@ARTICLE{Jaśkowski_Piotr_Planning,
 author={Jaśkowski, Piotr and Biruk, Sławomir and Krzemiński, Michał},
 volume={Vol. 66},
 number={No 3},
 journal={Archives of Civil Engineering},
 pages={643-657},
 howpublished={online},
 publisher={WARSAW UNIVERSITY OF TECHNOLOGY FACULTY OF CIVIL ENGINEERING and COMMITTEE FOR CIVIL ENGINEERING POLISH ACADEMY OF SCIENCES},
 abstract={Most scheduling methods used in the construction industry to plan repetitive projects assume that process durations are deterministic. This assumption is acceptable if actions are taken to reduce the impact of random phenomena or if the impact is low. However, construction projects at large are notorious for their susceptibility to the naturally volatile conditions of their implementation. It is unwise to ignore this fact while preparing construction schedules. Repetitive scheduling methods developed so far do respond to many constructionspecific needs, e.g. of smooth resource flow (continuity of work of construction crews) and the continuity of works. The main focus of schedule optimization is minimizing the total time to complete. This means reducing idle time, but idle time may serve as a buffer in case of disruptions. Disruptions just happen and make optimized schedules expire. As process durations are random, the project may be delayed and the crews’ workflow may be severely affected to the detriment of the project budget and profits. For this reason, the authors put forward a novel approach to scheduling repetitive processes. It aims to reduce the probability of missing the deadline and, at the same time, to reduce resource idle time. Discrete simulation is applied to evaluate feasible solutions (sequence of units) in terms of schedule robustness.},
 type={Article},
 title={Planning Repetitive Construction Processes to Improve Robustness of Schedules in Risk Environment},
 URL={http://journals.pan.pl/Content/117485/PDF/36.ACE00067%20do%20druku_B5.pdf},
 doi={10.24425/ace.2020.134418},
 keywords={project scheduling, repetitive construction processes, proactive scheduling, risk management in construction, simulation method},
}