Research on Rough Set Applied in the Geological Measure Data Prediction Model

Zheng Shan Luo; Ya Ting Wei

doi:10.4028/www.scientific.net/AMR.457-458.792

Paper Titles

Robust Autopilot Design for Unmanned Underwater Vehicle Based on H∞ Mixed Sensitivity
p.764

Some Thoughts on Strong Unforgeability in Ring Signature Schemes
p.773

Measurement of LED Spatial Intensity Distribution Using Imaging
p.780

Research on IOT Technology and IOT’s Application in Urban Agriculture
p.785

Research on Rough Set Applied in the Geological Measure Data Prediction Model
p.792

Solution to a Class of Matrix Equations with k-Involutary Symmetrices
p.799

Slag Thickness in Continuous Casting Tundish Measuring Method Based on Temperature Information
p.804

Turnover Rate and Speculative Bubble: Empirical Study on A-H Share of Dual-Listed Companies
p.810

Macroporous ZnO Nanofilms and its Electrochemical Hydrogen Storage Ability
p.815

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 457-458Research on Rough Set Applied in the Geological...

Research on Rough Set Applied in the Geological Measure Data Prediction Model

Abstract:

Mine geological factors involved in measuring systems are very complex, large amount of data and attribute more. In actual measurement, due to the precision of measuring instruments and measurement operations personnel and other reasons, the data is inevitably flawed, and then has the subsequent impact of the design, production and management. With intelligent technology and development of computer science, mine has an increasingly high demand of geologic measure data and there are more and more methods to deal with the data. In this paper, rough set theory is applied by analyzing the characteristics of geological measure data and the structure of the database, the corresponding model is established, the uncertainty is found from the database of knowledge and abnormal data, and geological measure dataand the noise in the process of knowledge discovery interference is eliminated. As rough set method is easy to execute in parallel, without any prior knowledge of data and automatically select the appropriate set of attributes, can greatly improve the efficiency of knowledge discovery, get rid of excess property, reduce error rates, then has more advantages in processing the mass of the geological measure data and mining a more realistic data than fuzzy sets and neural network method. In addition, it is easier to be proven and tested in the resulting decision rules and reasoning processes than the latter neural network method are, and the results obtained is more easily evaluated and interpreted. Thus, using rough sets to mine the geologic measure data and find the knowledge hidden in the data, and then make the forecast analysis and decision-support for mine production and management, which is more practical.

You might also be interested in these eBooks

Advanced Materials and Engineering Materials

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 457-458)

Pages:

792-798

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.457-458.792

Citation:

Cite this paper

Online since:

January 2012

Authors:

Zheng Shan Luo, Ya Ting Wei

Keywords:

Geological Measure Data, Mine, Mining, Predictive Analysis, Rough Set (RS)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Qiao Changlu. 3D CAD system to measure [D]. Master thesis, Xi'an University of Architecture and Technology 2004. 6. 26-44.

Google Scholar

[2] Jiang Longjian, Wang Bin, Wang Guozhong. Mine geological profile of the Automatic Conversion System Level Study and Application [J]. Metal Mine, 2001 (2) 51 ~ 53.

Google Scholar

[3] Ren Hongwang, Data Mining Based on Rough Set Model and Its Application [D]. Dalian Maritime University, 2003 (2) 22-30.

Google Scholar

[4] Wu Hao, Rough Set Based Knowledge Discovery System and its application in agricultural information system [D]. Xi'an Jiaotong University School of Management, 2001 (3) 14-18.

Google Scholar

[5] Ruppel, Timothy H. Generating acoustic provinces for the U.S. Navy's low frequency bottom loss database using geographic information systems. (Acoustic Modeling and Database Division, Acoustic Analysis Branch, Naval Oceanographic Office, Stennis Space Center, MS 39522, United States) MTS/IEEE Biloxi - Marine Technology for Our Future: Global and Local Challenges, OCEANS 2009, 25-29.

DOI: 10.23919/oceans.2009.5422440

Google Scholar

[6] Brtka, Vladimir; Berkovic, Ivana; Stokic, Edith; A comparison of rule sets generated from databases by indiscernibility relation - A rough sets approach. ICCP 2007 Proceedings IEEE 3rd International Conference on Intelligent Computer Communication and Processing, 279-282.

DOI: 10.1109/iccp.2007.4352177

Google Scholar

[7] Wu, Cheng-Dong; Xu, Ke; Han, Zhong-Hua; Approach to data mining based on rough sets and decision tree. Dongbei Daxue Xuebao /Journal of Northeastern University, 2006(5) v 27, n 5, 481-484.

Google Scholar

[8] Chou, Hung-Lieh; Chen, Jr-Shian; Global discretization approach based on minimize entropy in rough sets classification. Proceedings - 2008 2nd International Symposium on Intelligent Information Technology Application, IITA 2008, v 1, 889-893.

DOI: 10.1109/iita.2008.485

Google Scholar

[9] Zhang Xiu, Wu Wei Zhi, Liang Ji industry. Rough set theory and method [M]. Science Press, 2001 (7) 6-8.

Google Scholar

[10] Huang Xiaoming. Engineering measure and data management and preparation of the Microcomputer maps [J]. Engineering Geology of Computer Applications (Web: geocom. hhcc. net. cn/magz/wk0202/6. htm), 2002 (5) . 16 -19.

Google Scholar

[11] Li Cuiping, Li Zhongxue, Zhao Guangwen, Deposit volume visualization and simulation system framework [J]. Metal Mine, 2001 (10) 44 ~ 48.

Google Scholar

[12] Li Cuiping, Li Zhongxue, Hu Nailian. Deposits in the body as the rules of a body of data generation method for spatial [J]. Li of Beijing University, 2002 (6) 589 ~ 592.

Google Scholar

[13] BLGibbs, Review of Modelling Techniques in commerical Reserves Evaluation Software [A] . 22 th APCOM , 1990. 236-239.

Google Scholar

[14] Li Kuixian, Songgui Qiu, Zhang Dong, Liu Yansong. BP Neural Network in Prediction of product quality [J]. Northeastern University (Natural Science), 2001, 682 ~ 684.

Google Scholar

[15] Jin Wei, Sun Yan. Web information retrieval technology in the application of association rule mining algorithm [J]. Information Science, 2007 (01) 39-42.

Google Scholar