Cost engineering
Cost engineering is "the engineering practice devoted to the management of project cost, involving such activities as estimating, cost control, cost forecasting, investment appraisal and risk analysis".[1] "Cost Engineers budget, plan and monitor investment projects. They seek the optimum balance between cost, quality and time requirements."[2]
Skills and knowledge of cost engineers are similar to those of quantity surveyors. In many industries, cost engineering is synonymous with project controls. As the title "engineer" has legal requirements in many jurisdictions (e.g. Canada,[3] Texas[not verified in body]), the cost engineering discipline is often renamed to project controls.[4]
A cost engineer is "an engineer whose judgment and experience are utilized in the application of scientific principles and techniques to problems of estimation; cost control; business planning and management science; profitability analysis; project management; and planning and scheduling".[5]
Overview
[edit]One key objective of cost engineering is to arrive at accurate cost estimates and schedules, and to avoid cost overruns and schedule slips. Cost engineering goes beyond preparing cost estimates and schedules by helping manage resources and supporting assessment and decision-making. "The discipline of ‘cost engineering’ can be considered to encompass a wide range of cost-related aspects of engineering and programme management, but in particular cost estimating, cost analysis/cost assessment, design-to-cost, schedule analysis/planning and risk assessment."[6] The broad array of cost engineering topics represent the intersection of the fields of project management, business management, and engineering. Most people have a limited view of what engineering encompasses. The most obvious perception is that engineering addresses technical issues, such as the physical design of a structure or system. However, beyond the physical manifestation of a design of a structure or system (for example, a building), there are other dimensions to consider such as the money, time, and other resources that were invested in the creation of the building. Cost engineers refer to these investments collectively as "costs".
Cost engineering, then, can be considered an adjunct of traditional engineering. It recognizes and focuses on the relationships between the physical and cost dimensions of whatever is being "engineered". Cost engineering is most often taught at universities as part of construction engineering, engineering management, civil engineering, and related curricula because it is most often practiced on engineering and construction capital projects. Engineering economics is a core skill and knowledge area of cost engineering.
Associations, considered non-profit organizations--one example, is AACE International "is dedicated to the tenets of furthering the concepts of Total Cost Management and Cost Engineering. Total Cost Management is the effective application of professional and technical expertise to plan and control resources, costs, profitability and risk. Simply stated, it is a systematic approach to managing cost throughout the life cycle of any enterprise, program, facility, project, product or service. This is accomplished through the application of cost engineering and cost management principles, proven methodologies and the latest technology in support of the management process. ... Total Cost Management is that area of engineering practice where engineering judgment and experience are utilized in the application of scientific principles and techniques to problems of business and program planning; cost estimating; economic and financial analysis; cost engineering; program and project management; planning and scheduling; and cost and schedule performance measurement and change control. In summary, the list of practice areas ... are collectively called cost engineering; while the “process” through which these practices are applied is called total cost management or TCM.[7]
History
[edit]Cost engineering is a field of engineering practice that began in the 1950s (AACE International was founded in 1956). The skills and knowledge areas of cost engineers are similar to those of quantity surveyors. AACE International is one of many international engineering organizations representing practitioners in these fields. The International Cost Engineering Congress (ICEC) was founded in 1976 as a Worldwide Confederation of Cost Engineering, Quantity Surveying and Project Management Societies.
In 2006, AACE published the Total Cost Management (TCM) Framework, which outlines an integrated process for applying the skills and knowledge of cost engineering (see References). This has also been called the world's first process for portfolio, program and project management.
Cost Engineering Techniques
[edit]Cost engineers use software and other industry tools and resources to collect, analyze, and share cost data.
Tools aside, choosing the appropriate cost engineering technique is critical. Techniques and methodologies can vary depending on several factors, including:
- The scope and complexity of the project
- Project phase and maturity
- Industry and project type
- Stakeholder requirements
Importantly, cost engineering incorporates lessons learned from previous project experience and data-driven insights to provide an early understanding of design and construction decisions and risks. With these insights, mitigative actions can be recommended to ensure successful project outcomes. For this reason, choosing a cost estimation method also depends on the skills and experience of the cost engineer.
