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Identification of information requirements using simulation for supporiting construction productivity assessment

Authors:

Seyed Mohsen Shahandashti,

Lucio SoibelmanAuthors Info & Claims

WSC '10: Proceedings of the Winter Simulation Conference

Pages 3076 - 3087

Published: 05 December 2010 Publication History

Abstract

Project managers need to assess how well construction crews are performing in terms of productivity. This paper presents the preliminary results of an effort carried out by the authors to develop a simulation based framework to support the identification of the information requirements for assessing productivity performance. A prototype to test the proposed framework for the identification of information requirements by studying the assessment of earthmoving productivity is introduced. Based on literature regarding the factors that can affect earthmoving productivity, several scenarios, representing different factors that affect earthmoving productivity, have been created and studied. These scenarios have been simulated to help to identify the information items required for assessing earthmoving productivity, such as hauling distance and loading time. Several potential data capture technologies, such as GPS, RFID and On-Board Instrument can help in acquiring the information items identified in this paper.

References

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ASTM E2691-09. 2009. Standard Practice for Job Productivity Measurement. ASTM standards.

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Business Roundtable. 1980. Scheduled Overtime Effect on Construction Projects. A Construction Industry Cost Effectiveness Task Force Report, Report C-2, November.

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Caterpillar. 2006 b. AccuGrade Grade Control System for Backhoe loaders. Available via <http://www.kellytractor.com/eng/images/pdf/machine_guidance/accugrade_backhoeloaders.pdf> {accessed June 10, 2010}.

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El-Omari, S., and O. Moselhi. 2009. Integrating Automated Data Acquisition Technologies for Progress Reporting of Construction Projects. 26^th International Symposium on Automation and Robotics in Construction, (ISARC 2009).

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Hanna, A. S., C. S. Taylor, and K. T. Sullivan. 2005. Impact of Extended Overtime on Construction Labor Productivity. Journal Construction Engineering and Management, 131(6), pp 734--739.

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Martinez, J. C. 2001. EZStrobe - General-Purpose Simulation System Based on Activity Cycle Diagrams. In Proceedings of the 2001 Winter Simulation Conference, ed. B. A. Peters, J. S. Smith, D. J. Medeiros, M. W. Rohrer, 1556--1564. Piscataway, New Jersey: Institute of Electrical and Electronics Engineers, Inc.

Digital Library

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Pradhan, A. 2009. An Approach for Fusing Data from Multiple Sources to Support Construction Productivity Analysis. PhD Thesis, Department of Civil and Environmental Engineering, Carnegie Mellon University

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Cited By

Yang WTakakuwa SBuckley SMiller J(2014)Simulation-based flexibility analysis of vehicle dispatching problem on a container terminal with GPS tracking dataProceedings of the 2014 Winter Simulation Conference10.5555/2693848.2694070(1759-1770)Online publication date: 7-Dec-2014
https://dl.acm.org/doi/10.5555/2693848.2694070

Index Terms

Identification of information requirements using simulation for supporiting construction productivity assessment
1. Applied computing
  1. Physical sciences and engineering
    1. Engineering
2. Computing methodologies
  1. Modeling and simulation
    1. Simulation evaluation

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Published In

cover image ACM Conferences

WSC '10: Proceedings of the Winter Simulation Conference

December 2010

3519 pages

ISBN:9781424498642

Sponsors

IIE: Institute of Industrial Engineers
INFORMS-SIM: Institute for Operations Research and the Management Sciences: Simulation Society
SCS: Shanghai Computer Society
SIGSIM: ACM Special Interest Group on Simulation and Modeling

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Winter Simulation Conference

Publication History

Published: 05 December 2010

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WSC10

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IIE
INFORMS-SIM
SCS
SIGSIM

WSC10: Winter Simulation Conference

December 5 - 8, 2010

Maryland, Baltimore

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WSC '10 Paper Acceptance Rate 184 of 281 submissions, 65%;

Overall Acceptance Rate 3,413 of 5,075 submissions, 67%

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Cited By

Yang WTakakuwa SBuckley SMiller J(2014)Simulation-based flexibility analysis of vehicle dispatching problem on a container terminal with GPS tracking dataProceedings of the 2014 Winter Simulation Conference10.5555/2693848.2694070(1759-1770)Online publication date: 7-Dec-2014
https://dl.acm.org/doi/10.5555/2693848.2694070

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