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FACTORS AFFECTING IN THE PREPARATION OF CONSTRUCTION
WORK SCHEDULE
JUSTIN BONG CHUNN TAT
UNIVERSITI TEKNOLOGI MALAYSIA
PSZ 19:16 (Pind. 1/07)
DECLARATION OF THESIS / POSTGRADUATE PROJECT PAPER AND COPYRIGHT
Author’s full name :
Date of birth : Title : Academic Session :
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1. The thesis is the property of Universiti Teknologi Malaysia. 2. The Library of Universiti Teknologi Malaysia has the right to make copies for the purpose
of research only. 3. The Library has the right to make copies of the thesis for academic exchange.
Certified by:
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NOTES : * If the thesis is CONFIDENTIAL or RESTRICTED, please attach with the letter from the organisation with period and reasons for confidentiality or restriction.
UNIVERSITI TEKNOLOGI MALAYSIA
CONFIDENTIAL (Contains confidential information under the Official Secret Act 1972)*
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(full text)
JUSTIN BONG CHUNN TAT
10 NOVEMBER 1985
FACTORS AFFECTING IN THE PREPARATION OF CONSTRUCTION WORK SCHEDULE
2008/2009
851110-13-6327
25 JUNE 2009 25 JUNE 2009
PROF DR MUHD ZAIMI ABD MAJID
“I hereby declare that I have read this thesis and in my opinion this thesis is sufficient
in terms of scope and quality for the award of the degree of Master of Science
(Construction Management)”
Signature : ……………………………………
Name of Supervisor : Prof. Dr. Muhd Zaimi Abdul Majid
Date : 30 JUNE 2009
FACTORS AFFECTING IN THE PREPARATION OF CONSTRUCTION
WORK SCHEDULE
JUSTIN BONG CHUNN TAT
A project report submitted in partial fulfillment of the requirements for the award of
the degree of Master of Science (Construction Management)
Faculty of Civil Engineering
Universiti Teknologi Malaysia
30 JUNE 2009
ii
“I declare that this project report entitled “Factors Affecting in the Preparation of
Construction Work Schedule” is the result of my own research except as cited in the
references. The report has not been accepted by any degree and is not concurrently
submitted by any candidature of any other degree.”
Signature : ……………………………….....
Name : JUSTIN BONG CHUNN TAT
Date : 30 JUNE 2009
iii
DEDICATION
Especially to my beloved father, mother, brother,
and all my friends.
iv
ACKNOWLEDGEMENT
I wish to express my sincere appreciation to my supervisor Professor Dr.
Muhd Zaimi Abdul Majid for his effort, encouragement and guidance.
In preparing this project, I was in contact with many industry practitioners.
They have given me tips and useful information in order for me to complete the data
sourcing. I am very thankful for them.
Last but not least, I am grateful to all my family members and friends for their
support and understanding and providing me the fundamentals of character and work
ethics to complete this task. Moreover, for their prayers, courage and understanding
for me in my endurance to complete this mission.
v
ABSTRACT
Construction scheduling is widely used in many construction projects today
but there still exists a large disparity in the proper use of this tool. Many projects
schedule is created at the beginning of the project and never reviewed or revised until
a problem arises. Besides, contractors lack the skills necessary for preparing good
construction schedule. Therefore, the objectives of this study are to investigate the
factors affecting the preparation of better construction schedule; establish the severity
of these factors; and the methods of improvements for preparing better construction
schedule. Comprehensive literature review has been conducted to gather the
information on the factors affecting the preparation of construction work schedule
followed by structured questionnaire distribution as a main tool to gain data to
establish the severity of these factors. The data attained were analyzed using average
index and frequency analysis. From the analysis highlighted, there were thirty-five
(35) factors where these factors were divided into four (4) main categories which
were project specific factors, project management, working condition and external
environment related factors. Hence, the results showed the top three factors that have
the highest rank were complexity of project, identification of critical activities and
type of project involved. In conclusion, the study also identified recommendations
that can be used by the project participants in order to prepare effective and good
construction work schedule in the local construction industry.
vi
ABSTRAK
Penjadualan kerja pembinaan digunakan secara meluas dalam banyak projek-
projek pembinaan hari ini tetapi cara penggunaannya masih tidak betul dan tepat.
