion Depth nearby the River-Crossing Tunnel in Nanchang Reach of Ganjiang River
Limo Tang1,2,a, Quanshuai Liu2,b , Guiping Liu3, Hongwu Tang1and Yang Xiao1,2
1 State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering, Hohai University, Nanjing, China
2 College of Water Conservancy and Hydropower Engineering, Hohai University, Nanjing, China
3Pudong New Area Sluice Management Agency, Shanghai, China
atanglimo@hhu.edu.cn, bliuquanshuai@hhu.edu.cn
Keywords: River-crossing tunnel, Maximum erosion depth, Mathematical model, Riverbed evolution
Abstract.
For examples, Shi and Dong predicted the maximum riverbed erosion depth of the Qiantang river estuary in the river-cross tunnel reach under extreme flood conditions by physical model experiments and numerical simulation calculation [1,2]; Yang et al. analyzed the limit riverbed erosion depth in the GuangFo river-cross tunnel reach by using 2-D water and sediment mathematical model [3]; Zhang et al. discussed and analyzed the method to determine the maximum riverbed erosion depth of one reach and applied to engineering design, by taking the NanJing river-cross tunnel reach of the lower Yangtze river as an example[4]; Hu et al. analyzed the effects of the cover layer thickness and the water lever changes on the tunnel stability by establishing the finite element model, and that result could provide reference for similar river-cross tunnel projects in structural design[5].
References [1] Ying-biao Shi, Hai-yan Lu, Yuan-ping Yang and Ying Cao: Advances in Water Science (2008), Vol. 19(5), p. 685.
(In Chinese) [2] Tian-le Dong, Ying-biao Shi, Hai-yan Lu and Yuan-ping Yang: Rural Water and Hydropower in China (2008), Vol. 7, p. 56.
(In Chinese) [3] Fang Yang and Yong He: PEARL RIVER (2010), Vol. 2, p. 14.
For examples, Shi and Dong predicted the maximum riverbed erosion depth of the Qiantang river estuary in the river-cross tunnel reach under extreme flood conditions by physical model experiments and numerical simulation calculation [1,2]; Yang et al. analyzed the limit riverbed erosion depth in the GuangFo river-cross tunnel reach by using 2-D water and sediment mathematical model [3]; Zhang et al. discussed and analyzed the method to determine the maximum riverbed erosion depth of one reach and applied to engineering design, by taking the NanJing river-cross tunnel reach of the lower Yangtze river as an example[4]; Hu et al. analyzed the effects of the cover layer thickness and the water lever changes on the tunnel stability by establishing the finite element model, and that result could provide reference for similar river-cross tunnel projects in structural design[5].
References [1] Ying-biao Shi, Hai-yan Lu, Yuan-ping Yang and Ying Cao: Advances in Water Science (2008), Vol. 19(5), p. 685.
(In Chinese) [2] Tian-le Dong, Ying-biao Shi, Hai-yan Lu and Yuan-ping Yang: Rural Water and Hydropower in China (2008), Vol. 7, p. 56.
(In Chinese) [3] Fang Yang and Yong He: PEARL RIVER (2010), Vol. 2, p. 14.