Skills and Qualities of a Successful Cost Engineer To be successful, a cost engineer must have strong analytical abilities, industry-specific knowledge, experience with cost estimating systems, and excellent communication skills. An understanding of professional engineering principles is also desired and many cost engineers have significant prior engineering experience.
Professional titles or positions in cost engineering
[edit]"Cost engineering practitioners tend to be: a) specialized in function (e.g., cost estimating, planning and scheduling, etc.); b) focused on either the asset management or project control side of the TCM process; and c) focused on a particular industry (e.g., engineering and construction, manufacturing, information technology, etc) or asset type (e.g., chemical process, buildings, software, etc.)... They may work for the business that owns and operates the asset (emphasis on economics and analysis), or they may work for the contractor that executes the projects (emphasis on planning and control)."[8]
Some titles or positions in the Cost Engineering practice include:
- Claims and Changes Specialist
- Construction Estimator
- Construction Manager
- Contract Management Specialist
- Cost Analyst
- Cost Engineer
- Cost Estimator (or Estimator)
- Planner/Scheduler (or Scheduling Engineer)
- Pre-Construction Manager
- Project Controls Engineer
- Project Controls Manager
- Project Controls
- Project Controller
- Project Manager
- Quantity Surveyor
See also
[edit]- AACE International
- Building estimator
- Construction Management
- Cost estimate
- Construction Estimating Software
- Cost overrun
- Cost-plus contract
- International Cost Engineering Council
- Moral hazard
- Muntzing
- Optimism bias
- Pre-construction services
- Project management
- Quantity surveyor
- Reference class forecasting
- Risk management
- Total delivery cost
- Value engineering
References
[edit]- ^ "Provoc - Glossary of Common Project Control Terms," The Association of Cost Engineers (ACostE), http://www.acoste.org.uk Archived 2008-05-30 at the Wayback Machine
- ^ "Home - DACE," Dutch Association of Cost Engineers, http://www.dace.nl/ Archived 2012-04-15 at the Wayback Machine
- ^ "AACE International - About Us - News Archive - 2013 - Page Title". www.aacei.org. Archived from the original on 2016-07-11. Retrieved 2016-07-11.
- ^ "Definition and Importance of Project Controls". www.projectcontrolsonline.com. Archived from the original on 2016-07-19. Retrieved 2016-07-11.
- ^ AACE International Recommended Practice No. 10S-90, COST ENGINEERING TERMINOLOGY, TCM Framework: General Reference, AACE, 2010, pg 24
- ^ David Greves & Herve Joumier, "Cost Engineering for Cost-Effective Space Programmes," esa bulletin 115 - august 2003, pg1
- ^ John K. Hollmann, PE CCE, AACE International Recommended Practice No. 11R-88, REQUIRED SKILLS AND KNOWLEDGE OF COST ENGINEERING, TCM Framework: General Reference, AACE, 2010, pg 2
- ^ John K. Hollmann, PE CCE, AACE International Recommended Practice No. 11R-88, REQUIRED SKILLS AND KNOWLEDGE OF COST ENGINEERING, TCM Framework: General Reference, AACE, 2010, pg 3
Further reading
[edit]- Amos, Scott (editor), "Skills and Knowledge of Cost Engineering," Fifth Edition, AACE International, Morgantown, West Virginia, 2004.
- Humphreys, Kenneth K (editor), "Jelen's Cost and Optimization Engineering" 3rd Edition, McGraw-Hill, 1991.
- Hollmann, John K. (editor), "Total Cost Management Framework", AACE International, Morgantown WV, 2006.
- Dale Shermon, Systems Cost Engineering, Gower Publishing, 2009, ISBN 978-0-566-08861-2
External links
[edit]- Quantity Surveyor|Cost Estimator (Quantity Surveying and Cost Engineering Web Portal)
- AACE International (Association for the Advancement of Cost Engineering)
- International Cost Engineering Council (ICEC)
- Society for Cost Analysts and Forecasting (SCAF)
- Association of Cost Engineers (ACostE)
- Dutch Association of Cost Engineers (DACE)
- Cost Engineering at Cranfield University, UK
- Cost Engineering at Cost Engineering Academy, NL