Delivery of a successful project is defined by your overall cost performance and ability to meet project deadlines. Project managers need to have the ability to allocate time and resources efficiently to manage costs and keep the project on its tracks. Almost all organizations look for these project management skills because they showcase your ability to stay organized and communicate with team members, especially when handling complex projects.
When practicing cost control, project managers should pay attention to the following:
- Original budget
- Approved cost
- Forecasted vs. Actual cost
- Committed costs
Project scheduling is just as important as cost budgeting as it determines the timeline, resources needed, and reality of the delivery of the project. Project managers that have experience are better able to properly dictate the tasks, effort and money required to complete a project.
This article details the processes, steps, tools and techniques involved in planning and analyzing cost control and project scheduling when managing a project from start to completion.
I.Cost Control
A. What is a Project Baseline?
Stakeholders measure projects by how well they are executed within the project constraints or baselines. A project baseline is an approved plan for a portion of a project (+/- changes). It is used to compare actual performance to planned performance and to determine if project performance is within acceptable guidelines. Every project has at least four project baselines. There may be others, depending on the project and definitions used.
B. What are Project Baselines in Project Management?
- Budget Baseline
- Schedule Baseline
- Scope Baseline
- Quality Baseline
Schedule and Budget are the focus of this post, and the terms activity and work elements are synonymous. Schedule and cost (budget) are two of the major legs of the project constraint polygon. Without the schedule and budget baselines plans, one does not know where the project stands relative to planned schedule progress or planned budget performance.
The schedule and budget baselines, along with other baselines, are developed in the planning phase of the project. The project plan is approved prior to execution by the project sponsor or an appropriate senior level manager. The project plan includes the cost and schedule. The schedule determines when work elements (activities) are to be completed, milestones achieved, and when the project should be completed. The budget determines how much each work element should cost, the cost of each level of the work breakdown schedule (WBS), and how much the total project should cost. Actual performance can be compared to these plans to determine how well the project is progressing or finished.
Schedules and budgets are interlocked, and most likely an increase in one causes an increase in the other.
II. Project Budget
The project budget is a financial plan for all project expenditures (cost). Success in project budget management depends on, amongst other things, the creation of a comprehensive, consistent, and reliable project budget. Some people want to use the term "accurate" in the above definition. But, the word "accurate" has no place in the project management world. Reliable and consistent are the terms that should be used. By definition, the project budget cannot be accurate as it is an estimate. Normal ranges of project budget variability depend on the project, the organization, the type of business, and many other factors, but usually falls within +/- 10%.
A. How to Develop a Project Budget
In the Project Management Body of Knowledge Guide® book, there are two processes to developing a project budget. The first process is Estimate Cost, which is often confused with the Determine Budget process. Both processes are normally preceded by a project management team planning process, which is executed as part of the Develop Project Management Plan. This planning process is known as the Project Cost Management or the Cost Management Plan. The Cost Management Plan outlines the processes involved in determining organizational cost categories, estimating, budgeting, and controlling cost, so that the project can be executed within the approved budget.
The Estimate Cost process is not only confused with Determine Budget but is also widely misunderstood. Many think that this process estimates the total cost of the project. But this is not correct, at least not directly. The Estimate Cost process estimates the cost for each of the work elements and records the basis of that cost. That is as far as Estimate Cost goes!
The second of the three processes in Project Cost Management is the Determine Budget process, which rolls work element cost upward, applies cost aggregation, applies project contingency, makes a cash flow estimate, and now you have a budget for the various levels of the WBS and the total project.
B. Tools to Help Analyze Cost Budget Performance
Based on the work above, we now have a budget for:
- Individual Activities
- Work Packages
- Deliverables
- The Total Project
This level of detail allows a project manager (PM) to evaluate the budget performance of the project from the top down or from the bottom up. If a work package is running over or is in danger of overrunning the budget, the project manager can drill down until he/she finds the problem or potential problem. The drill down can be by the PM or in conjunction with the assigned team member.
Earned Value Method
One other very powerful tool that helps in the analysis of project budget performance is the Earned Value Method (EVM). EVM can assist you in evaluating project budget performance (what are you accomplishing for the funds you are expending) and in calculating a Cost Performance Index (CPI), which is a representation of the effectiveness of your spending. EVM can calculate a Cost Variance (CV), which is the difference between the value of the work completed and the amount of funds expended to accomplish that work. This will tell you the magnitude of the over- or under-run or if you are on budget. EVM can be applied down to the work element level if the appropriate level of detail exists.
