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==Abstract==
 
==Abstract==
  
The Gantt chart as a tool is one of the keystones within the project schedule management discipline. (1). Invented by Henry Laurence Gantt in the second decade of the 20th century the tool was initially used as a visual representation of the time schedule and progress of a given project. (3). This is very much linked up with the definition of the word project, which is defined as a set of activities which has a definite beginning and a definite end. (3)
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Successful project managers apply a systematic way of thinking . This article will elaborate on this problem-solving process by applying Gantt charts as a tool within the project managers toolbox.
Gantt charts used to be a laborious process, since it was only possible to create them manually by hand. That has since changed and at the time of writing the Gantt chart has undergone a major development since its first introduction.
+
This is very much linked up with the definition of the word project, which is defined as a set of activities which has a definite beginning and a definite end .Gantt charts used to be a laborious process, since it was only possible to create them manually by hand. That has since changed and at the time of writing the Gantt chart has undergone a major development since its first introduction .The purpose of this article is to create an understanding of how to use Gantt charts in the 21st century and provide guidance on how to use them specially for project managers. What fundamental insight to obtain before implementing a Gantt chart and how to work with your Gantt chart once it is implemented. Furthermore, how to use Gantt charts together with other project schedule management tools and how that collaboration can create value for the project. The article will also present different types of software to use when working with Gantt charts and how that software has evolved the Gantt chart. Conclusively the article will present the limitations of Gantt charts as a tool by defining when, where and by whom the tool is not applicable.
The purpose of this article is to create an understanding of how to use Gantt charts in the 21st century and provide guidance on how to use them specially for project managers. What fundamental insight to obtain before implementing a Gantt chart and how to work with your Gantt chart once it is implemented.
+
Furthermore, how to use Gantt charts together with other project schedule management tools and how that collaboration can create value for the project. The article will also present different types of software to use when working with Gantt charts and how that software has evolved the Gantt chart. Conclusively the article will present the limitations of Gantt charts as a tool by defining when, where and by whom the tool is not applicable.
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==Big Idea==
 
  
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==Fundamentals of the Gantt chart==
 +
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The Gantt chart as a tool is one of the keystones within the project schedule management discipline . Presented by Henry Laurence Gantt in the second decade of the 20th century the tool was initially used as a visual representation of the time schedule and progress of a given project .
 
A Gantt chart consists of bars displayed against time. Each bar represents an activity, and the length of a bar indicates the time consumption of the given activity.
 
A Gantt chart consists of bars displayed against time. Each bar represents an activity, and the length of a bar indicates the time consumption of the given activity.
 
The left-hand side of a bar represents the beginning of an activity and the right-hand side of a bar marks the completion of an activity.  
 
The left-hand side of a bar represents the beginning of an activity and the right-hand side of a bar marks the completion of an activity.  
 
The time axis is dependent on the detail level of the chart and can therefore represent units such as years, months, days and so forth.
 
The time axis is dependent on the detail level of the chart and can therefore represent units such as years, months, days and so forth.
This can be derived from figure 1, which displays the simple algorithm of the Gantt chart.
+
This can be derived from figure 1, which displays the simple algorithm of the Gantt chart. Where the activities in the form of bars are displayed against the time axis in the chart.
The progress during the project can be linked to the Gantt chart and be tracked with a vertical line that represents the current date. Furthermore, so-called milestones can be implemented in the chart. Milestones represent key project deliverables such as the first test flight of a new airplane. This allows the project manager to obtain a better overview of the project and its time schedule and therefore enables a greater probability of the project becoming a success with regards to the project schedule management.
+
The progress during a project can be linked to the Gantt chart and be tracked with a vertical line that represents the current date. This vertical line is also present in figure 1. Furthermore, so-called milestones can be implemented in the chart. Milestones represent key project deliverables such as the first test flight of a new airplane. This is represented in figure 1 by a star.
To create a Gantt chart with sufficient and robust information it is necessary to implement the Work Breakdown Structure (WBS) method. The purpose of the WBS is to identify and segment all the different activities that defines the entire project. (2). By doing so the Gantt chart becomes highly detailed and creates a manageable chart of the entire project where constraints such as overlapping activities and dependencies can be outlined.
+
This allows the project manager to obtain a better overview of the project and its time schedule and therefore enables a greater probability of the project becoming a success with regards to the project schedule management.2
The purpose of a Gantt chart is to outline and monitor the time schedule of a project. This is enabled by making it a very graphical and intuitive tool to use, hence why it is so widely used in the discipline of project schedule management around the world.
+
To create a Gantt chart with sufficient and robust information it is necessary to implement the Work Breakdown Structure (WBS) method. The purpose of the WBS is to identify and segment all the different activities that defines the entire project . By doing so the Gantt chart becomes more detailed and creates a manageable chart of the entire project where constraints such as overlapping activities and dependencies can be outlined.
The technological advances in our modern-day society have made the use of Gantt charts a lot easier and with basic knowledge and skills it is possible to create Gantt charts using simple computer software such as Microsoft Projects. (kilde). This will be further elaborated on in the latter part of the article.
+
The purpose of a Gantt chart is to outline and monitor the time schedule of a project. This is enabled by making it a very graphical and intuitive tool to use, hence why it is so widely used in the discipline of project schedule management around the world2.
 +
The technological advances in our modern-day society have made the use of Gantt charts a lot easier and with basic knowledge and skills it is possible to create Gantt charts using simple computer software such as Microsoft Projects and Excel. This will be further elaborated on in the latter part of the article.
  