Kebanyakan penjadualan projek dihasilkan pada permulaan projek tidak pernah dikaji
atau disemak semula sehingga sesuatu masalah muncul. Selain itu, ramai kontraktor
tidak mempunyai kemahiran yang mencukupi dalam penjadualan kerja pembinaan.
Oleh demikian, objektif kajian merangkumi penyiasatan factor-faktor dalam
mempengaruhi persediaan penjadualan kerja pembinaan yang lebih baik,
mengenalpasti tahap kritikal setiap faktor dan pengenalpastian kaedah peningkatan
penyediaan jadual kerja pembinaan yang lebih berkesan. Kajian literatur secara
komprehensif telah dilakukan untuk mengumpul maklumat mengenai faktor-faktor
yang menyebabkan kelemahan prestasi projek prmbinaan melalui kajian sebelum ini.
Seterusnya, kajian soal selidik telah dilakukan untuk mengumpul data bagi
mengenalpasti tahap kritikal setiap faktor. Data-data yang diperolehi dianalisis
menggunakan index purata dan analisis frequensi. Keputusan kajian menunjukkan
terdapt 35 faktor penyebab dikenalpasti dimana faktor-faktor itu dibahagikan kepada
4 kategori utama iaitu faktor khusus projek; pengurusan projek; keadaan kerja dan
faktor luaran. Dari analisis, 3 faktor utama yang mempunyai tahap kritikal tertinggi
adalah kerumitan projek, pengenalpastian aktiviti-aktiviti genting dan jenis projek
yang terlibat. Kajian ini juga memberi cadangan-cadangan yang boleh digunakan
oleh pihak-pihak yang terlibat dalam projek untuk menyediakan jadual kerja
pembinaan yang lebih efektif dan berkesan dalam ndustri pembinan tempatan.
vii
TABLE OF CONTENTS
CHAPTER TITLE PAGE
DECLARATION ii
DEDICATION iii
ACKNOWLEDGEMENT iv
ABSTRACT v
ABSTRAK vi
TABLE OF CONTENTS vii
LIST OF TABLES xii
LIST OF FIGURES xiii
LIST OF APPENDIXES xiv
1 INTRODUCTION
1.1 Introduction 1
1.2 Background of Study 2
1.3 Problem Statement 4
1.4 Aim and Objectives of the Study 6
1.5 Scope of the Study 7
1.6 Significance of the Study 7
1.7 Research Methodology 8
1.8 Summary 8
viii
CHAPTER TITLE PAGE
2 LITERATURE REVIEW
2.1 Introduction 10
2.2 Importance of Construction
Work Scheduling 10
2.2.1 Benefits of Construction Work Schedule 12
2.2.2 Developing a Construction Work Schedule 13
2.3 Construction Work Scheduling Techniques 14
2.3.1 Bar Charts 15
2.3.2 Critical Path Method 15
2.3.3 Choosing the Right Scheduling
Method 18
2.4 Developing Scheduling Specifications 19
2.5 Responsibility of Schedule Preparation 20
2.5.1 The Clients / Owners 22
2.5.2 The Construction Manager 22
2.5.3 The Designers 24
2.5.4 The Contractor and Subcontractors 24
2.5.5 The Design-Build Firm 25
2.5.6 Fabricators and Vendors 25
2.6 Sources of Planning Work Schedule 26
2.6.1 Construction Materials 26
2.6.2 Machineries and Equipments 26
2.6.3 Labours and Manpower 27
2.6.4 Finance 27
2.6.5 Time 28
2.7 Control and Monitor Construction Work
Schedule 28
2.8 Characteristics of Good Construction Work
Schedule 29
2.8.1 The Plan 29
2.8.2 Subcontractor Input 30
2.8.3 Schedule Card Trick 30
ix
CHAPTER TITLE PAGE
2.8.4 Explicit Activities Name 31
2.8.5 The Right Level of Detail 32
2.8.6 Well Organized Activities
Groupings 33
2.8.7 Proper Consideration of Weather 33
2.9 Requirements of Successful Construction
Work Schedule 34
2.10 Factors Affecting Preparation of Better
Construction Work Schedule 36
2.10.1 Project Specific Factors 39
2.10.2 Project Management 40
2.10.3 Working Condition 41
2.10.4 External Environment 41
2.11 Summary 42
3 RESEARCH METHODOLOGY
3.1 Introduction 43
3.2 Literature Review 43
3.3 Methods of Data Collection 44
3.3.1 Primary Data Collection 45
3.3.2 Secondary Data Collection 45
3.4 Analysis Method 47
3.5 Reporting Results 48
3.6 Summary 49
