TY - CONF TI - Understanding the Relationship Between Productivity and Buffers in Construction: A Simulation-Based Case C1 - San Diego, California, USA C3 - 20th Annual Conference of the International Group for Lean Construction PY - 2012 AU - Gupta, Agrim AU - Gonzalez, Vicente AU - Miller, Garry AD - Undergraduate Student, Department of Civil Engineering, Indian Institute of Technology, Kanpur, India. E-Mail: agrim@iitk.ac.in AD - PhD, Lecturer, Department of Civil and Environmental Engineering, The University of Auckland, New Zealand. E-Mail: v.gonzalez@auckland.ac.nz AD - Professional Teaching Fellow, Department of Civil aand Environmental Engineering, The University of Auckland, New Zealand. E-Mail: g.miller@auckland.ac.nz ED - Tommelein, Iris D. ED - Pasquire, Chrisitne L. AB - Buffer-driven production strategies represent an effective mechanism to shield the production system performance from the ill-effects of variability. In construction, these production strategies have been an emerging issue among lean construction researchers and practitioners alike. However, there is still room to better understand the relationship between performance and buffers in construction, in order to develop suitable buffer management approaches in projects. In this exploratory research, the relationship between productivity and buffer levels in repetitive projects is investigated by using Discrete-Event Simulation (DES) modelling. Also, a specific kind of inventory buffer is studied: work-in-process (WIP). A number of simulation scenarios with varying production parameters such as production amount, production rate, variability levels and initial WIP buffer size were tested. Results show that even though WIP buffer may not contribute to improving productivity rates, but they provide very good protection to productivity levels in case of variability conditions in projects. This effect makes WIP buffer suitable for use in large scale repetitive projects where a small disruption in production can lead to heavy losses. Also mathematical relationships between productivity and WIP buffer were analyzed, finding some good nonlinear relationships able to explain to a certain extent the impact of the WIP buffers sizes on productivity. KW - Buffer KW - Discrete-Event Simulation KW - Productivity KW - Repetitive Projects KW - Variability KW - Work-In-Process. PB - T2 - 20th Annual Conference of the International Group for Lean Construction DA - 2012/07/18 CY - San Diego, California, USA L1 - http://iglc.net/Papers/Details/775/pdf L2 - http://iglc.net/Papers/Details/775 N1 - Export Date: 28 March 2024 DB - IGLC.net DP - IGLC LA - English ER -