  
==Application==
 
  
The Gantt chart is applicable in the majority of projects, but there are some key steps that has to be performed in order for the chart to become useful for the project manager.
 
It is important to note that a Gantt chart is a dynamic tool which has to be managed along the project.
 
  
The first step is to define the activities that makes up the project. In this step it is advantageous to implement the Work Breakdown Structure (WBS) in order to break down the project into manageable activities. If done correctly this should allow the project manager to get a complete overview of the entire project and its activities. The detail level of this WBS is equal to the complexity of the Gantt chart.
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==Application of the Gantt chart==
  
The second step is to sequence the activities. To create a feasible schedule using a Gantt chart it is important to know in what order the different activities must be performed. Therefore, the dependencies of the activities must be clarified. There are 4 major dependencies regarding the Gantt chart:
+
The Gantt chart is applicable in the majority of projects. It is especially accustomed in projects with a continuous and/or repetitive workflow. This could include projects in form of production, construction et cetera.
 +
To apply the Gantt chart there are some key steps that has to be performed in order for the chart to become useful for the project and the project manager.
 +
It is important to note that a Gantt chart is a dynamic tool which has to be managed along the project.
  
Finish-to-start (FS): Activity a must finish before activity b can begin.
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===The five steps===
Example, the foundation of a building must be finished before the walls can be built.
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Start-to-finish (SF): Activity a must start before activity b can finish.
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The overall steps to take in order to create an adequate Gantt chart is defined by the PMBOK Guide4 (1) to be the following:
Example, the electrician, representing activity a, pulled all the wiring in the wall framing. He only needs to put up the electrical outlet plugs to finish. Before that is possible, the carpenter, representing activity b, must put up the remaining part of the wall.
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Finish-to-finish (FF): Activity a must finish before activity b can finish.  
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1. Define Activities.
Example, the carpenter from before, now representing activity a, is done with the all the walls. The painter, representing activity b, has been painting the walls as the carpenter finished them. Now that the carpenter is entirely done, the painter is able to finish his activity.
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2. Sequence Activities.
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3. Estimate Activity Durations.
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4. Develop Schedule.
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5. Control Schedule.
  
Start-to-start (SS): Activity a must start, before activity b can start.
 
Example, the carpenter from before, representing activity a must begin putting up the walls, before the painter, representing task b, can begin painting them.
 
