• 제목/요약/키워드: Tree mining

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PPFP(Push and Pop Frequent Pattern Mining): A Novel Frequent Pattern Mining Method for Bigdata Frequent Pattern Mining (PPFP(Push and Pop Frequent Pattern Mining): 빅데이터 패턴 분석을 위한 새로운 빈발 패턴 마이닝 방법)

  • Lee, Jung-Hun;Min, Youn-A
    • KIPS Transactions on Software and Data Engineering
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    • v.5 no.12
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    • pp.623-634
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    • 2016
  • Most of existing frequent pattern mining methods address time efficiency and greatly rely on the primary memory. However, in the era of big data, the size of real-world databases to mined is exponentially increasing, and hence the primary memory is not sufficient enough to mine for frequent patterns from large real-world data sets. To solve this problem, there are some researches for frequent pattern mining method based on disk, but the processing time compared to the memory based methods took very time consuming. There are some researches to improve scalability of frequent pattern mining, but their processes are very time consuming compare to the memory based methods. In this paper, we present PPFP as a novel disk-based approach for mining frequent itemset from big data; and hence we reduced the main memory size bottleneck. PPFP algorithm is based on FP-growth method which is one of the most popular and efficient frequent pattern mining approaches. The mining with PPFP consists of two setps. (1) Constructing an IFP-tree: After construct FP-tree, we assign index number for each node in FP-tree with novel index numbering method, and then insert the indexed FP-tree (IFP-tree) into disk as IFP-table. (2) Mining frequent patterns with PPFP: Mine frequent patterns by expending patterns using stack based PUSH-POP method (PPFP method). Through this new approach, by using a very small amount of memory for recursive and time consuming operation in mining process, we improved the scalability and time efficiency of the frequent pattern mining. And the reported test results demonstrate them.

I-Tree: A Frequent Patterns Mining Approach without Candidate Generation or Support Constraint

  • Tanbeer, Syed Khairuzzaman;Sarkar, Jehad;Jeong, Byeong-Soo;Lee, Young-Koo;Lee, Sung-Young
    • Annual Conference of KIPS
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    • 2007.05a
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    • pp.31-33
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    • 2007
  • Devising an efficient one-pass frequent pattern mining algorithm has been an issue in data mining research in recent past. Pattern growth algorithms like FP-Growth which are found more efficient than candidate generation and test algorithms still require two database scans. Moreover, FP-growth approach requires rebuilding the base-tree while mining with different support counts. In this paper we propose an item-based tree, called I-Tree that not only efficiently mines frequent patterns with single database scan but also provides multiple mining scopes with multiple support thresholds. The 'build-once-mine-many' property of I-Tree allows it to construct the tree only once and perform mining operation several times with the variation of support count values.

A single-phase algorithm for mining high utility itemsets using compressed tree structures

  • Bhat B, Anup;SV, Harish;M, Geetha
    • ETRI Journal
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    • v.43 no.6
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    • pp.1024-1037
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    • 2021
  • Mining high utility itemsets (HUIs) from transaction databases considers such factors as the unit profit and quantity of purchased items. Two-phase tree-based algorithms transform a database into compressed tree structures and generate candidate patterns through a recursive pattern-growth procedure. This procedure requires a lot of memory and time to construct conditional pattern trees. To address this issue, this study employs two compressed tree structures, namely, Utility Count Tree and String Utility Tree, to enumerate valid patterns and thus promote fast utility computation. Furthermore, the study presents an algorithm called single-phase utility computation (SPUC) that leverages these two tree structures to mine HUIs in a single phase by incorporating novel pruning strategies. Experiments conducted on both real and synthetic datasets demonstrate the superior performance of SPUC compared with IHUP, UP-Growth, and UP-Growth+algorithms.

Frequent Patten Tree based XML Stream Mining (빈발 패턴 트리 기반 XML 스트림 마이닝)

  • Hwang, Jeong-Hee
    • The KIPS Transactions:PartD
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    • v.16D no.5
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    • pp.673-682
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    • 2009
  • XML data are widely used for data representation and exchange on the Web and the data type is an continuous stream in ubiquitous environment. Therefore there are some mining researches related to the extracting of frequent structures and the efficient query processing of XML stream data. In this paper, we propose a mining method to extract frequent structures of XML stream data in recent window based on the sliding window. XML stream data are modeled as a tree set, called XFP_tree and we quickly extract the frequent structures over recent XML data in the XFP_tree.

High Utility Pattern Mining using a Prefix-Tree (Prefix-Tree를 이용한 높은 유틸리티 패턴 마이닝 기법)

  • Jeong, Byeong-Soo;Ahmed, Chowdhury Farhan;Lee, In-Gi;Yong, Hwan-Seong
    • Journal of KIISE:Databases
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    • v.36 no.5
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    • pp.341-351
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    • 2009
  • Recently high utility pattern (HUP) mining is one of the most important research issuer in data mining since it can consider the different weight Haloes of items. However, existing mining algorithms suffer from the performance degradation because it cannot easily apply Apriori-principle for pattern mining. In this paper, we introduce new high utility pattern mining approach by using a prefix-tree as in FP-Growth algorithm. Our approach stores the weight value of each item into a node and utilizes them for pruning unnecessary patterns. We compare the performance characteristics of three different prefix-tree structures. By thorough experimentation, we also prove that our approach can give performance improvement to a degree.

