论文信息 - Greedy Heuristics for Automatic Synthesis of Efficient Block-Structured Scheduling Processes from Declarative Specifications

Greedy Heuristics for Automatic Synthesis of Efficient Block-Structured Scheduling Processes from Declarative Specifications

This paper introduces a new Greedy heuristic algorithm for the automatic synthesis of block-structured scheduling processes that satisfy a given set of declarative ordering constraints, as well as basic theoretical results that support the correctness of this algorithm. We propose two heuristics that can be used with this algorithm: hierarchical decomposition heuristic and critical path heuristic. We also present initial experimental results supporting the effectiveness and efficiency of our proposed algorithm and heuristics.

[1] Wil M. P. van der Aalst,et al. A Declarative Approach for Flexible Business Processes Management , 2006, Business Process Management Workshops.

[2] Klemens Böhm,et al. Automatic Generation of Optimized Process Models from Declarative Specifications , 2015, CAiSE.

[3] Sander J. J. Leemans,et al. Discovering Block-Structured Process Models from Event Logs - A Constructive Approach , 2013, Petri Nets.

[4] James E. Kelley,et al. Critical-Path Planning and Scheduling: Mathematical Basis , 1961 .

[5] Konstantinos Demertzis,et al. Adaptive Elitist Differential Evolution Extreme Learning Machines on Big Data: Intelligent Recognition of Invasive Species , 2016, INNS Conference on Big Data.

[6] Klemens Böhm,et al. Process Synthesis with Sequential and Parallel Constraints , 2016, OTM Conferences.