Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2011
Authors: Yang Ying Gan, Chun Sheng Hou, Ting Zhou, Shu Fa Xu
Plant Identification Based on Artificial Intelligence
GAN Yang Ying 1,a, HOU Chun Sheng1,b ZHOU Ting2,c, XU Shu Fa2,d
1Institute of Sci-Tech Information, Guangdong Academy of Agricultural Science, China
2The Bee Research Institute,Chinese Academy of Agricultural Sciences
asharelot@163.com, bhoufei2701@163.com, cztapis@263.net, dphagraham@sina.com
Key words: plant identification, expert system, artificial neural network, machine vision
Abstract.
For example, Cai et al. (2007) developed an Expert system for the identification, classification and verification of plants in Tian Mu Mountain, China [14].
Mugnai et al. (2008) used an ANN based on phyllometric and fractal parameters for the identification of Camellia japonica L. genotypes [29], Wu et al. (2009) identified weed/corn with BPNN based on wavelet features and fractal dimension [30], Qi and Yang (2003) used sawtooth feature of leaves for plant identification [31].
[18] L.Tang, L.Tian, B.L.Steward: ASABE Vol.46-4 (2003), p.1247-1254
[31] H.N.Qi, J.G.Yang: Proceedings of the Second International Conference on Machine Learning and Cybernetics, Vol.5 (2003), p.3039-3044.
For example, Cai et al. (2007) developed an Expert system for the identification, classification and verification of plants in Tian Mu Mountain, China [14].
Mugnai et al. (2008) used an ANN based on phyllometric and fractal parameters for the identification of Camellia japonica L. genotypes [29], Wu et al. (2009) identified weed/corn with BPNN based on wavelet features and fractal dimension [30], Qi and Yang (2003) used sawtooth feature of leaves for plant identification [31].
[18] L.Tang, L.Tian, B.L.Steward: ASABE Vol.46-4 (2003), p.1247-1254
[31] H.N.Qi, J.G.Yang: Proceedings of the Second International Conference on Machine Learning and Cybernetics, Vol.5 (2003), p.3039-3044.
Online since: January 2014
Authors: Yi Hong Zhao, Zhi Long Li, Qing Qing Li, Hua Feng Lu, Long Wu, Hua Yang, Rong Fa Chen
Effect of Manganese Dioxide on Structure and Compressive Strength of Foam Glass
Long Wu, Yihong Zhao1, a, Rongfa Chen, Hua Yang, Qingqing Li,Zhilong Li, Huafeng Lu
1College of Mechanical Engineering, Yangzhou University, China,
ae-mail: Yihongzhao99@sina.com
Keywords: foam glass, manganese dioxide, macro morphology, microstructure, mechanical property
Abstract.
Reference [1]Tian Ying-liang,Zhao Fei,Zou Yu-lin,Wu Jun.
[9]TIAN Ying-liang,ZHANG Lei,GU Zhen-hua,SUN Shi-bing,LUO Hong-yan.Development and Technology of Foam Glass at Home and Abroad[J].
Reference [1]Tian Ying-liang,Zhao Fei,Zou Yu-lin,Wu Jun.
[9]TIAN Ying-liang,ZHANG Lei,GU Zhen-hua,SUN Shi-bing,LUO Hong-yan.Development and Technology of Foam Glass at Home and Abroad[J].
Online since: January 2014
Authors: Zhao Hui Zhang, Fu Cai Zhao, Wei Ming Kong, Xi Dong Xie
[2] Zongwang Zhang, Xuan Wu, Shichao Chen, Zhenting Guo, Huajun Yang, Gang Chen.
[4] Zhengjian Liu, Guangqing Yang, Qingguo Xue.
[6] Baoxiang Yang.
[16] Maoming Tian, Dajun Tang, Qi Zhang, Huidong Qiu, Zhili Yang, Guangjun Zhu.
[18] Yunmin Wang, Jiayin Tian, Huajun Wang, etc.
[4] Zhengjian Liu, Guangqing Yang, Qingguo Xue.
[6] Baoxiang Yang.
[16] Maoming Tian, Dajun Tang, Qi Zhang, Huidong Qiu, Zhili Yang, Guangjun Zhu.
[18] Yunmin Wang, Jiayin Tian, Huajun Wang, etc.
Online since: April 2012
Authors: Gang Liu, Cong Bin Fan, Xue Li
Tian, S.
Yang: J.
Tian, B.Z.
Tian, Chem.
Yang: J.
Tian, B.Z.
Tian, Chem.
Online since: June 2012
Authors: Heng Li, Kai Peng Shi, Yu Li Tian, He Yang
Experimental Study on Bendability of Thin-walled 6061-T4 Tube under Different Bending Velocities
Heng Lia, He Yang b, Yuli Tian c and Kaipeng Shid
State Key Laboratory of Solidification Processing,
Northwestern Polytechnical University, Xi’an, 710072, China
aliheng@nwpu.edu.cn, byanghe@nwpu.edu.cn, ctianyuli@mail.nwpu.edu.cn, dskpgxgz@mail.nwpu.edu.cn
Keywords: Bendability, 6061-T4 Al-alloy tube, Bending velocity, Experiments, Defects
Abstract: The larger bending velocity is needed in practice to improve efficiency of tube bending, however, whether it has undesired effects on bending behavior has not been identified and clarified.
