2010
Autores
Alves, R; Ribeiro, J; Belo, O; Han, J;
Publicação
Complex Data Warehousing and Knowledge Discovery for Advanced Retrieval Development - Innovative Methods and Applications.
Abstract
Business organizations must pay attention to interesting changes in customer behavior in order to anticipate their needs and act accordingly with appropriated business actions. Tracking customer's commercial paths through the products they are interested in is an essential technique to improve business and increase customer satisfaction. Data warehousing (DW) allows us to do so, giving the basic means to record every customer transaction based on the different business strategies established. Although managing such huge amounts of records may imply business advantage, its exploration, especially in a multi-dimensional space (MDS), is a nontrivial task. The more dimensions we want to explore, the more are the computational costs involved in multi-dimensional data analysis (MDA). To make MDA practical in real world business problems, DW researchers have been working on combining data cubing and mining techniques to detect interesting changes in MDS. Such changes can also be detected through gradient queries. While those studies have provided the basis for future research in MDA, just few of them points to preference query selection in MDS. Thus, not only the exploration of changes in MDS is an essential task, but also even more important is ranking most interesting gradients. In this chapter, the authors investigate how to mine and rank the most interesting changes in a MDS applying a TOP-K gradient strategy. Additionally, the authors also propose a gradient-based cubing method to evaluate interesting gradient regions in MDS. So, the challenge is to find maximum gradient regions (MGRs) that maximize the task of raking gradients in a MDS. The authors' evaluation study demonstrates that the proposed method presents a promising strategy for ranking gradients in MDS. © 2010, IGI Global.
2011
Autores
der Aalst, WMPv; Adriansyah, A; de Medeiros, AKA; Arcieri, F; Baier, T; Blickle, T; Chandra Bose, RPJ; den Brand, Pv; Brandtjen, R; Buijs, JCAM; Burattin, A; Carmona, J; Castellanos, M; Claes, J; Cook, J; Costantini, N; Curbera, F; Damiani, E; Leoni, Md; Delias, P; van Dongen, BF; Dumas, M; Dustdar, S; Fahland, D; Ferreira, DR; Gaaloul, W; Geffen, Fv; Goel, S; Günther, CW; Guzzo, A; Harmon, P; ter Hofstede, AHM; Hoogland, J; Ingvaldsen, JE; Kato, K; Kuhn, R; Kumar, A; Rosa, ML; Maggi, FM; Malerba, D; Mans, RS; Manuel, A; McCreesh, M; Mello, P; Mendling, J; Montali, M; Motahari Nezhad, HR; Muehlen, Mz; Gama, JM; Pontieri, L; Ribeiro, J; Rozinat, A; Pérez, HS; Pérez, RS; Sepúlveda, M; Sinur, J; Soffer, P; Song, M; Sperduti, A; Stilo, G; Stoel, C; Swenson, KD; Talamo, M; Tan, W; Turner, C; Vanthienen, J; Varvaressos, G; Verbeek, E; Verdonk, M; Vigo, R; Wang, J; Weber, B; Weidlich, M; Weijters, T; Wen, L; Westergaard, M; Wynn, MT;
Publicação
Business Process Management Workshops - BPM 2011 International Workshops, Clermont-Ferrand, France, August 29, 2011, Revised Selected Papers, Part I
Abstract
Process mining techniques are able to extract knowledge from event logs commonly available in today's information systems. These techniques provide new means to discover, monitor, and improve processes in a variety of application domains. There are two main drivers for the growing interest in process mining. On the one hand, more and more events are being recorded, thus, providing detailed information about the history of processes. On the other hand, there is a need to improve and support business processes in competitive and rapidly changing environments. This manifesto is created by the IEEE Task Force on Process Mining and aims to promote the topic of process mining. Moreover, by defining a set of guiding principles and listing important challenges, this manifesto hopes to serve as a guide for software developers, scientists, consultants, business managers, and end-users. The goal is to increase the maturity of process mining as a new tool to improve the (re)design, control, and support of operational business processes. © 2012 Springer-Verlag.
