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" An Efficient Technique for Mining Bad Credit Accounts from Both OLAP and OLTP "
Sheikh Rabiul Islam
Ghafoor, Sheikh; Eberle, William
Document Type
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Latin Dissertation
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Language of Document
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English
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Record Number
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805041
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Doc. No
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TL49882
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Call number
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2039605712; 10787567
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Main Entry
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Fraser Abdur Rahim, Herbert Muhammad
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Title & Author
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An Efficient Technique for Mining Bad Credit Accounts from Both OLAP and OLTP\ Sheikh Rabiul IslamGhafoor, Sheikh; Eberle, William
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College
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Tennessee Technological University
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Date
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2018
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Degree
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M.S.
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field of study
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Computer Science
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student score
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2018
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Page No
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84
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Note
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Committee members: Talbert, Doug
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Note
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Place of publication: United States, Ann Arbor; ISBN=978-0-355-94059-6
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Abstract
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Credit card companies classify accounts as a good or bad based on historical data where a bad account may default on payments in the near future. If an account is classified as a bad account, then further action can be taken to investigate the actual nature of the account and take preventive actions. In addition, marking an account as 'good' when it is actually bad, could lead to loss of revenue - and marking an account as 'bad' when it is actually good, could lead to loss of business. However, detecting bad credit card accounts in real time from Online Transaction Processing (OLTP) data is challenging due to the volume of data needed to be processed to compute the risk factor. We propose an approach which precomputes and maintains the risk probability of an account based on historical transactions data from offline data or data from a data warehouse. Furthermore, using the most recent OLTP transactional data, risk probability is calculated for the latest transaction and combined with the previously computed risk probability from the data warehouse. If accumulated risk probability crosses a predefined threshold, then the account is treated as a bad account and is flagged for manual verification. In addition, our approach is efficient in terms of computation time and resources requirement because no transaction is processed more than once for the risk factor calculation. Another factor that makes our approach efficient is the early detection of bad accounts or fraud attempts as soon as the transaction takes place, which leads to a decrease in lost revenue.
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Subject
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Banking; Computer science
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Descriptor
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Applied sciences;Social sciences;Bankruptcy;Data warehouse;Default;OLAP;OLTP
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Added Entry
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Ghafoor, Sheikh; Eberle, William
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Added Entry
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Computer ScienceTennessee Technological University
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