Interpretation of Data Mining Prediction Model Using Decision Tree

  • Kang, Hyuncheol;Han, Sang-Tae;Choi, Jong-Ho
    • Communications for Statistical Applications and Methods
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    • v.7 no.3
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    • pp.937-943
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    • 2000
  • Data mining usually deal with undesigned massive data containing many variables for which their characteristics and association rules are unknown, therefore it is actually not easy to interpret the results of analysis. In this paper, it is shown that decision tree can be very useful in interpreting data mining prediction model using two real examples.

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Encoding of XML Elements for Mining Association Rules

  • Hu Gongzhu;Liu Yan;Huang Qiong
    • The Journal of Information Systems
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    • v.14 no.3
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    • pp.37-47
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    • 2005
  • Mining of association rules is to find associations among data items that appear together in some transactions or business activities. As of today, algorithms for association rule mining, as well as for other data mining tasks, are mostly applied to relational databases. As XML being adopted as the universal format for data storage and exchange, mining associations from XML data becomes an area of attention for researchers and developers. The challenge is that the semi-structured data format in XML is not directly suitable for traditional data mining algorithms and tools. In this paper we present an encoding method to encode XML tree-nodes. This method is used to store the XML data in Value Table and Transaction Table that can be easily accessed via indexing. The hierarchical relationship in the original XML tree structure is embedded in the encoding. We applied this method to association rules mining of XML data that may have missing data.

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The Transfer Technique among Decision Tree Models for Distributed Data Mining (분산형 데이터마이닝 구현을 위한 의사결정나무 모델 전송 기술)

  • Kim, Choong-Gon;Woo, Jung-Geun;Baik, Sung-Wook
    • Journal of Digital Contents Society
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    • v.8 no.3
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    • pp.309-314
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    • 2007
  • A decision tree algorithm should be modified to be suitable in distributed and collaborative environments for distributed data mining. The distributed data mining system proposed in this paper consists of several agents and a mediator. Each agent deals with a local data mining for data in each local site and communicates with one another to build the global decision tree model. The mediator helps several agents to efficiently communicate among them. One of advantages in distributed data mining is to save much time to analyze huge data with several agents. The paper focuses on a transfer technique among agents dealing with each local decision tree model to reduce huge overhead in communication among them.

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TFP tree-based Incremental Emerging Patterns Mining for Analysis of Safe and Non-safe Power Load Lines (Safe와 Non-safe 전력 부하 라인 분석을 위한 TFP트리 기반의 점진적 출현패턴 마이닝)

  • Lee, Jong-Bum;Piao, Ming Hao;Ryu, Keun-Ho
    • Spatial Information Research
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    • v.19 no.2
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    • pp.71-76
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    • 2011
  • In this paper, for using emerging patterns to define and analyze the significant difference of safe and non-safe power load lines, and identify which line is potentially non-safe, we proposed an incremental TFP-tree algorithm for mining emerging patterns that can search efficiently within limitation of memory. Especially, the concept of pre-infrequent patterns pruning and use of two different minimum supports, made the algorithm possible to mine most emerging patterns and handle the problem of mining from incrementally increased, large size of data sets such as power consumption data.

DISCOVERY TEMPORAL FREQUENT PATTERNS USING TFP-TREE

  • Jin Long;Lee Yongmi;Seo Sungbo;Ryu Keun Ho
    • Proceedings of the KSRS Conference
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    • 2005.10a
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    • pp.454-457
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    • 2005
  • Mining frequent patterns in transaction databases, time-series databases, and many other kinds of databases has been studied popularly in data mining research. Most of the previous studies adopt an Apriori-like candidate set generation-and-test approach. However, candidate set generation is still costly, especially when there exist prolific patterns and/or long patterns. And calendar based on temporal association rules proposes the discovery of association rules along with their temporal patterns in terms of calendar schemas, but this approach is also adopt an Apriori-like candidate set generation. In this paper, we propose an efficient temporal frequent pattern mining using TFP-tree (Temporal Frequent Pattern tree). This approach has three advantages: (1) this method separates many partitions by according to maximum size domain and only scans the transaction once for reducing the I/O cost. (2) This method maintains all of transactions using FP-trees. (3) We only have the FP-trees of I-star pattern and other star pattern nodes only link them step by step for efficient mining and the saving memory. Our performance study shows that the TFP-tree is efficient and scalable for mining, and is about an order of magnitude faster than the Apriori algorithm and also faster than calendar based on temporal frequent pattern mining methods.

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