4 DATA ANALYSIS AND FINDINGS
4.1 Introduction 50
4.2 Data Collection 50
4.3 Demographic Profile of Respondents 51
4.3.1 Respondent’s Highest Qualification 51
x
CHAPTER TITLE PAGE
4.3.2 Respondent’s Experience 52
4.3.3 Current Working Position 53
4.4 The Analysis of the Factors 53
4.4.1 Analysis of Projects Specific Factors
Considered 54
4.4.1.1 Average Index Analysis 54
4.4.1.2 Frequency Analysis 55
4.4.2 Analysis for Project Management Factors
Considered 57
4.4.2.1 Average Index Analysis 57
4.4.2.2 Frequency Analysis 59
4.4.3 Analysis for Working Condition Factors 63
4.4.3.1 Average Index Analysis 63
4.4.3.2 Frequency Analysis 64
4.4.4 Analysis for External Environment Factors 66
4.4.4.1 Average Index Analysis 66
4.4.4.2 Frequency Analysis 67
4.5 Analysis on Improvement Methods in
Preparing Better Construction
Work Schedule 68
4.6 Additional Suggested Factors Affecting
In the Preparation of Construction
Work Schedule 70
4.7 Discussion of Findings 70
4.8 Summary 73
5 CONCLUSION AND RECOMMENDATION
5.1 Introduction 75
5.2 Conclusion 75
5.3 Recommendations for future Study 79
5.4 Summary 80
xi
CHAPTER TITLE PAGE
REFERENCES AND BIBLIOGRAPHY 81
APPENDIXES 84
xii
LIST OF TABLES
CHAPTER TITLE PAGE
4.1 Project Specific Factors Considered in Preparing
Better Construction Work Schedule 56
4.2 Project Management Factors Considered in Preparing
Better Consruction Schedule 61
4.3 Working Condition Factors Considered in Preparing
Better Construction Work Schedule 65
4.4 External Environment Factors Considered in Preparing
Better Construction Work Schedule 65
4.5 Improement Methods in Preparing Better Construction
Schedule 69
5.1 Factors Affecting the Preparation of Better Construction
Work Schedule 76
5.2 Severity of Factors Affecting Preparation of Better
Construction Work Schedule 77
xiii
LIST OF FIGURES
CHAPTER TITLE PAGE
1.1 Research Framwork Flow Chart 9
4.1 Highest Qualification of Respondents 52
4.2 Working Experience of Respondents 52
4.3 Working Position of Respondents 53
4.4 Project Specific Factors 54
4.5 Tabulatin of Project Specific Factors 56
4.6 Project Management Factors 58
4.7 Tabulation of Project Management Factors 60
4.8 Working Condition Factors 63
4.9 Tabulation of Working Condition Factors 64
4.10 External Environment Factors 66
4.11 Tabulation of External Environment Factors 67
4.12 Tabulation of Improvement Methods 68
xiv
LIST OF APENDIXES
CHAPTER TITLE PAGE
APPENDIX A QUESTIONNAIRE FORM 84
INTRODUCTION
CHAPTER 1
CHAPTER 1
INTRODUCTION
1.1 Introduction
The construction development projects are vastly increasing in Malaysia as
the Government is taking the initiative towards making Malaysia a developed
country by 2020. In association to that, the construction arena became the catalyst
for this development purpose. Malaysian today is mesmerized by the unique
development today namely the Kuala Lumpur Tower, The Petronas Twin Tower,
Kuala Lumpur International Airport in Sepang and The North-South Light-Way-
Transit. These have become the Malaysian’s pride.
Nevertheless, in ensuring these massive projects to be completed and utilized,
some important elements must be considered, such as cost, time period and design
quality. Thus, in this research, time factor for the completion of a project is crucial.
The construction development projects in Malaysia have adopted several
scheduling and monitoring techniques to handle similar projects using manual or
computer software operations. The clients monitor and check progress evaluations
of work at site through his representative, the Superintending Officer or nominate
other consultants.