By using explicit finite element (FE) simulation combined with physical experiment, Yang et al. [4] explored effects of friction on tube bending, and found that the friction conditions of tube-tools interface affects stress/strain distribution in tube bending significantly.
Yang, H.
Yang, M.
By using explicit finite element (FE) simulation combined with physical experiment, Yang et al. [4] explored effects of friction on tube bending, and found that the friction conditions of tube-tools interface affects stress/strain distribution in tube bending significantly.
Yang, H.
Yang, M.
Online since: April 2012
Authors: Shou Zhi Pu, Ren Jie Wang, Shi Qiang Cui
Tian and S.J.Yang: Chem.
Tian: Tetrahedron Lett.
Yang: J.
Tian: Tetrahedron Lett.
Yang: J.
Online since: December 2012
Authors: Yu Zeng Zhang, Shan Chai, Xue Jian Jiao
[5] ZHU Kun, ZOU Xiang-yang, WANG Xiao-tian.
[8] ZOU Xiang-yang, WANG Xiao-tian, etc.
[8] ZOU Xiang-yang, WANG Xiao-tian, etc.
Online since: January 2014
Authors: Chang Tao Sha, Gang Zhao, Ke Wang, Jin Song Kan, Fei Zhao
Tian, D.S.
Yang, J.M.
Tian, D.S.
Yang, J.M.
Yang, J.M.
Tian, D.S.
Yang, J.M.
Online since: February 2014
Authors: Jian Bin Zhang, Shu Jun Zang, Juan Juan Li
The paper about the master degree
[2] Li Zheng-rong, Ma Chun-lei, Tian Su-gui, Chen Li-qin, Liu Xiang-hua.
Journal of materials science and engineering, 03, (2012) [3] Liu Yang, Wang Lei, He Si-si, Feng Fei, Lv Xu-dong, Zhang Bei-jiang.
Journal of metal, 01, (2012) [4] Tian Su-gui, Li Zheng-rong, Zhao Zhong-gang, Chen Li-qing, Liu Xiang-hua.
Materials engineering, 10, (2012) [5] Bian Fang, Su Guo-yue, Kong Ya-fan, Yang Ke.
Journal of materials science and engineering, 03, (2012) [3] Liu Yang, Wang Lei, He Si-si, Feng Fei, Lv Xu-dong, Zhang Bei-jiang.
Journal of metal, 01, (2012) [4] Tian Su-gui, Li Zheng-rong, Zhao Zhong-gang, Chen Li-qing, Liu Xiang-hua.
Materials engineering, 10, (2012) [5] Bian Fang, Su Guo-yue, Kong Ya-fan, Yang Ke.
Online since: May 2014
Authors: Wei Li
Synergid degeneration plays important functions in angiosperms fertilization (Ge & Tian, 2006).
Previous studies reported synergid degeneration (Jensen, 1965; Jensen & Fisher, 1968; Schulz & Jensen, 1968; Mogensen, 1972; You & Jensen, 1985; Bruun, 1987; Dong & Yang, 1989; Dute et al., 1989) and summarized the degeneration time and potential functions of synergids in different plants (Yang, 1994; Hu, 2005).
The synergids of some plant species such as wheat (You & Jensen, 1985), rice (Dong & Yang, 1989) and sugar beet (Bruun, 1987) started to degenerate before pollination; in contrast, for most of plant species including oak (Mogensen, 1972), soybean (Dute et al., 1989), and upland cotton (Jensen & Fisher, 1968), etc., the degeneration of the synergids occurred during the end of pollination and before pollen tubes reaching the embryo sac.
Synergid is a key step in the process of pollen fertilization and plays important functions in plant physiology (Ge & Tian, 2006).
Yang. 1989.
Previous studies reported synergid degeneration (Jensen, 1965; Jensen & Fisher, 1968; Schulz & Jensen, 1968; Mogensen, 1972; You & Jensen, 1985; Bruun, 1987; Dong & Yang, 1989; Dute et al., 1989) and summarized the degeneration time and potential functions of synergids in different plants (Yang, 1994; Hu, 2005).
The synergids of some plant species such as wheat (You & Jensen, 1985), rice (Dong & Yang, 1989) and sugar beet (Bruun, 1987) started to degenerate before pollination; in contrast, for most of plant species including oak (Mogensen, 1972), soybean (Dute et al., 1989), and upland cotton (Jensen & Fisher, 1968), etc., the degeneration of the synergids occurred during the end of pollination and before pollen tubes reaching the embryo sac.
Synergid is a key step in the process of pollen fertilization and plays important functions in plant physiology (Ge & Tian, 2006).
Yang. 1989.