Access the full text.
Sign up today, get DeepDyve free for 14 days.
J. Brimson (1991)
Activity Accounting: An Activity-Based Costing Approach
V. Albino, A. Garavelli (1998)
A neural network application to subcontractor rating in construction firmsInternational Journal of Project Management, 16
T. Wegelius-Lehtonen (2001)
Performance measurement in construction logisticsInternational Journal of Production Economics, 69
M. Speranza, W. Ukovich (1994)
Minimizing Transportation and Inventory Costs for Several Products on a Single LinkOper. Res., 42
Stuart Heinritz (1965)
Purchasing: principles and applications
S. Eilon, C. Watson-Gandy, Nicos Christofides (1971)
Distribution management : mathematical modelling and practical analysis
William O'brien, C. Formoso, R. Vrijhoef, K. London (2008)
Construction Supply Chain Management Handbook
A.P.C. Chan
Towards an expert system on project procurement
R. Sacks, C. Eastman, Ghang Lee (2004)
Process Model Perspectives on Management and Engineering Procedures in the Precast'Prestressed Concrete IndustryJournal of Construction Engineering and Management-asce, 130
M. Kumaraswamy, E. Palaneeswaran, P. Humphreys (2000)
Selection matters – in construction supply chain optimisationInternational Journal of Physical Distribution & Logistics Management, 30
D. Lambert, J. Stock, L. Ellram (1998)
Fundamentals of Logistics Management
Gul Polat (2008)
Factors Affecting the Use of Precast Concrete Systems in the United StatesJournal of Construction Engineering and Management-asce, 134
C. Daganzo (1985)
Supplying a single location from heterogeneous sourcesTransportation Research Part B-methodological, 19
W. Chan, Hao Hu (2001)
An application of genetic algorithms to precast production schedulingComputers & Structures, 79
J. Freeman (1992)
Inventory Control and ManagementJournal of the Operational Research Society, 44
S. Raff (1983)
Routing and scheduling of vehicles and crews : The state of the artComput. Oper. Res., 10
Y. Fang, Tst Ng (2008)
Optimising time and cost in construction material logistics
D. Ross (1998)
Implementing Supply Chain Management
W. Chan, Hao Hu (2002)
Production Scheduling for Precast Plants using a Flow Shop Sequencing ModelJournal of Computing in Civil Engineering, 16
M. Backer, Lyle Jacobsen (1964)
Cost accounting : a managerial approach
DWCF iCenter
Activity‐based Costing: Accounting for Operational Readiness
M. Henricks
Beneath the surface
V. Grover, M. Malhotra (2003)
Transaction cost framework in operations and supply chain management research: theory and measurementJournal of Operations Management, 21
L. Bertazzi, G. Paletta, M. Speranza (2005)
Minimizing the Total Cost in an Integrated Vendor—Managed Inventory SystemJournal of Heuristics, 11
D. Damme, Fla Zon (1999)
Activity based costing and decision supportThe International Journal of Logistics Management, 10
A. Sobotka, A. Czarnigowska (2005)
Analysis of supply system models for planning construction project logisticsJournal of Civil Engineering and Management, 11
Jim Thomas (1994)
AS EASY AS ABC.