2
Generally, the site supervisor will prepare scheduling reports to be evaluated
and recommended by the client. The scheduling technique used will be the
Precedence Diagram presented in the form of Microsoft Project or Primavera
computer software.
This methods of scheduling is becoming more widely used in most of the
construction projects especially Government projects. Thus, with this new
technique, the process of construction in future can be identified and understood.
Therefore, research is done to identify factors affecting the preparation of a
workable schedule of using Gantt chart, critical path method and other elements in
the development projects in Malaysia. The usage of this method is predicted to
reduce the problem of late possession of site and ensure that optimum cost,
completion time and highest quality throughout the project.
1.2 Background of Study
Construction scheduling has come a long way in the last 25 years.
Unfortunately, despite the widespread use of computerized scheduling on
construction projects today, there still exists a large disparity in the level of
understanding in the proper use of this powerful tool. According to Frank (2004),
some even say there is a crisis in the construction industry because they believe
scheduling software is being misused to assert delay claims and there is, in their
view, a predominance of poor quality schedules.
The monitoring and control for construction projects sometimes cannot be
seen on the whole and it takes a long time to reach a solution for any problem. The
planning which is drafted together with current needs at that time will also give rise
to late possession of sites and other problems regarding to site possession.
3
In association to that, the clients and contractors should be exposed to the
importance and benefits of using work scheduling as an effective way to plan future
work. The concept of work scheduling technique using critical path and Gantt chart
gives a great impact on a project by assimilating every party involved in the
construction project in reducing cost, shorten the time period and increase the
quality of construction productivity.
Glenwright (2008) also stated that a characteristic of contemporary project
scheduling is the over-simplification which stems from the inability of unaided
human beings to cope with sheer complexity. Even though a detailed plan is
necessary, the management also need only act when deviations from the plan occur.
A technique can be developed to resolve this situation that would be very simple but
yet rigorous in application. One of the difficulties in the traditional approach is that
planning and scheduling are carried on simultaneously.
Besides that, according to Twomey (2006), delivering a project on time
relies on managing the development process, choosing experienced professionals,
assessing timeframes realistically, and anticipating that some unforeseen problems
are likely to come up. Aggressive management of typical scheduling issues that
occur throughout construction can help ensure that projects are completed within the
intended timeframe.
Hendrikson (2008) mentioned that in developing a construction plan, it is
common to adopt a primary emphasis on either cost control or on schedule control.
Some projects are primarily divided into expense categories with associated costs. In
these cases, construction planning is cost or expense oriented. Within the categories
of expenditure, a distinction is made between costs incurred directly in the
performance of an activity and indirectly for the accomplishment of the project. For
other projects, scheduling of work activities over time is critical and is emphasized
in the planning process.
Traditional scheduling procedures emphasize the maintenance of task
precedences (resulting in critical path scheduling procedures) or efficient use of
4
resources over time (resulting in job shop scheduling procedures). Finally, most
complex projects require consideration of both, cost and scheduling over time, so
that planning, monitoring and record keeping must consider both dimensions. In
these cases, the integration of schedule and budget information is a major concern.
According to Glenwright (2008), the first step was to separate the functions
of planning from scheduling. The basic elements of a project are activities and
resource expenditures and execution times are associated with each activity in the
project. These factors, combined with technological relations, produce schedules
proposing varying completion dates. Management comes into possession of a
spectrum of possible schedules, each having an engineered sequence, a known
elapsed time span, a known expenditure function, and a calendar fit.
In fact, Twomey (2006) stated that the key factors in keeping a project on
track are to understand what causes delays and then to properly plan and manage
schedule issues before they become problems. Delays of individual construction
tasks may not be preventable. However, those that can’t be avoided do not
necessarily have to hold up the entire project. The success of any construction
project is based on balancing the resources of cost, quality, and schedule. All three
of these issues are important. On many projects, however, time is the most critical
issue for the overall success of the plan.
1.3 Problem Statement
Some project participants care more about their schedules than others. Some
contractors prepare schedules only because it is a contract requirement. On far too
many projects schedule is created at the beginning of the project and never reviewed
or revised until a problem develops. The best approach is for all project participants
to join in the scheduling process and develop a meaningful schedule, and then use it
5
throughout the duration of the project. This is most likely to happen when the
schedule is realistic, useable, and understood by all of the project participants.
