
2019 , Vol. 1 >Issue 3: 56 - 66
DOI: https://doi.org/10.12133/j.smartag.2019.1.3.201906-SA005
Research on the application of multi-source agricultural land spatial data for "Two-Zone" demarcation
Received date: 2019-06-11
Request revised date: 2019-07-21
Online published: 2019-08-23
Copyright
The basis and premise of developing intelligent agriculture is digitization, especially digitization of agricultural land resources utilization, agricultural land ownership, agricultural production and other agricultural elements. At present, China's agriculture digitization is at a low level, the spatial information of agricultural land resources are applied few. It is necessary to accelerate the application of the big data with respect to agricultural land for agricultural production information collecting and agricultural policy implementing to promote the development of China's intelligent agriculture. One typical case is "food production function zone" and "important agricultural product production protection zone"(Two-Zone) demarcation. In order to realize the study on the technologies of "Two-Zone" demarcation, in this research, the following work was conducted . Firstly, the basic concept of the multi-source spatial data with respect to agricultural land was elaborated, and the existing multi-source spatial data with respect to agricultural land were summarized into four categories. Then, the workflows of "Two-Zone" demarcation was summed up. Considering the topological requirements of digital mapping for "Two-Zone" and the business requirements of intelligent management for agricultural production in "Two-Zone", a three-level spatial structure of "zone-patch-plot" was designed for "Two-Zone" demarcation. The key technology of digital mapping was proposed, based on the analysis of the functions of "Two-Zone" and the "zone-patch-plot" spatial structure, which integrate existing multi-source farmland spatial data depending on the relevance of spatial distribution and semantic attributes and then realize "Two-Zone"'s spatial distribution map at a specific spatial scale. The key technology of establishing the database for "Two-Zone" demarcation was also proposed, which realizes the abstraction of the geographical space entity delimited by "Two-Zone" from the perspective of spatial information structure. Therefore, the key technologies of "Two-Zone" demarcation based on multi-source agricultural land spatial data was scientifically designed, through the key work such as data acquisition, digital mapping and database construction. Finally, the key scientific problems in the technical links were extracted, which shown that "Two-Zone" demarcation requires a comprehensive consideration of data sources and user requirements, and it is necessary to analyze the availability of data with respect to multi-source agricultural land, decreasing the influence derived from the bias and partial loss of data with respect to multi-source agricultural land. Further consideration about statuses of the land use and crop planting in the farmland of "Two-Zone" is also needed. This study will provide a basic support for the intelligent management of agricultural land resources in the "Two-Zone".
Key words: "Two-Zone" demarcation; multi-source; agricultural land; spatial data; mapping; E-R model
YOU Jiong , PEI Zhiyuan , WANG Fei . Research on the application of multi-source agricultural land spatial data for "Two-Zone" demarcation[J]. Smart Agriculture, 2019 , 1(3) : 56 -66 . DOI: 10.12133/j.smartag.2019.1.3.201906-SA005
[1] |
中华人民共和国中央人民政府. 国务院关于印发全国农业现代化规划(2016-2020年)的通知(国发[2016] 58号)[EB/OL]. ( 2016- 10- 20) [2019-7-20].
|
[2] |
刘海启 . 加快数字农业建设为农业农村现代化增添新动能[J]. 中国农业资源与区划, 2017,38(12):1-6.
|
[3] |
周清波, 吴文斌, 宋茜 . 数字农业研究现状和发展趋势分析[J]. 中国农业信息, 2018,30(1):1-9.
|
[4] |
赵春江 . 智慧农业发展现状及战略目标研究[J]. 智慧农业, 2019,1(1):1-7.
|
[5] |
石淑芹, 曹玉青, 吴文斌 , 等. 耕地集约化评价指标体系与评价方法研究进展[J]. 中国农业科学, 2017,50(7):1210-1222.
|
[6] |
|
[7] |
赵虎, 裴志远 . 农村土地承包经营权调查中面积精度问题分析[J]. 农业工程学报, 2016,32(18):241-246.
|
[8] |
中央政府门户网站. 中共中央国务院关于落实发展新理念加快农业现代化实现全面小康目标的若干意见[EB/OL]. ( 2016- 01- 27) [2019-07-20]. http://www.gov.cn/zhengce/2016-01/27/content_5036698.htm.
|
[9] |
中华人民共和国中央人民政府. 中共中央国务院关于深入推进农业供给侧结构性改革加快培育农业农村发展新动能的若干意见[EB/OL]. ( 2017- 02- 05) [2019-07-20]. http://www.gov.cn/zhengce/2017-02/05/content_5165626.htm.
|
[10] |
中华人民共和国中央人民政府. 国务院关于建立粮食生产功能区和重要农产品生产保护区的指导意见(国发[2017] 24号)[EB/OL]. ( 2017- 04- 10) [2019-07-20]. http://www.gov.cn/zhengce/content/2017-04/10/content_5184613.htm.
|
[11] |
中华人民共和国国土资源部. 基本农田划定技术规程: TD/T 1032-2011[S]. 北京: 中国质检出版社, 2011: 6.