  
In coherence with the above-mentioned dependencies there are other important factors to take into consideration. The lead and lag times are crucial to the overall project schedule management.
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==Limitations==
  
Lead time:
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==Annotated bibliography==
This is an optimization tool that can be used to compress the overall time consumption of the activities in the project. This is done by recognizing which activities can be performed in parallel or in partial parallel. Lead time is refereeing to the overlap in activities. As shown in figure x, this means that the activities are being performed simultaneously and therefore saving time. Lead time can only be implemented on activities which are defined as being of the type Finish-to-start.
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An example of the implementation of lead time is our previous example of the painter and carpenter. As soon as the carpenter has finished a certain amount of walls the painter was able to begin his activity. Presuming that the painter will not paint faster than the carpenter can build the walls. They would be able to finish their activities in sequence.
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Lag time:
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Harvey Maylor, (2001), Beyond the Gantt Chart: Project Management Moving on, University of Bath.
This works like a constraint. Lag time describes the time in between activities. For the lag time to occur there has to be a dependency between the activities. So that activity b cannot begin before activity a is finished. Lag time can develop in all 4 major dependencies described earlier in this article. It is inevitable to get through a project without lag time. Figure x aims to show the visual representation of lag time. An example of lag time is the concrete foundation of a building. Once the concrete is poured there will be a timeframe where the project has to wait on the concrete to dry and develop sufficient strength so that work can continue. This is the essence of lag time. By taking lag time into consideration when creating a Gantt chart the project manager is able to pinpoint the obstacles in the project and plan for them. This hinders the possibilities of delays.
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 +
Gunnar Lucko, Thaís Da C.L. Alves & Vanessa Lira Angelim, (2013), Challenges and opportunities for productivity improvement studies in linear, repetitive, and location-based scheduling, Department of Civil Engineering, Catholic University of America, Washington, DC, USA and Department of Civil, Construction and Environmental Engineering, San Diego State University, San Diego, USA and Integral Engenharia, Fortaleza, Brazil.
  
The third step is to estimate activity durations. In this step the time consumption of each activity is allocated. These time approximations are to be based upon the individual dependencies of the activities. It is in this step that the project manager can begin to use all the information presented in this article.
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Gus Cicala, (2020), The Project Managers Guide to Microsoft Project 2019, Wilmington, DE, USA.
By setting up the Gantt chart with all the activities and their dependencies and individual lead and lag times – a complete overview of the project is created. This enables the project manager to define the key milestones. From this information the project manager is able to derive the Critical Path Method (CPM).
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This method outlines the critical activities of a project. The activities on the CP will delay the entire project if the time consumption of these are violated. An activity on the CP cannot begin before it’s foregoing activity is finished.
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The knowledge of the CP allows the project manager to navigate in the project and ensure that the critical activities are managed.
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By completing these steps, the Gantt chart is now complete, and the project is visualized. The next step is to allocate recourses to each individual activity. The amount of recourses are linked with the time consumption of each activity. By doing so you enable the possibility of reworking you chart during the course of the project.
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Allan D. Orr, (2004), Advanced Project Management: A Complete Guide to the Key Processes, Models and Techniques, Kogan Page Business Books.
This leads to the option of managing the Gantt chart with schedule compression techniques. There are 2 major techniques:
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Crashing:
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Randal Wilson, (2014), A Comprehensive Guide to Project Management Schedule and Cost Control 1st edition, Pearson.
Relates to the technique were adding recourses to a specific activity will decrease the time consumption. This could be in the form of working overtime, assigning more workers et cetera. This technique can only be implemented on activities that are located on the critical path. When applying crashing the project manager increases the risk of the project due to the addition of cost.
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Fast Tracking:
 
The purpose of this technique is to implement as much lead time as possible. This is done by overlapping activities as much as possible. This is of course only possible in some cases. It would be catastrophically to overlap certain activities.
 
Fast tracking increases the risk of the project since activities are compressed and there is less room for error in the individual activities. The cost will also increase since the amount of work is increased.
 
 
Figure x presents the visual representation of the schedule compression techniques.
 
 
 
==Limitations==
 
 
==Annotated bibliography==
 
  
 
==References==
 
==References==
(1)Project Management Institute, Inc. (PMI) (2017), Guide to the Project Management Body of Knowledge (PMBOK® Guide) (6th Edition).
 
 
(2)National Aeronautics and Space Administration (2010), NASA Work Breakdown Structure (WBS) Handbook.
 
 
(3)Pankaja Pradeep Kumar, CCE, (2005), Effective Use of Gantt Chart for Managing Large Scale Projects, AACE International, Cost Engineering Vol. 47/No. 7.
 

