University of Waterloo

University of Waterloo Civil Engineering

CIV E 596 – Construction Management Computer Lab. On Excel

1. Log into your NEXUS account 2. Download file Chapter2.xls from the course web site www.civil.uwaterloo.ca/tarek 3. Activate Excel 4. In a new sheet, construct the following data table

Notice how Excel organizes data in the form of a list (or Table). No empty columns or rows.

Experiments

1. Write a simple equation to calculate the profit for project Pr1 in cell (F2), as a percentage. 2. Copy the previous equation to calculate the profit for all projects. 3. Sort the data in the table to show the maximum profits first. 4. Add another sort to show the maximum profit under each type of project. 5. Use auto filter to show only the projects in central area. 6. Use auto filter to show only positive profits in all areas and all types of projects. 7. Add more projects using the Data - Form menu option. 8. Write a (VLOOKUP) function to retrieve the profit of any project as a function of project code . 9. Construct a Pivot Table to show a report in which you can select any project type and any area. The report directly shows the budget, actual cost, and profit of associated projects. 10.Use the previous pivot table to show the total profit for Bridges in the West area.

Manually draw an organization chart to represent the data in the previous Excel list University of Waterloo Civil Engineering

CIV E 596 – Construction Management Computer Lab. On Microsoft Project

Today:

Planning on Microsoft Project

Excel Pivot Tables University of Waterloo Civil Engineering

CIV E 596 – Construction Management Computer Lab. On Estimating & EasyPlan

 Log into your NEXUS account.  Download file CPM.xls from the course web site www.civil.uwaterloo.ca/tarek  Experiment with the CPM spreadsheet.

 Activate Microsoft Project Software  Follow the guidelines in the book (pages 127-129) for setting up a new project.  Enter the data of the small project in Assignment 3, assume all activity durations are 3 days.  Save the Microsoft Project file.

 Download EasyPlan.exe from the course web site www.civil.uwaterloo.ca/tarek  Install EasyPlan into your temporary drive.  Make sure Excel Solver is on and Macros enabled then, Activate EasyPlan.xls  Browse the various features of EasyPlan.  Load and have a look at the tutorial examples.  Use Save-As and give a new name to the project file, say Assignment3.xls  Enter the general project data in the main screen.  From the Project menu, import the saved Microsoft Project file into your project.  Go to the Activities & Estimates option and make select the auto-estimate option.  Select one of the estimates, click on the Edit button to change the estimate data.  View the resource bank and add the various resource categories needed for the project.  Continue with the assignment.

Other Experiments:  Use Save-As and give a new name to the project file.  Select manual estimates for the activities and enter some factitious data for cost and time.  Go to the schedule and have a look at the bar chart.  Experiment with Schedule optimization.  Experiment with the various features and reports of EasyPlan. University of Waterloo Civil Engineering CIV E 596 – Construction Management Computer Lab. On Repetitive Construction

Managing projects in so many locations in so little time New version to manage combination of in-house, outsourcing, & out-tasking. Key Benefits:

Manage a combination of crews, subs, & contractors

Optimize site order & work methods to meet deadlines

Color-Coded schedules

Consider budget limits, traffic conditions, & user constraints

Maximize the gain from your Asset Management Systems

Full depository of resources, activities, &100s of sites

Three auto-estimates per activity

Local productivity factors at various sites

Full tracking & project control

GIS technology& Palm devices

Site layout optimization

Objective Exercise: Basic scheduling for  Load the file CPM-LOB.mpp. from EasyPlan’s directory. Look at the activities repetitive projects of this one unit of a small project. The duration of this unit is ______days. Now, we have 5 units to construct within 45 days. Go ahead and activate the macro by selecting Tools-Macro-Macros, then select CPM-LOB.mpp!Lob and hit Run. Change the number of crews in activity D into 4 crews. Do you still meet the deadline? If not, try to meet it without changing the crews. Try using interruption.