Ministry of Natural Resources of the People’s Republic of China. Guideline for designation of capital farmland: TD/T 1032-2011[S]. Beijing: China Quality and Standards Publishing & Media Co., Ltd, 2011: 6.
|
[12] |
汪西林, 胡娈运 . 基本农田规划决策支持:模型构建与系统研发[J]. 生态环境学报, 2017,26(10):1689-1695.
|
[13] |
马世发, 吴楷钊, 劳春华 , 等. 永久基本农田保护片区智能识别系统iZone的建立与应用[J]. 农业工程学报, 2017,33(2):276-282.
|
[14] |
曹丽萍, 罗志军, 冉凤维 , 等. 基于耕地质量和空间集聚格局的县域基本农田划定[J]. 水土保持研究, 2018,25(4):349-355, 364.
|
[15] |
中华人民共和国农业部. 农村土地承包经营权调查规程: NY/T 2537-2014[S]. 北京: 中国农业出版社, 2014.
The Ministry of Agriculture of the People's Republic of China. Investigation code of practice for the right to rural land contractual management: NY/T 2537-2014[S]. Beijing: China Agriculture Press, 2014.
|
[16] |
薛春璐, 郭琳, 胡华浪 , 等. 农地确权成果在耕地景观格局分析中的应用[J]. 农业工程学报, 2016,32(20):242-249.
|
[17] |
王运动 . 农用地承包经营权抵押登记系统平台设计[D]. 天津: 天津大学, 2013.
|
[18] |
农业部国土资源部国家发展改革委关于做好粮食生产功能区和重要农产品生产保护区划定工作的通知[Z]. 农计发[2017] 99号, 2017 -06-05.
|
[19] |
中华人民共和国国土资源部. 土地利用数据库标准: TD/T 1016-2007[S]. 2007.
Ministry of Natural Resources of the People’s Republic of China. Standard for land use database: TD/T 1016-2007[S]. 2007.
|
[20] |
中华人民共和国国土资源部. 基本农田数据库标准: TD/T 1019-2009[S]. 北京:中国质检出版社, 2009.
Ministry of Natural Resources of the People’s Republic of China. Standard for prime cultivated land database: TD/T 1019-2009[S]. Beijing: China Quality and Standards Publishing & Media Co., Ltd, 2009.
|
[21] |
中华人民共和国农业部. 农村土地承包经营权确权登记数据库规范: NY/T 2539-2016[S]. 北京:中国农业出版社, 2016.
The Ministry of Agriculture of the People's Republic of China. Specification for registration database of the right to rural land contractual management: NY/T 2539-2016[S]. Beijing: China Agriculture Press, 2016.
|
[22] |
农业部. 关于印发《粮食生产功能区和重要农产品生产保护区划定数据库规范(试行)》的通知[Z]. 农计发[2018] 2号. 2018 -01-17.
|
[23] |
陈旭帅, 范冲 . 基于移动GIS的农户调查系统设计与实现[J]. 测绘与空间地理信息, 2018,41(4):177-180.
|
[24] |
陈拾娇 . 精准扶贫目标下赣南农地流转经营的耦合协调研究[D]. 南昌: 江西农业大学, 2016.
|
[25] |
魏保峰, 李国柱, 倪曙 , 等. 2000 国家大地坐标与城市平面坐标转换方法的研究[J]. 测绘通报, 2016(1):57-61.
|
[26] |
王托弟, 赵灵军, 王力哲 , 等. 等量弧段划分并行缓冲区算法的优化[J]. 遥感信息, 2016,31(4):147-152.
|
[27] |
周尚意, 朱阿兴, 邱维理 , 等. 基于GIS的农用地连片性分析及其在基本农田保护规划中的应用[J]. 农业工程学报, 2008,24(7):72-77.
|
[28] |
邵亚 . 基于Geodatabase的土地利用空间数据库建库研究——以潜江市为例[D]. 武汉: 华中农业大学, 2007.
|
[29] |
武芳, 王泽根, 蔡忠亮 , 等. 空间数据库原理[M], 武汉: 武汉大学出版社, 2017.
|
[30] |
陈勇, 宋关福, 钟耳顺 . 基于可视化建模思想的空间数据库自动化建库技术研究[J]. 测绘通报, 2006(12):54-56.
|
[31] |
张龙, 王新庆 . 基于数据字典的空间数据库通用建库技术[J]. 国土资源遥感, 2014,26(1):173-178.
|
[32] |
|
[33] |
王家耀, 武芳, 郭建忠 , 等. 时空大数据面临的挑战与机遇[J]. 测绘科学, 2017,42(7):1-7.
|
[34] |
|
[35] |
王忠美, 顾行发, 杨晓梅 . 基于边界指导光谱聚类高分辨遥感图像分割[C]. 第四届高分辨率对地观测学术年会. 武汉, 2017: 1166-1174.
|
[36] |
李姗姗, 陈莉, 张永新 , 等. 结合四元数与最小核值相似区的边缘检测[J]. 中国图像图形学报, 2017,22(7):915-925.
|
/
〈 |
|
〉 |