Revision as of 17:03, 18 February 2021

Written by Søren Emil Kjær

Contents

Abstract

Successful project managers apply a systematic way of thinking . This article will elaborate on this problem-solving process by applying Gantt charts as a tool within the project managers toolbox. This is very much linked up with the definition of the word project, which is defined as a set of activities which has a definite beginning and a definite end .Gantt charts used to be a laborious process, since it was only possible to create them manually by hand. That has since changed and at the time of writing the Gantt chart has undergone a major development since its first introduction .The purpose of this article is to create an understanding of how to use Gantt charts in the 21st century and provide guidance on how to use them specially for project managers. What fundamental insight to obtain before implementing a Gantt chart and how to work with your Gantt chart once it is implemented. Furthermore, how to use Gantt charts together with other project schedule management tools and how that collaboration can create value for the project. The article will also present different types of software to use when working with Gantt charts and how that software has evolved the Gantt chart. Conclusively the article will present the limitations of Gantt charts as a tool by defining when, where and by whom the tool is not applicable.


Fundamentals of the Gantt chart

The Gantt chart as a tool is one of the keystones within the project schedule management discipline . Presented by Henry Laurence Gantt in the second decade of the 20th century the tool was initially used as a visual representation of the time schedule and progress of a given project . A Gantt chart consists of bars displayed against time. Each bar represents an activity, and the length of a bar indicates the time consumption of the given activity. The left-hand side of a bar represents the beginning of an activity and the right-hand side of a bar marks the completion of an activity. The time axis is dependent on the detail level of the chart and can therefore represent units such as years, months, days and so forth. This can be derived from figure 1, which displays the simple algorithm of the Gantt chart. Where the activities in the form of bars are displayed against the time axis in the chart. The progress during a project can be linked to the Gantt chart and be tracked with a vertical line that represents the current date. This vertical line is also present in figure 1. Furthermore, so-called milestones can be implemented in the chart. Milestones represent key project deliverables such as the first test flight of a new airplane. This is represented in figure 1 by a star.

This allows the project manager to obtain a better overview of the project and its time schedule and therefore enables a greater probability of the project becoming a success with regards to the project schedule management.2

To create a Gantt chart with sufficient and robust information it is necessary to implement the Work Breakdown Structure (WBS) method. The purpose of the WBS is to identify and segment all the different activities that defines the entire project . By doing so the Gantt chart becomes more detailed and creates a manageable chart of the entire project where constraints such as overlapping activities and dependencies can be outlined. The purpose of a Gantt chart is to outline and monitor the time schedule of a project. This is enabled by making it a very graphical and intuitive tool to use, hence why it is so widely used in the discipline of project schedule management around the world2. The technological advances in our modern-day society have made the use of Gantt charts a lot easier and with basic knowledge and skills it is possible to create Gantt charts using simple computer software such as Microsoft Projects and Excel. This will be further elaborated on in the latter part of the article.



Application of the Gantt chart

The Gantt chart is applicable in the majority of projects. It is especially accustomed in projects with a continuous and/or repetitive workflow. This could include projects in form of production, construction et cetera. To apply the Gantt chart there are some key steps that has to be performed in order for the chart to become useful for the project and the project manager. It is important to note that a Gantt chart is a dynamic tool which has to be managed along the project.

The five steps

The overall steps to take in order to create an adequate Gantt chart is defined by the PMBOK Guide4 (1) to be the following:

1. Define Activities. 2. Sequence Activities. 3. Estimate Activity Durations. 4. Develop Schedule. 5. Control Schedule.


Limitations

Annotated bibliography

Harvey Maylor, (2001), Beyond the Gantt Chart: Project Management Moving on, University of Bath.

Gunnar Lucko, Thaís Da C.L. Alves & Vanessa Lira Angelim, (2013), Challenges and opportunities for productivity improvement studies in linear, repetitive, and location-based scheduling, Department of Civil Engineering, Catholic University of America, Washington, DC, USA and Department of Civil, Construction and Environmental Engineering, San Diego State University, San Diego, USA and Integral Engenharia, Fortaleza, Brazil.

Gus Cicala, (2020), The Project Managers Guide to Microsoft Project 2019, Wilmington, DE, USA.

Allan D. Orr, (2004), Advanced Project Management: A Complete Guide to the Key Processes, Models and Techniques, Kogan Page Business Books.

Randal Wilson, (2014), A Comprehensive Guide to Project Management Schedule and Cost Control 1st edition, Pearson.


References

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