Besides, Harban Singh (2004) mentioned that work schedule submitted by
the contractor should contain the main activities, sequence of activities, timing of
activities, critical activities and critical path, and important milestones. Since there
are no clear guidelines for the application of project scheduling in project
management the current practice is entirely depending on the experience of the
project manager. This has resulted in a lot of time wasting effort before parties
involved in the project accept any work schedule.
Nevertheless, there are still weaknesses in term of formal guidelines for the
preparation and submission of work schedule. Several problems associated with
project scheduling are the inability to fully utilize the schedule, lack of
understanding of scheduling techniques, and unable to see the importance of work
schedule as stated by Mohamad Ibrahim et al (2006).
Furthermore, Jon et. al.(2002) said that as many contractors lack the skills
necessary for successful scheduling, an owner may choose instead to provide to the
contractor for successful scheduling consultant and may even pay for this service.
The participation of key subcontractors and suppliers to the development of a
workable plan (detailed activity plans) is emphasized by Claugh and Sears (2000)
and Walker (1996) who argues that construction planning and scheduling must be
done by participation of people who are experienced in and familiar with the type of
field work involved.
A similar idea is advocated by Ballard (1997) who emphasizes the idea of
enabling what he calls the ‘‘Last Planner’’ participation in producing directives to
drive direct work processes ‘‘assignments’’. He thinks that failing to prepare good
assignments by planning at crew level, will prevent plans from being realized even if
the upstream planning was good. The ‘‘last planner’’ principle requires selecting
assignments from activities that are known to can be done. Without this has caused
the uncertainty and variation of work flow, which results in less percentage of non-
6
productive time. Problems will arise in sequencing decisions which was made by
last planners based on their knowledge of working conditions and constructability
issues, as well as, selecting the right amount of work which will use the labor and
equipment capacity as directed by the schedule.
However, it appears that it is not how often the network is recalculated or
updated but instead it is how well the plan and schedule continue to fit the actual
conduct of the work. As many of the key problems of implementation lie in the
general environment of the project and not under the direct control of the project,
project managers must look outside the project and ahead to anticipate problems and
develop contingency plans. Kiiras (2001) stated that this can only be achieved by
means of continuous planning and steering during project life instead of the
traditional detailed project planning before the start and reporting during execution.
1.4 Aim and Objectives of the Study
The aim of this study is to identify the factors affecting in the preparation of
construction work schedule.
To achieve the aim, the main objectives of this study are outlined as follows:
(1) To investigate the factors affecting in the preparation of better
construction work schedule;
(2) To establish the severity of these factors; and
(3) To identify improvement methods in preparing better construction work
schedule.
7
1.5 Scope of the Study
The scope of study is confined to building projects undertaken by contractors
registered with class G5 to G7 under Construction Industry Development Board
(CIDB) in the locality of Johor.
1.6 Significance of the Study
The study intends to analyze and promote a better understanding and
recognition of the complexities of the performance of contractors in completing
projects. This study will offer some practical ideas, based on actual construction
experience, to assist contractors in developing realistic construction schedules. It is
intended to make the reader aware of certain aspects that frequently seem to be
ignored and to alert owners to potential problems as well as possible courses of
action to avert problems. The points outlined in the paper will also assist owners in
evaluating the qualifications of potential contractors who may propose on building
development projects.
8
1.7 Research Methodology
In achieving the results of this study, a pilot study is done to obtain opinion
from various parties involved in the construction projects. From this study, a
hypothesis shows that the schedules normally given to clients from the contractors
are done using the critical path method or precedence diagram method rather than
bar charts.
The approach for implementing this research is divided into a few categories.
The purpose of this methodology is to simplify the process of data collection and
other relevant information which is obtained throughout this research. The research
framework flow chart is illustrated as show in Figure 1.1.
1.8 Summary
This research is a descriptive research and the type of research method used
is questionnaire survey. The method of data collection is through questionnaire
forms. The respondents are randomly selected from Classes G5 to G7 registered
under the CIDB. After the primary data are sufficiently obtained, the data will then
be collected to achieve the objective of this study.
