A Petri Nets based Generic Genetic Algorithm framework for resource optimization in business processes

Workflow management promises a new solution to an age-old problem: controlling, monitoring, optimizing and supporting business processes. What is new about workflow management is the explicit representation of the business process logic which allows for computerized support. This paper discusses the use of Petri nets in the context of workflow management. Petri nets are an established tool for modeling and analyzing processes. On the one hand, Petri nets can be used as a design language for the specification of complex workflows. On the other hand, Petri net theory provides for powerful analysis techniques which can be used to verify the correctness of workflow procedures. This paper introduces workflow management as an application domain for Petri nets, presents state-of-the-art results with respect to the verification of workflows, and highlights some Petri-net-based workflow tools.

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CONTRIBUTION FOR MODELING OF THE BUSINESS PROCESSES THROUGH THE FORMALISM OF PETRI NETS

10.4271/2007-01-2702 ◽

2007 ◽

Author(s):

Barbara K Okayama ◽

Eduardo Rocha Loures ◽

Eduardo A. Portela Santos ◽

Marco Antonio Busetti

Keyword(s):

Petri Nets ◽

Business Processes

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Optimization of Network Coding Resources Based on Improved Quantum Genetic Algorithm

Photonics ◽

10.3390/photonics8110502 ◽

2021 ◽

Vol 8 (11) ◽

pp. 502

Author(s):

Tianyang Liu ◽

Qiang Sun ◽

Huachun Zhou ◽

Qi Wei

Keyword(s):

Genetic Algorithm ◽

Network Coding ◽

Topological Structure ◽

Rotation Angle ◽

Optimization Problems ◽

Optimal Solution ◽

Resource Optimization ◽

Quantum Genetic Algorithm ◽

Adjustment Mechanism ◽

Adaptive Adjustment

The problem of network coding resource optimization with a known topological structure is NP-hard. Traditional quantum genetic algorithms have the disadvantages of slow convergence and difficulty in finding the optimal solution when dealing with this problem. To overcome these disadvantages, this paper proposes an adaptive quantum genetic algorithm based on the cooperative mutation of gene number and fitness (GNF-QGA). This GNF-QGA adopts the rotation angle adaptive adjustment mechanism. To avoid excessive illegal individuals, an illegal solution adjustment mechanism is added to the GNF-QGA. A solid demonstration was provided that the proposed algorithm has a fast convergence speed and good optimization capability when solving network coding resource optimization problems.

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Business Process Improvement of Production Systems Using Coloured Petri Nets

Bulletin of Electrical Engineering and Informatics ◽

10.11591/eei.v7i1.845 ◽

2018 ◽

Vol 7 (1) ◽

pp. 102-112 ◽

Cited By ~ 2

Author(s):

Imam Mukhlash ◽

Widya Nilam Rumana ◽

Dieky Adzkiya ◽

Riyanarto Sarno

Keyword(s):

Petri Nets ◽

Business Process ◽

Business Performance ◽

Business Processes ◽

Production Systems ◽

Coloured Petri Nets ◽

Manufacturing Companies ◽

Fundamental Factor ◽

Bottleneck Analysis

The quality of information systems affects the company's business performance. Therefore, it is necessary to analyze business processes to determine any discrepancies between the planned business processes and the actual ones. Based on the results of this analysis, the business process can be improved. The fundamental factor of manufacturing companies is production process. In reality, there are many discrepancies between the actual business processes with the pre-planned, so that there should be analyzed. The analysis can be performed by modeling the business process using Coloured Petri Nets (CPN). In this study, the objectives are to determine the level of conformance checking of business processes, reachability graph and the bottleneck analysis. The results of the analysis are used to construct a recommended model. Based on the analysis of the case study, e.g. a steel industry in Indonesia, the recommended model has a better value than initial model.

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Assigning Ontological Meaning to Workflow Nets

Cross-Disciplinary Models and Applications of Database Management ◽

10.4018/978-1-61350-471-0.ch009 ◽

2012 ◽

pp. 209-244

Author(s):

Pnina Soffer ◽

Maya Kaner ◽

Yair Wand

Keyword(s):

Petri Nets ◽

Business Process ◽

Business Processes ◽

Process Models ◽

Actual Process ◽

Workflow Nets ◽

Business Process Models ◽

Business Goals ◽

General Constraints ◽

Process Behavior

A common way to represent organizational domains is the use of business process models. A Workflow-net (WF-net) is an application of Petri Nets (with additional rules) that model business process behavior. However, the use of WF-nets to model business processes has some shortcomings. In particular, no rules exist beyond the general constraints of WF-nets to guide the mapping of an actual process into a net. Syntactically correct WF-nets may provide meaningful models of how organizations conduct their business processes. Moreover, the processes represented by these nets may not be feasible to execute or reach their business goals when executed. In this paper, the authors propose a set of rules for mapping the domain in which a process operates into a WF-net, which they derived by attaching ontological semantics to WF-nets. The rules guide the construction of WF-nets, which are meaningful in that their nodes and transitions are directly related to the modeled (business) domains. Furthermore, the proposed semantics imposes on the process models constraints that guide the development of valid process models, namely, models that assure that the process can accomplish its goal when executed.

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