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Enhancing model quality and scalability for mining business processes with invisible tasks in non-free choice

Enhancing model quality and scalability for mining business processes with invisible tasks in non-free choice
Enhancing model quality and scalability for mining business processes with invisible tasks in non-free choice
At present, business processes are growing rapidly, resulting in various types of activity relationships and big event logs. Discovering invisible tasks and invisible tasks in non-free choice is challenging. α$ mines invisible prime tasks in non-free choice based on pairs of events, so it consumes considerable processing time. In addition, the invisible tasks formation by α $ is limited to skip, switch, and redo conditions. This study proposes a graph-based algorithm named Graph Advanced Invisible Task in Non-free choice (GAITN) to form invisible tasks in non-free choice for stacked branching relationships condition and handle large event logs. GAITN partitions the event log and creates rules for merging the partitions to scale up the volume of discoverable events. Then, GAITN utilises rules of previous graph-based process mining algorithm to visualises branching relationships (XOR, OR, AND) and creates rules of mining invisible tasks in non-free choice based on obtained branching relationships. This study compared the performance of GAITN with that of Graph Invisible Task (GIT), α $, and Fodina and found that GAITN produces process models with better fitness, precision, generalisation, and simplicity measure based on higher number of events. GAITN significantly improves the quality of process model and scalability of process mining algorithm.
Business process management, Graph database, Invisible tasks, Process mining, Process modelling
1319-1578
Sungkono, Kelly R.
d79509f4-5078-4d6c-a028-6c55a9840a4d
Sarno, Riyanarto
09e77c84-95e9-4953-99e7-8a889c23ff03
Onggo, Bhakti S.
8e9a2ea5-140a-44c0-9c17-e9cf93662f80
Haykal, Muhammad F.
cc8bdb0d-28ed-497c-9760-a8b86b69fa22
Sungkono, Kelly R.
d79509f4-5078-4d6c-a028-6c55a9840a4d
Sarno, Riyanarto
09e77c84-95e9-4953-99e7-8a889c23ff03
Onggo, Bhakti S.
8e9a2ea5-140a-44c0-9c17-e9cf93662f80
Haykal, Muhammad F.
cc8bdb0d-28ed-497c-9760-a8b86b69fa22

Sungkono, Kelly R., Sarno, Riyanarto, Onggo, Bhakti S. and Haykal, Muhammad F. (2023) Enhancing model quality and scalability for mining business processes with invisible tasks in non-free choice. Journal of King Saud University - Computer and Information Sciences, 35 (9), [101741]. (doi:10.1016/j.jksuci.2023.101741).

Record type: Article

Abstract

At present, business processes are growing rapidly, resulting in various types of activity relationships and big event logs. Discovering invisible tasks and invisible tasks in non-free choice is challenging. α$ mines invisible prime tasks in non-free choice based on pairs of events, so it consumes considerable processing time. In addition, the invisible tasks formation by α $ is limited to skip, switch, and redo conditions. This study proposes a graph-based algorithm named Graph Advanced Invisible Task in Non-free choice (GAITN) to form invisible tasks in non-free choice for stacked branching relationships condition and handle large event logs. GAITN partitions the event log and creates rules for merging the partitions to scale up the volume of discoverable events. Then, GAITN utilises rules of previous graph-based process mining algorithm to visualises branching relationships (XOR, OR, AND) and creates rules of mining invisible tasks in non-free choice based on obtained branching relationships. This study compared the performance of GAITN with that of Graph Invisible Task (GIT), α $, and Fodina and found that GAITN produces process models with better fitness, precision, generalisation, and simplicity measure based on higher number of events. GAITN significantly improves the quality of process model and scalability of process mining algorithm.

Text
JKSUCIS-D-23-01194_R2 - Accepted Manuscript
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 30 August 2023
e-pub ahead of print date: 4 September 2023
Published date: October 2023
Additional Information: Publisher Copyright: © 2023 The Author(s)
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Keywords: Business process management, Graph database, Invisible tasks, Process mining, Process modelling
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Identifiers

Local EPrints ID: 482462
URI: http://eprints.soton.ac.uk/id/eprint/482462
DOI: doi:10.1016/j.jksuci.2023.101741
ISSN: 1319-1578
PURE UUID: 235d7415-75b7-440e-b06f-66fe478933a7
ORCID for Bhakti S. Onggo: ORCID iD orcid.org/0000-0001-5899-304X

Catalogue record

Date deposited: 05 Oct 2023 16:52
Last modified: 06 Jun 2024 02:04

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Contributors

Author: Kelly R. Sungkono
Author: Riyanarto Sarno
Author: Bhakti S. Onggo ORCID iD
Author: Muhammad F. Haykal

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