Adroit is among the CMAA invited speakers for CMAA Focus21!

We are pleased to announce that Adroit’s Amin Terouhid, Ph.D., PMP is among the Construction Management Association of America (CMAA) invited speakers for CMAA Focus21!

CMAA Focus21 is a suite of four, virtual events held on April 12 – 15, 2021, that each focus on one of the four stages or roles within the profession:

  • Students
  • early-career professionals
  • professional CMs and CCMs leading teams, projects, or programs; and
  • senior executive leaders.

Dr. Terouhid will present the following session on the loss of productivity quantification methods on April 14, 2021:

Title: Loss of Productivity (LOP) Damage Quantification – A review of Project-Specific

Abstract: In the tiered approach to LOP damage quantification methods of claim analysis, cost-based methods for assessing LOP damage quantification do not typically establish the presence of a causal relationship between causes and lost productivity. However, project-specific methods rely the most on the cause-and-effect analysis and use contemporaneous, project-specific track records of productivity. As such, project-specific methods are considered the most preferred methods. This presentation reviews the project-specific LOP damage quantification methods and discusses the key considerations necessary to use them.


Here is the link to the program.

Find out more: https://www.cmaanet.org/conferences/cmaa-focus21/f21-critical-path-professionals/f21-critical-path-professionals-program

Loss of Productivity in Construction – Some Considerations  

During construction projects, a contractor’s scope of work may be influenced by a wide range of factors with an adverse effect on the contractor’s labor or equipment productivity. In these cases, it is said that the contractor is facing a loss of productivity in performing its scope of work. The loss of productivity is considered a type of disruption. According to the Society of Construction Law (2017), disruption is “a disturbance, hindrance or interruption to a Contractor’s normal working methods, resulting in lower efficiency. Disruption claims relate to a loss of productivity in the execution of particular activities. Because of the disruption, these work activities are not able to be carried out as efficiently as reasonably planned (or as possible).” (p.44)

Some Considerations 

It is important to note that a loss in productivity may or may not result in project delays. For example, if a contractor has not been able to achieve its intended productivity rate due to productivity factors that are in a client’s control, the loss of productivity may result in delays if some activities end up taking more than expected due to decreased levels of labor productivity. However, delays may not be caused in some cases of disruption. An example is the case of acceleration, which has a possible disruptive effect on a contractor’s work. If instructed, a contractor may accelerate its work using a wide range of methods such as by increasing project resources (e.g., labor) that are allocated to activities or by elongating working hours. For instance, an owner-issued acceleration order does not cause delays but instead, the contractor incurs additional costs to accelerate the work. Therefore, an owner instruction for acceleration may give rise to a claim for requesting additional compensation and seeking productivity-related damages if the contractor believes it has not been fairly compensated for the damages incurred as a result of an acceleration.

Assessment Methods

To properly analyze cases of disruption from the contractors’ perspective, the main causes of disruption need to be closely analyzed. In addition, the time periods in which disruptions have occurred and the activities that are influenced should be identified. For this type of analysis, a cause-and-effect analysis will provide proper insight into the underlying causes of disruption. However, further investigation will be required to identify the extent productivity factors have impacted the work or resulted in additional costs. Some of the common methods of disruption analysis that may help in identifying the extent of impacts include the following (Society of Construction Law, 2017):

  • Measured mile
  • Earned Value
  • Program analysis
  • Work or trade sampling
  • System dynamic modeling
  • Estimated vs. incurred labor
  • Estimated vs.  used cost

Keeping detailed project records over the course of a project plays an important role in properly evaluating disruption claims. Some of the documents that need to be recorded include daily job-site reports, detailed performance reports, daily logs containing actual man-hours spent, details of change orders and the basis of calculating proposed time and cost proposals for executing change orders, and correspondences between the contracting parties.

Conclusion 

In sum, the main causes of disruption need to closely be analyzed in disruption cases. For this type of analysis, cause-and-effect analyses provide proper insight into the underlying causes of disruptions. Further investigations that make use of loss of productivity assessment methods will identify the extent productivity factors have impacted the work or resulted in additional costs.

Reference:

Society of Construction Law. (2017). Delay and disruption protocol. Society of Construction Law.