Powerful scheduling for  Download BAL-DEMO.exe from the course web site. Install BAL. Run Program projects with repetitive BAL version by activating BAL-DEMO.exe or from Start-Programs-BAL tasks and multiple sites. DEMO. Go to the resource bank, view all sites, and change the productivity Can be used for owners factors only for the first four sites to: January 0 .7, February 0.8 and March 0.9, and contractors and and leave all others as 1.0s. In BAL main screen, activate the BAL-Schedule works for construction button to access MS Project. Use Project-Information to change project start and maintenance data to Jan. 2, 2002. Use the BAL Schedule toolbar button, then the Project programs. Examples Data button. Change the deadline to March 25, 2002. Go to the Activities tab are multi-housing, and scroll through the activities. Change the maximum number of crews for pipelines, highways, activity “Subbase” to 3. Save and proceed. Try to meet the deadline. Use etc. optimization options. After every trial notice the arrangement of the sites, the number of crews used, and the method of construction used. Try manually to shift the sites that take long durations later in the order. Notice the effect on time and cost. Best duration obtained is ____ days and minimum cost is______. University of Waterloo Civil Engineering

CIV E 596 – Construction Management Computer Lab. On Resource Leveling

 Activate Microsoft Project Software and start a new project.

 Enter the data of the small project shown.

 In the resource sheet, specify a resource named L1 with only 20 available.

 Return back to the bar chart and specify 2 L1 resources for each activity.

 Modify the bar char to show resource name on the right side of bars.

 Project duration is ______.

 Have a look at the resource graph (profile).

 Maximum number of L1 used is ______on days ______.

 Minimum number of L1 used is ______on days ______.

 Back to the bar chart and activate Tools, Resource Leveling….

 Now, try to improve the resource profile by leveling within slack (float).

 Maximum number of L1 used is ______on days ______.

 Minimum number of L1 used is ______on days ______.

 Insert two columns for the “Total Slack” and the “Levelling Delay”. Notice the values.

 Clear the resource leveling.

 In the resource sheet, specify the limit of L1 to be only 6.

 Have a look at the resource profile. Do we exceed availability limit? ______.

 Back to the bar chart and activate Tools, Resource Leveling….

 Now, try to meet resource demands by leveling (not limited by float).

 Have a look at the resource profile. Do we exceed availability limit? ______.

 Project duration after resource leveling is: ______.

 Look at the leveling delays column.

 Can you draw a modified network considering these delays?

 Download and activate the file Sch-Level.xls.

 Notice the 45-day schedule meets resource demands.

 Notice the delay values and the moment calculations.  Manually delete the delay values and enter the values determined by MS project for the same example.

 Can you manually improve the profile and meet the resource limits?

University of Waterloo Civil Engineering

CIV E 596 – Construction Management Computer Lab. On Time-Cost Trade-Off

 Load the file TCT.xls file and use the cost slope approach to meet a 110-day deadline. Your best cost is: $______.

 Download the latest version of EasyPlan. Activate the program.

 Enter the data of the small project shown: D(9) 2 5 a. In the Activities & Estimates enter the estimatesA(8) H(8) b. From the Network Diagram, enter network data B(4) E(14) 1 4 7 c. In the main screen, specify deadline, etc. F(6) I(3) C(5) 3 6 G(7)  Determine the least costly strategy for a 20-day duration using

the optimization feature of EasyPlan. Normal Normal Crash Crash Activity Duration Cost Duration Cost  Return back to the Estimate and specify A 8 16,000 6 19,000 2 L1 resources for each activity. B 4 10,000 No crashing C 5 15,000 No crashing  In the main screen, specify a limit of 4L1. D 9 18,000 7 19,000 E 14 10,000 No crashing  Determine the least costly strategy to F 6 15,000 No crashing G 7 10,000 No crashing meet both the deadline and the resource H 8 16,000 6 18,000 limit. I 3 10,000 No crashing Note: Daily indirect cost is $1,000/day.

 Use Easyplan to try finding an optimum solution to the exercise in the TCT.xls. Your best cost is $______.