1. Access to and Add Value of Archived Data - Methodology of Data Integration and Mining for 1:1M Land Type Mapping of China Prof. Liu Chuang Prof. Shen Yuancen Global Change Information and Research Center IGSNRR/Chinese Academy of Sciences PPF-WSIS Phase II, 14 November 2005, Tunis

2. 1 China’s Scientific Data Sharing Program 2 Opportunities and Challenges: Access to and Add Value of the Archived Data 3 Methodology of Adding Value of Archived Data 4Example: 1:1M Land Type Mapping of China

3. 1China’s Scientific Data Sharing Program China has an implementation program in enhancing open access to scientific data, a national long-term (2005-2020) program: Scientific Data Sharing Program (SDSP) which is initialed in 2003 About 40 data centers, 300 major databases covering almost all of the basic sciences will be long term supported, a series of data policies and data standards will be established to meet the needs of open access to the archived data.

4. Besides, e-Government programs in agencies of China and e-Sciences program in CAS will promote the scientific data sharing program greatly. For example, the quick response system of water resources management system.

6. About 250 TB data archived with the standard or near standard manners in China (June 2005)

7. 2 Opportunities and Challenges: Access to and Add Value of the Archived Data The progress makes great opportunities for scientists in research: the location of data the way to access free or low costs

8. Two Major Challenges in China: Preservation and open access: more stable, more open, more fast, more easy and more low cost in services, which is a long way to go Add Value: new methodology in data integration and mining, which is a new way to be created

9. 3 Methodology of Adding Value of Archived Data The value of scientific data can be divided into: value for scientific research value for social benefit value for economic income

10. Relationship between data value and data integration/mining Dataset 1 Dataset 2 Dataset 3 time value

11. Reference Hierarchical Model for Data Integration and Data Mining data model knowledge Data Selection Data Integration Object Simulating Cal/Val Computational Process Distributed Information Infrastructure Innovated Ideas/Society Needs

12. Data Selection: two important issues in this stage (1) how to select the necessary data among the distributed data holders in order to meet the need of modeling for a specific objective (2) how to determine the weights of each selected datasets

13. Data Integration: one issue, very difficult issue, in this stage has to be solved - making the selected datasets compatible including data standard, termination, definition, format, unit, resolution, time period, method of capture the data ….

14. Object simulating: two issue, the critical issues, in this stage need to be solved - establish a relationship between the datasets selected (model) - determine the parameters in the model

15. Cal/Val for the new dataset: How the new dataset quality could be: - how quality is or what conditions the new dataset or knowledge could be high quality? - Are there any way to help the dataset quality enough?

16. New knowledge/new dataset created go to publication and data archiving process

17. Reference Hierarchical Model for Data Integration and Data Mining data model knowledge Data Selection Data Integration Object Simulating Cal/Val Computational Process Distributed Information Infrastructure Innovated Ideas/Society Needs

18. Example: Data Integration and Mining for 1:1M Land Type Mapping of China

19. Land type research and 1:1M mapping in China There is a long history in China in land type studies, the earlier record in 170 BC, identified the China land into 9 types. The most resent land type studies in 1:1M mapping started in 1987, the first land type classification system for 1:1M mapping of China created in 1990 led by Prof. Zhao Songqiao. landtypeclaSytemChina.doclandtypeclaSytemChina.doc

20. The stage of completed part of the 1:1M Land Type Map of China

21. Datasets ： The datasets used in this paper include: (1) Climate datasets in more than 600 climate stations from CMA (2) Soil map in 1:1M from CAS (3) MODIS-NDVI/EVI, 250m, 1kmresolution, 16-day and 10 days composite 2002, from NASA and CAS (4) MODIS-NDSI, 1 km resolution, 10 days and monthly composite 2002, from CAS (5) SRTM in 90 Meters in USGS and DEM in 1:250k from Geomatic Center of China (6) Ground truth survey datasets in Northeast China, Inner Mongolia, Tibet, Gansu, Zhejiang, Guizhou … (7) historical records including documentation and maps from CAS (8) yearbooks of agriculture and land use from Statistic Bureau of China

22. MODIS-NDVI 16-days composite datasets, 2002, 1km Field sites

23. NDVI = (MODIS2-MODIS1)/ (MODIS2+MODIS1) EVI = 2.5*(MODIS2-MODIS1)/(MODIS2+6*MODIS1- 7.5*MODIS3+1) NDSI = (MODIS4-MODIS6)/(MODIS4+MODIS6)

24. Forest (Betula) 0  NDVI  0.83 Single peak Location: Far East Russia and Daxingan Mountain in Helongjian Province

25. Location: Great Hinggan Mt. Forest (Larix+Betula, up) Meadow steppe (down)

26. Location: Huang-Huai-Hai Plain Rotated crops land with winter wheat and maize

27. Location: North Korea Forest (purple) Rice (white)

28. Wetland (reed) 0  NDVI  0.53 0  EVI  0.42 Location: Yellow River Delta

29. Temperate Meadow 0  NDVI  0.6 Temperate Meadow 0  NDVI  0.8 Temperate Steppe 0  NDVI  0.4 Temperate Steppe 0  NDVI  0.6 Location: Xilingol, Inner Mongolia

30. Temperate Desert 0  NDVI  0.25 Temperate Desert Steppe 0  NDVI  0.2 Sand Steppe 0  NDVI  0.45 Sand Steppe 0  NDVI  0.35 Location: Xilingol, Inner Mongolia

31. Location: Coastal area in Northern Jiangsu province Wetland 0  NDVI  0.52 0  EVI  0.35

32. Location: Qinghai Province Alpine Meadow

33. Gobi in arid region in northwestern China Location: MinQin County, Gansu Province Gobi

34. Location: MinQin County (Oasis), Gansu Province Spring Wheat Crop Land

35. June 2001 April 2001 August 2001 Location: Gongbujiangda area located at the Eastern Tibet

36. Location: Nyainqntanglha Mountains NDSI >0.4 and MODIS2 > 0.11 Up left: Feb.2002 Up right: June 2002 Down left: Sep. 2002

37. Conclusion: The reference Hierarchical mode of data integration and mining is very important for innovated knowledge development, the computational science plays a critical role in the new methodology. The new methodology in data integration and mining will take China land type studies into a new milestone.

38. Thank you !