2012
Autores
Oliveira, CAL; Lima, RMF; Reijers, HA; Ribeiro, JTS;
Publicação
IEEE TRANSACTIONS ON SYSTEMS MAN AND CYBERNETICS PART A-SYSTEMS AND HUMANS
Abstract
To address the need for evaluation techniques for complex business processes, also known as workflows, this paper proposes an approach based on generalized stochastic Petri nets (GSPNs). We review ten related approaches published in the last fifteen years and compare them to our approach using a wide range of criteria. On the basis of this evaluation, we observe that the newly proposed approach provides results that are at least as good as those from the most accepted alternatives and holds a number of additional advantages, such as modeling simplicity, improved precision, and model reuse for qualitative analyses. The overall approach is formally defined in this paper, along with the definition of several performance metrics. Part of these metrics can be computed analytically, while the remainder can be obtained by simulating the GSPN. Furthermore, a tool has been developed to translate automatically business process execution language processes into GSPNs. Finally, we present a case study in which we applied the proposed approach, colored Petri net tools, and an industrial tool to obtain performance insights into a realistic workflow. The results were highly similar, demonstrating the feasibility and the accuracy of our approach.
2012
Autores
Brombacher, A; Hopma, E; Ittoo, A; Lu, Y; Luyk, I; Maruster, L; Ribeiro, J; Weijters, T; Wortmann, H;
Publicação
QUALITY AND RELIABILITY ENGINEERING INTERNATIONAL
Abstract
Advance technology development and wide use of the World Wide Web have made it possible for new product development organizations to access multi-sources of data-related customer complaints. However, the number of customer plaints of highly innovative consumer electronic products is still increasing; that is, product quality and reliability is at risk. This article aims to understand why existing solutions from literature as well as from industry to deal with these increasingly complex multiple data sources are not able to manage product quality and reliability. Three case studies in industry are discussed. On the basis of the case study results, this article also identifies a new research agenda that is needed to improve product quality and reliability under this circumstance. Copyright (c) 2011 John Wiley & Sons, Ltd.
2009
Autores
Alves, R; Ribeiro, J; Belo, O;
Publicação
IJBIDM
Abstract
In this paper, we present a new OLAP Mining method for exploring interesting trend patterns. Our main goal is to mine the most (TOP-K) significant changes in Multidimensional Spaces (MDS) applying a gradient-based cubing strategy. The challenge is then finding maximum gradient regions, which maximises the task of detecting TOP-K gradient cells. Several heuristics are also introduced to prune MDS efficiently. In this paper, we motivate the importance of the proposed model, and present an efficient and effective method to compute it by: • evaluating significant changes by means of pushing gradient search into the partitioning process • measuring Gradient Regions (GR) spreadness for data cubing • measuring Periodicity Awareness (PA) of a change, assuring that it is a change pattern and not only an isolated event • devising a Rank Gradient-based Cubing to mine significant change patterns in MDS. Copyright © 2009, Inderscience Publishers.
2011
Autores
Weijters, AJMM; Ribeiro, JTS;
Publicação
IEEE SSCI 2011: Symposium Series on Computational Intelligence - CIDM 2011: 2011 IEEE Symposium on Computational Intelligence and Data Mining
Abstract
One of the aims of process mining is to retrieve a process model from a given event log. However, current techniques have problems when mining processes that contain nontrivial constructs, processes that are low structured and/or dealing with the presence of noise in the event logs. To overcome these problems, a new process representation language is presented in combination with an accompanying process mining algorithm. The most significant property of the new representation language is in the way the semantics of splits and joins are represented; by using so-called split/join frequency tables. This results in easy to understand process models even in the case of non-trivial constructs, low structured domains and the presence of noise. This paper explains the new process representation language and how the mining algorithm works. The algorithm is implemented as a plug-in in the ProM framework. An illustrative example with noise and a real life log of a complex and low structured process are used to explicate the presented approach. © 2011 IEEE.
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