 

Author: Dr. Maryam Mirhadi, PMP, PSP | CEO and Principal Consultant

If your project has been affected by disruptions and if changes have adversely affected labor or equipment productivity on-site, or if you are interested to find out more about productivity in construction projects, please contact us. Adroit’s consultants have demonstrated their expertise in the use of the loss of productivity assessment methods and will be able to assist. You may also be interested to read the following articles:

Cumulative Impact Claims

https://www.adroitprojectconsultants.com/2018/10/29/cumulative-impact-claims/

Adverse effects of shiftwork on labor productivity

https://www.adroitprojectconsultants.com/2018/03/24/adverse-effects-shiftwork-labor-productivity/

MCAA Labor Productivity Factors

https://www.adroitprojectconsultants.com/2018/11/24/mcaa-labor-productivity-factors/

Cumulative Impact Claims

Dr.  Amin Terouhid, PE, PMP

This article describes the nature and causes of cumulative impact claims and explores the underlying factors that give rise to cumulative impacts in construction projects.

Changes that are made to a contract scope of work and modifications of work conditions are among the key causes of conflict in construction projects. The net cumulative effect of changes is often greater than the sum of the effect of individual changes.  This condition may occur when a contractor realizes that the work has been affected by unforeseeable synergistic effects of multiple changes. This condition is typically the case where the collective cost, time, and productivity impacts of the changes have been impossible for the contractor to foresee while considering each of the effects individually. The collective impacts of these types of changes are typically identified as the cumulative impact. The Construction Industry Institute (CII) describes cumulative impact as follows:

When there are multiple changes on a project and they act in sequence or concurrently, there is a compounding effect – this is the most damaging consequence for a project and the most difficult to understand and manage. The net effect of the individual changes is much greater than a sum of the individual parts. [1]

A cumulative impact claim typically arises when the changes to a contractor’s scope of work are so numerous and overlapping that the contractor had no reason to know that it was not fully pricing each of the change orders at the time it negotiated the changes one at the time.

Cumulative impacts have unique characteristics that differentiate them from other types of impacts. In the case of cumulative impacts, multiple changes occur whose cumulative effect is greater than the sum of the effect of individual changes. It is important to note, however, that the multiple changes that have a cumulative impact on a scope of work should typically be labor-related changes. Therefore, in assessing cumulative impacts, the dollar value of the changes that have occurred is not as important as their intensity in terms of the number of labor hours required to execute the changed work. The number of labor hours needed to perform the change is critical in evaluating cumulative impacts because the ultimate objective of a cumulative impact claim is to demonstrate the extent of loss of labor productivity arisen from the synergistic effects of multiple changes. It is typically expected that the more labor-intensive the changes are, the greater their individual and cumulative impacts will turn out to be.

To quantify the damages resulted from the cumulative impact of multiple changes, a variety of methods can be used some of which include actual cost method, estimated cost method, total cost method, modified total cost method, should have spent method, measured mile, and jury verdict [2]. What is important, however, is to be able to demonstrate that the damages have resulted from the causes in reference. The success of a cumulative impact claim depends primarily on the ability to establish the cause and effect relationships between the causes in dispute and the resultant cumulative impact. No definitive standard has been established or accepted by courts or dispute boards to quantify the loss of productivity claims that contain a cumulative impact component; therefore, it is typically challenging to prove that damage calculations accurately represent the damages incurred as the sole result of cumulative impacts.

As part of a cause and effect analysis, a written narrative that describes the chain of events is essential. The narrative should properly establish the relationship between causes and resultant impacts. Preparing such a written description of the events, causes, and their effects is a minimum requirement for parties involved in a claim to demonstrate the cause-and-effect relationships between various events and resultant damages. Adequate supporting documents such as excerpts from the contract, change directives, meeting minutes, relevant correspondence, and filed reports can play an important role in substantiating the arguments and supporting the statements contained in the claim.

One of the methods that are often used to assess causal relationships between causes and effects in complex construction claims is the system dynamics method. Complex cases of claim involve multiple claim components that are typically intertwined and interrelated; and as such, assessing these cases may require advanced methods such as system dynamics. This method is an approach within the system thinking domain which considers complex systems as a holistic set of interrelated components to provide a better understanding of the system. Four important questions that are asked in the process of developing a system dynamics model include what is the issue at hand, what is flowing into and gets accumulated in the system representing the problem, where and how does it accumulate, and what factors cause it to flow.