Variance Analysis
Variance analysis is another tool to help the PM understand why work elements are over- or under budget. The Cost Management Plan probably sets thresholds for overruns (say 10%), a different threshold for under runs (say 15%), to trigger your attention. Understanding why work elements are overrunning will assist the PM to develop solutions (action plans) to bring the project back within acceptable ranges. Understanding why work elements are significantly under budget assist the PM in feeding this information forward to new project budget development.
Regardless of experience, care, or execution effort, project budget variances will occur. This is just a fact of the project world. While they cannot all be eliminated, they can be reduced for future projects. Some (not many) projects will finish very close to the budget. More projects will finish within acceptable ranges (+/-10%). Others (we hope not many) will finish well outside the acceptable range (>10% over or under). Using the techniques outlined here will reduce the number of projects in this category and reduce the size of the overruns.
C. How to Successfully Manage a Project Budget
- Capture all of the scope (scope statement, WBS, and WBS dictionary). If you do not capture the total project scope correctly, there is little hope that the project can be executed for the budget or schedule.
- Insist on input from all stakeholders. Penetrate through stated needs and include implied needs.
- Determine the various cost categories used at the organization.
- Develop Project Team and Project Management Team trust.
- Develop a reliable, consistent, sufficiently detailed WBS and time decomposition structure. Estimate Cost and Determine Budget.
- Stop scope and grade creep. Eliminate gold plating. None of these adds value to the project. Your team is your first line of defense.
- Perform EVM, variance, and trend analysis.
- Continuously communicate to stakeholders on project status, project direction, and what the project will look like at completion.
- Use organizational process assets (OPA) to develop, analyze, and challenge.
- Avoid the pitfalls in Section IV (below).
- Take action when indicated (sooner rather than later)!
III. Project Schedule
In project management, the project schedule is a document that, if properly prepared, is usable for planning, execution, monitoring/controlling, and communicating the delivery of the scope to the stakeholders. The main purpose of project scheduling is to represent the plan to deliver the project scope over time. A project schedule, in its simplest form, could be a chart of work elements with associated schedule dates of when work elements and milestones (usually the completion of a deliverable) are planned to occur. In addition to guiding the work, the project schedule is used to communicate to all stakeholders when certain work elements and project events are expected to be accomplished. The project schedule is also the tool that links the project elements of work to the resources needed to accomplish that work.
At a minimum, the project schedule should include the following components:
- All activities
- A planned start date for the project
- Planned start dates for each activity
- Planned finish dates for each activity
- Planned finish date for the project
- Resource assignments
- Calendar based
- Activity durations
- The "flow" (sequence) of the various activities
- The relationships of activities
- An identified critical path(s)
- Total and free float
A. How to Develop a Project Schedule
PMI® has a Develop Schedule process and the main output is the project schedule. This is the result of four previous processes plus the work of up to eight tools and techniques for the Develop Schedule process. The project schedulling process includes:
- Define Activities (work elements)
- Sequence Activities
- Estimate Activity Resources
- Estimate Activity Duration
The tools and techniques available to the project schedule are:
- Schedule network analysis
- Critical Path Method
- Critical Chain Method
- Resource leveling
- What-if scenarios
- Leads and lags
- Schedule compression
- Scheduling tools
B. Tools to Evaluate Project Schedule Performance
Based on the work above, we now have a schedule for:
- Individual Activities
- Work Packages
- Deliverables
- The Total Project
This level of detail allows a project manager to evaluate the schedule performance of the project from the top down or from the bottom up. If a deliverable is slipping or is in danger of slipping, the project manager can drill down until he/she finds the problem or potential problem.
Earned Value Method
One other very powerful tool that will help in this analysis is the Earned Value Method (EVM). EVM can assist you in evaluating project schedule performance (what has been accomplished related to the plan), and calculate a Schedule Performance Index (SPI), which is a representation of the effectiveness of accomplishing your planned schedule.
EVM can also calculate a Schedule Variance (SV) which is the difference between the value of the work completed and the value of the planned work. This will tell you the magnitude of the behind schedule, ahead of schedule, or if you are on schedule. EVM can be applied down to the work element level if the appropriate level of detail exists. EVM does have several drawbacks, but there are solutions to the drawbacks:
1. EVM ignores the critical path. There are two things we can do to solve this problem.
a. Perform a separate CP analysis.
b. Strip out all non-CP work elements and perform a second EVM analysis.
