[1] Yang Ming, Yang Ping, Ji Genlin, et al. Fast FP-Growth for association rule mining [J]. Journal of Southeast University (English Edition), 2003, 19 (4): 320-323. [doi:10.3969/j.issn.1003-7985.2003.04.004]

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Fast FP-Growth for association rule mining()

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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:

19

Issue:

2003 4

Page:

320-323

Research Field:

Computer Science and Engineering

Publishing date:

2003-12-30

Info

Title:

Fast FP-Growth for association rule mining

Author(s):

Yang Ming¹;  2;  Yang Ping³;  Ji Genlin²;  Sun Zhihui²

¹Department of Computer Science and Engineering, Auhui University of Technology and Science, Wuhu 241000, China
²Department of Computer Science and Engineering, Southeast University, Nanjing 210096, China
³Departme

Keywords:

data mining;  frequent itemsets;  association rules;  frequent pattern tree(FP-tree)

PACS:

TP311

DOI:

10.3969/j.issn.1003-7985.2003.04.004

Abstract:

In this paper, we propose an efficient algorithm, called FFP-Growth(short for fast FP-Growth), to mine frequent itemsets. Similar to FP-Growth, FFP-Growth searches the FP-tree in the bottom-up order, but need not construct conditional pattern bases and sub-FP-trees, thus, saving a substantial amount of time and space, and the FP-tree created by it is much smaller than that created by TD-FP-Growth, hence improving efficiency. At the same time, FFP-Growth can be easily extended for reducing the search space as TD-FP-Growth(M)and TD-FP-Growth(C). Experimental results show that the algorithm of this paper is effective and efficient.

References:

[1] Agrawal R, Imielinski T, Swami A. Mining association rules between sets of items in large database [A]. In: Proc of the
　　ACM SIGMOD Int Conf on Management of Data[C]. Washington DC, 1993. 207-216.
[2] Agrawal R, Srikant R. Fast algorithms for mining association rules [A]. In: Proc of the 20th Int Conf Very Large Data Bases [C]. Santiago, Chile, 1994. 487-499.
[3] Han J W, Pei J, Yin Y. Mining frequent patterns without candidate generation [A]. In: Proc of the 2000 ACM SIGMOD Intl Conf on management of data [C]. Dallas, 2000.1-12.
[4] Han J W, Pei J, Yin Y. Mining partial periodicity using frequent pattern trees [R]. Canada: Simon Fraser University, Computing Science Technical Report: TR-99-10, 1999.
[5] Srikant R, Agrawal R. Mining generalized association rules [A]. In: Proc of the 21st Int Conf on Very Large DataBases [C]. Zurich, Switzerland, 1995. 407-419.
[6] Srikant R, Yu Q, Agrawal R. Mining association rules with item constraints [A]. In: Proc of the KDD[C]. Newport Beach, CA, 1997. 67-73.
[7] Liu B, Hsu W, Ma Y. Mining association rules with multiple minimum supports [A]. In: Proc of ACM SIGKDD [C]. San Diego, CA, 1999.337-341.
[8] Wang K, He Y, Han J W. Mining frequent itemsets using support constraints [A]. In: Proc Int Conf on Very Large Data Bases [C]. Cairo, 2000. 43-52.
[9] Wang K, Tang L, Han J W, et al. Top down FP-Growth for association rule mining [A]. In: Proc of the 6th Pacific Area Conf on Knowledge Discovery and Data Mining [C]. Taipei, 2002.

Memo

Memo:

Biography: Yang Ming(1964—), male, graduate, professor, yangming@seu.edu.cn.

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