T. Chouard (2008)
Darwin 200: Beneath the surfaceNature, 456
D. Mahanama (1998)
Comparing procurement and non-procurement related contributors to project performance
Amy Zeng, Christian Rossetti (2003)
Developing a framework for evaluating the logistics costs in global sourcing processesInternational Journal of Physical Distribution & Logistics Management, 33
Shuai Bin (2007)
Optimized Logistics Cost Decisions under the Conditions of Enterprise’s Logistics ServiceJournal of the University of Electronic Science and Technology of China
S. Pryke (2009)
Construction Supply Chain Management
H. Tserng, Samuel Yin, S. Li (2006)
Developing a resource supply chain planning system for construction projectsJournal of Construction Engineering and Management-asce, 132
Chung-Wei Feng, Liang Liu, S. Burns (1997)
Using genetic algorithms to solve construction time-cost trade-off problemsJournal of Computing in Civil Engineering, 11
Y. Fang, Tst Ng (2007)
Analysis of resource acquisition cost for construction project logistics
Hale Kaynak, J. Hartley (2006)
Using replication research for just-in-time purchasing construct developmentJournal of Operations Management, 24
S. Pryke (2009)
Construction supply chain management : concepts and case studies
L. Bertazzi, M. Speranza, W. Ukovich (1997)
Minimization of logistic costs with given frequenciesTransportation Research Part B-methodological, 31
Heng Li, P. Love (1997)
Using improved genetic algorithms to facilitate time-cost optimizationJournal of Construction Engineering and Management-asce, 123
P. Humphreys, K. Mak, C. Yeung (1998)
A just‐in‐time evaluation strategy for international procurementSupply Chain Management, 3
Klaus Gürmann, K. Schreiber (1990)
The determination of cost parameters to achieve optimum stockpilingEngineering Costs and Production Economics, 19
Chung-Yee Lee (1986)
The Economic Order Quantity for Freight Discount CostsIie Transactions, 18
L. Bodin (1983)
ROUTING AND SCHEDULING OF VEHICLES AND CREWS–THE STATE OF THE ARTComputers & Operations Research, 10
R. Tersine, S. Barman (1991)
Economic Inventory/Transport Lot, Sizing with Quantity and Freight Rate DiscountsDecision Sciences, 22
J. Hurley (2001)
Cost and effectCanadian Medical Association Journal, 165
R. Russell, L. Krajewski (1991)
Optimal Purchase and Transportation Cost Lot Sizing for a Single ItemDecision Sciences, 22
J. Tyworth, Amy Zeng (1998)
ESTIMATING THE EFFECTS OF CARRIER TRANSIT-TIME PERFORMANCE ON LOGISTICS COST AND SERVICETransportation Research Part A-policy and Practice, 32
Carlos Silva, J. Sousa, T. Runkler, R. Palm (2005)
Soft computing optimization methods applied to logistic processesInt. J. Approx. Reason., 40
R. Kaplan (1993)
Activity-based management
D. Davis‐Case
Relating partnership and power to common property resource management in developing aid
T.B. Gooley
Finding the hidden cost of logistics
J. Holland (1975)
Adaptation in natural and artificial systems
W. Chan, D. Chua, G. Kannan (1996)
CONSTRUCTION RESOURCE SCHEDULING WITH GENETIC ALGORITHMSJournal of Construction Engineering and Management-asce, 122
A. Maltz, L. Ellram (1997)
TOTAL COST OF RELATIONSHIP -- AN ANALYTICAL FRAMEWORK FOR THE LOGISTICS OUTSOURCING DECISION.Journal of Business Logistics
CII
ABC – the road to cost management
D. Castro-Lacouture, A. Medaglia, M. Skibniewski (2007)
Supply chain optimization tool for purchasing decisions in B2B construction marketplacesAutomation in Construction, 16
L. Burns, R. Hall, D. Blumenfeld, C. Daganzo (1985)
Distribution Strategies that Minimize Transportation and Inventory CostsOper. Res., 33
M. Kasperek, W. Lewtak
Analysis of logistic processes impact on execution cost of construction project
Binshan Lin, James Collins, Robert Su (2001)
Supply chain costing: an activity‐based perspectiveInternational Journal of Physical Distribution & Logistics Management, 31
Purpose – Construction materials take up a significant proportion of the total construction cost. Without careful planning and controlling on the flow of construction materials, it is possible that the cost of materials may increase unnecessarily. In view of that, this paper aims to examine whether the development of logistics cost analysis can help determine suitable logistics strategies for a project which involves the use of bulky components like precast concrete units. Design/methodology/approach – The cost elements incurred during the logistics process of precast components from the supplier's yard to the construction site are first identified through the activity‐based costing (ABC) approach. Under each element, the resources necessary to fulfil the specific element are analysed. By representing those cost components through the cost functions, simulations can be carried out to determine the logistics cost under different logistic scenarios. Findings – Through the ABC approach, the resources consumed can be traced back to the consuming activity and subsequently to a particular cost element. More importantly, the results indicate that the simulation model can identify a logistics option which would result in the lowest logistics cost without affecting the construction schedule. Originality/value – This paper should help increase understanding of managers and planners on construction logistics activities and their related costs so as to increase their bid competitiveness and/or improve the chance of success at the construction stage by minimising the construction logistics cost.
Construction Innovation: Information, Process, Management – Emerald Publishing
Published: Jul 12, 2011
Keywords: Activity based costs; Construction logistics cost; Precast component; Construction materials
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.