2. As the project nears completion, EVM breaks down for schedule analysis. This is because as the project nears completion, EV approaches PV, and in fact, reaches PV at project completion. SV and SPI lose their meaning
Variance Analysis
Variance analysis is another tool to help the project manager understand why work elements are behind or ahead of schedule. The Time Management Plan probably sets thresholds for behind schedule (say 5%), and a different threshold for ahead of schedule (say 10%), to trigger your attention. Understanding why work elements are behind schedule will assist the project manager in developing solutions (action plans) to bring the project back within acceptable ranges. Understanding why work elements are significantly ahead of schedule will assist the project manager in feeding this information forward to new project schedule development. Regardless of care or execution, project schedule slippages will occur. This is just another fact of the project world. While they cannot all be eliminated, they can be reduced for future projects. Some (not many) projects will finish very close to the scheduled date. More projects will finish within acceptable ranges (+/-5%). Others (we hope not many) will finish well outside the acceptable range (>10% behind or ahead). Using the techniques outlined here will reduce the number of projects in this category and reduce the size of the behind variances.
C. Tips on How to Successfully Manage a Project Schedule
- Use all the tips from "Successfully Managing a Project Budget".
- Avoid the pitfalls in Section IV (below).
- Get reports, even if you have to have them customized, from your scheduling software that tells you what is going on with the project and schedule accomplishment.
- When work elements slip, analyze the cause and impact. Take action as necessary. These things will not fix themselves.
- When resources do not materialize as planned and agreed, estimate the impact, and communicate this to management!
- When things go wrong, analyze why, estimate the impact, communicate with stakeholders and take action to bring the schedule accomplishment back within acceptable ranges.
IV. Why Projects are Late and Over Budget
A. Omissions - Leaving out work that must be done. Examples could include documentation, interfaces with the PMO, or interfaces with other projects.
B. Merging - The point at which several project schedule paths meet. Successor work cannot begin until predecessor's work is complete. The time to get through this point tends to increase with the number of activities being merged.
C. Errors - Mistakes or work not done at all. Errors, though expected, are rarely accounted for in the planning phase.
D. Rework - Work not completed in accordance with company standards and, thus, must be redone. There is a human nature reluctance to report bad news.
E. Failure to understand the complexity of the project - Inability (especially true of technical people) to understand the complexity of the work planned. This causes us to underestimate both budgets and durations.
F. Queuing - Improper allocation of resources to critical path activities.
G. Multitasking - Most companies nowadays insist their people multitask. This causes project activities to wait on resources and suffer efficiency degrades while switching activities and delays in the network as each activity is extended.
H. Student Syndrome - Team members waiting to start work until there is schedule pressure. This will ultimately affect the critical path and the project completion date.
I. Policy - Company policy about merits, bonuses, performance reviews, or other rewards can drive people to do the wrong thing. Rewards or punishments given out for being early, on time, late, over budget, on budget, or under budget will drive people to protect themselves and do things not to generate rewards but to avoid punishment.
J. Level of Effort - Work that is not related to activities, but extends for the project duration, will increase with schedule extensions.
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About the Author
As an instructor and consultant for Global Knowledge, Mr. Scott shares his experience and expertise as a Professional Engineer (PE), a certified Program Management Professional (PgMP) and Project Management Professional (PMP) who specialized in large, complex, long-term and constructed environmental project work for electric utilities and heavy industry. Mr. Scott has over 30 years' experience in engineering, managing projects, training and as a professional skills consultant.
In addition to program and project management experience, Mr. Scott was a certified Arbitrator with the American Arbitration Association for 10 years specializing in construction and commercial disputes. He has authored numerous papers on project management and developed the curriculum for many project management courses. Mr. Scott has BS in Electrical Engineering from the University of Alabama, a BS in Mechanical Engineering from the University of Alabama, a Certificate in International Operations from the Stockholm School of Economics, and has attended numerous short courses on Engineering, Business, Project and Program Management. Mr. Scott is a member of National Society of Professional Engineers (NSPE), the Institute of Electrical and Electronic Engineers (IEEE), and the Project Management Institute (PMI).