Cumulative impacts should not typically be measured right after a change or during the course of the project while the impact of changes has not fully been materialized. Instead, cumulative impacts are typically measured towards the end of the project to ensure the full adverse, synergistic effect of multiple changes can properly be identified and qualified. Untimely evaluations may partly represent the adverse cumulative impacts that take shape over time.

References:

[1]. T. Hester, John A. Kuprenas. & T. C. Chang (1991). Construction Changes and Change Orders: Their Magnitude and Impact. CII Source Document 66.

[2]. Jones, R. M. (2001). Lost productivity: Claims for the cumulative impact of multiple change orders. Pub. Cont. LJ, 31, 1.

 

If your project has been affected by multiple change orders and they have adversely affected labor or equipment productivity on-site, or if you are interested to investigate the adverse effects of cumulative impacts on your project, Adroit will be able to assist in assessing these impacts. For more information, please contact us.

 

 

Cause-and-Effect Analysis in Loss of Productivity Claims

The construction industry is one of the labor-intensive industries with a significant contribution to the economy. As such, labor productivity plays an important role in successful implementation of construction projects to ensure construction activities can be implemented in an efficient manner.

Productivity or efficiency is a relative measure of output relative to inputs. In construction projects, inputs are typically labor and equipment whose work result in certain outputs, which are typically represented by quantities of installed equipment and material onsite.

In the event of a loss of productivity claim, one of the key pieces of missing information is typically accurate and well-maintained contemporaneous productivity records to show how the contractor managed its labor force over the life of the construction project. Construction contractors also need to be able to provide adequate productivity information to properly demonstrate their original plans to ensure they are able to perform a comparative analysis to measure differential productivity over the course of the project and identify loss of productivity issues when they occur.

A myriad of factors with potential adverse effects on labor productivity have been identified in the literature. Examples include frequent change orders, stacking of trades, lack of proper site access, crew size inefficiency, and excessive overtime. Many loss of labor productivity claims suffer because they do not contain a well-established cause-and-effect analysis to properly show how productivity factors resulted in loss of productivity in a particular case.

As part of a cause and effect analysis, a written narrative that describes the chain of events is essential. The narrative should properly establish the relationship between causes and the resultant impacts. Preparing such written description of the events, causes, and their effects is a minimum requirement for parties involved in a claim to demonstrate the cause-and-effect relationships between various events and resultant damages. Adequate supporting documents such as excerpts from the contract, change directives, meeting minutes, relevant correspondence, and filed reports can play an important role in substantiating the arguments and supporting the statements contained in the claim.

One of the methods that sometimes is used to assess causal relationships between causes and effects in complex construction claims is the system dynamics method. Complex cases of claim involve multiple claim components that are typically intertwined and interrelated; and as such, assessing these cases may require advanced methods such as system dynamics. This method is an approach within the system thinking domain which considers complex systems as a holistic set of interrelated components to provide better understanding of the system.

Four important questions that are asked in the process of developing a system dynamics model include what is the issue at hand, what is flowing into and gets accumulated in the system representing the problem, where and how does it accumulate, and what factors causes it to flow.

In system dynamics, stocks are like storage reservoirs which represent values that accumulate or decay over time. For instance, in a construction project, the project may accumulate the amount of work performed (i.e., cumulative progress) or may incur damages (i.e., cumulative damages incurred). Storage levels are increased or decreased by inflows or outflows respectively causing Units to accumulate or decay. Units can be units of measurement for monetary damages in case of a construction claim. Inflows and outflows are controlled by Rates. Examples of Rate in a construction projects include productivity or defect rates. All these elements are illustrated in a graphical representation, which is considered a insightful tool for understanding and assessing complex problems.

System dynamics has matured over the last few decades, and many software packages such as Stella, Vensim, and iThink have been developed for practitioners operating in this field. A famous case that was settled using the above-referenced approach was a $500 million shipbuilder claim against the US Navy (Cooper, 1981). For more information about system dynamics or to learn more how system dynamics may be used to assess a construction claim, please contact Adroit.

Reference: Cooper, K. G. (1980). Naval ship production: A claim settled and a framework built. Interfaces, 10(6), 20-36.

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