Chen Ma, Jin Li, and Dongyang Wang


  1. [1] Reports in the 16th National CPC Congress, http://baike. baidu.com/link?url=zoLJs51pnE2GUF2rVyU4CHJsqO7ljfB4 XWIpYmSPY-JiKuaoqHjBZiPylP0TopS_cWXNcNLT-wOgH 0v7jN_zoqEz3mtvQEWnsEHJhh0e1Ny
  2. [2] F. Machlup, The Production and distribution of knowledge in the United States (Princeton, NJ: Princeton University Press, 1962).
  3. [3] F. Machlup, Information economics (Beijing: China Outlook Press, 1987).
  4. [4] W. Xihe, Comparison and analysis of four methods of measuring social information, Researches in Library Science, 2008, 10(03), 12–14.
  5. [5] China Science and Technology Development Research Center, Informatization – the mission of history (Beijing: Publishing House of Electronics Industry, 1987).
  6. [6] L. Shihong, Research on the theory and method of information evaluation in rural areas of China (Beijing: Chinese Academy of Agricultural Sciences, 2008).
  7. [7] C. Chunhui, Regional informatization index system and evaluation methods, Statistics and Decision, 32(2), 2003, 10–13.
  8. [8] A.P. Nugroho, T. Okayasu, E. Inoue, Y. Hirai, and M. Mitsuoka, Development of actuation framework for agricultural informatization supporting system, IFAC Proceedings Volumes, 46(4), 2013, 181–186.
  9. [9] C. Liu, The myth of informatization in rural areas: The case of China’s Sichuan province, Government Information Quarterly, 29(1), 2012, 85–97.
  10. [10] C. Ting and F. Yi, ICT policy for the “socialist new countryside —A case study of rural informatization in Guangdong, China, Telecommunications Policy, 37(8), 2013, 626–638.
  11. [11] Y. Xu, F-Q. Niu, L. Bergmann, Z.Q. Wang, J. Wang, A dairy industry information cooperative service system based on a production process ontology, Journal of Integrative Agriculture, 11(5), 2012, 839–848.
  12. [12] J. Wenshen, P. Ligang, Q. Yuange, W. Jihua, and W. Wenfu, Agro-food farmland environmental monitoring techniques and equipment, Procedia Environmental Sciences, 24(10), 2011, 2247–2255.
  13. [13] Y. Liu, L. Jiao, Y. Liu, and J. He, A self-adapting fuzzy inference system for the evaluation of agricultural land, Environmental Modelling & Software, 40, 2013, 226–234.
  14. [14] A. Allam, A. Fleifle, A. Tawfik, C. Yoshimura, and A. El-Saadi, A simulation-based suitability index of the quality and quantity of agricultural drainage water for reuse in irrigation, Science of The Total Environment, 536, 2015, 79–90.
  15. [15] S.W. Xu, G.Q. Li, and Z.M. Li, China agricultural outlook for 2015–2024 based on China Agricultural Monitoring and Earlywarning System (CAMES), Journal of Integrative Agriculture, 14, 2015, 1889–1920.
  16. [16] F. Rahmanipour, R. Marzaioli, H.A. Bahrami, Z. Fereidouni, and S.R. Bandarabadi, Assessment of soil quality indices in agricultural lands of Qazvin Province, Iran, Ecological Indicators, 40, 2014, 19–26.
  17. [17] Z. Ahmad and M. Jun, Agricultural production structure adjustment scheme evaluation and selection based on DEA Model for Punjab (Pakistan), Journal of Northeast Agricultural University (English Edition), 22(2), 2015, 87–91.
  18. [18] X. Wang, J. Shen, and W. Zhang, Energy evaluation of agricultural sustainability of Northwest China before and after the grain-for-green policy, Energy Policy, 67, 2014, 508–516.
  19. [19] J. Xia and T-J. Lu, Bridging the digital divide for rural communities: The case of China, Telecommunications Policy, 32(9), 2008, 686–696.
  20. [20] G.U. Chaolin, W.U. Liya, and I. Cook, Progress in research on Chinese urbanization, Frontiers of Architectural Research, 1(2), 2012, 101–149.
  21. [21] C-W. Su, T-Y. Liu, H-L. Chang, and X-Z. Jiang, Is urbanization narrowing the urban-rural income gap? A cross-regional study of China, Habitat International, 48, 2015, 79–86.
  22. [22] Y. Li, X. Wang, Q. Zhu, and H. Zhao, Assessing the spatial and temporal differences in the impacts of factor allocation and urbanization on urban–rural income disparity in China, 2004–2010, Habitat International, 42, 2014, 76–82.

Important Links:

Go Back