9
Figure 1.1: Research Framework Flow Chart
Initial Study
Identify Problem of Statement
Importance of Study
Objectives Research Scope
Literature Review
Factors Affecting in the preparation of Construction Work Schedule
Research Methodology
Results
Discussion
Conclusions and Recommendations
Data Collection:
Questionnaire Survey
Data Analysis:
1. Average Index
2. Frequency Analysis
LITERATURE REVIEW
CHAPTER 2
CHAPTER 2
LITERATURE REVIEW
2.1 Introduction
This chapter covers the introductory of construction work schedule. The last
part of this chapter will focus on the factors affecting in the preparation of
construction work schedule with listing of all the possible factors adopted according
to the suitability of the local construction industry.
2.2 Importance of Construction Work Scheduling
The importance of planning and scheduling in construction cannot be
overestimated. The US Department of Labor, Bureau of Statistics, includes an
industry definition of a Construction Manager (CM) that states they will typically
schedule and coordinate all design and construction processes (USDL, 2005). In a
study entitled “What does a Construction Manager really do?” performed by the
Construction Management Association of America, it was found that one of the
11
most important general areas was time management, in which CMs reported their
most important function is to develop a construction schedule, followed by
developing and managing a critical path schedule for the job (CMAA, 2005).
Glavinich (2004) answers the question, “Why Schedule the Construction Project?”
with the following: to communicate the construction plan, establish production goals,
monitor and establish progress, and to manage change.
The construction schedule is one of the most powerful management tools at
the service of the construction manager. A well-planned and realistic schedule that
takes into account as many variables as possible will help keep a construction
project moving along smoothly, alert the construction manager when the project is
about to run into snags, and help make needed adjustments when unforeseen
circumstances arise. In order to do all that, though, the plan must have the input and
some degree of ownership from everyone who will have to live by it. Otherwise,
there is risk of having workers and subcontractors who are working against the
construction schedule rather than with it.
The schedule is prepared by the scheduler and/or planner. In preparing a
schedule, the scheduler or planner may meet or discuss with some people for crucial
information, e.g. estimator, manager, superintendent, sub-contractor, architect,
engineer, owner, and materials' suppliers. They may need to study the contract,
drawings, specification, and perhaps, conduct site reconnaissance. Further, they need
to know about manpower and productivity. Apart from the schedule, it is also
necessary to prepare systematic monitoring to provide early warning of restraints as
well as imaginative action to overcome them.
According to Jon et. al. (2002), the scheduling consultant should strive to
develop a trusting relationship with the different participants to develop a workable
plan and project schedule. Proper scheduling provides the best opportunity for a well-
coordinated and well-sequenced project that is delivered on time and within all
participants’ budget. This is because a well-coordinated and well-sequenced project is
often difficult to achieve. He must work diligently with the project stakeholders who
are the general contractor, the subcontractors, the construction manager, and the owner,
to ensure the construction process participants are working collectively toward agreed-
12
on objectives. These objectives usually involve completion of performance in the time
allotted and delegated responsibility for maintaining the schedule utilizing the
methodology reflected in the project schedule.
2.2.1 Benefits of Construction Work Schedule
The Construction schedule major purpose is to map out the progress
expected on a construction project in a timeline that is the most efficient and cost
effective possible. It does this through various means, and serves a number of
subsidiary purposes as well. These include:
(1) The original conceptual plan can help determine the feasibility of the project
and give an idea of the estimated cost of the project;
(2) It serves as a reasonable, understandable document upon which contractors
and subcontractors can make realistic bids on the project;
(3) It makes binding agreements with subcontractors. When a subcontractor
signs the agreed-upon construction schedule, they are committing to meeting
its terms;
(4) It gives the owner of the project a realistic timeline by which he can expect
his project to be completed. It lays out the sequence of events and the
process that will be followed by the construction company and
subcontractors, making it easier for him to monitor;
(5) It serves as a map and scheduling tool for the project manager, who can use
it to schedule work crews, time deliveries and equipment rentals and monitor
the progress in case of needed changes;
(6) It becomes a daily, weekly and monthly benchmark of the actual progress on
the project as the construction subcontractors and crew leaders enter finished
jobs and concerns;
13
(7) It serves as a base plan for any changes that might have to be made due to
unforeseen circumstances, unexpected delays (or completion ahead of
schedule – it can happen!), or owner changes and additions;
(8) When coupled with communication and project management software, it is
an effective, efficient way to track progress, and flag trouble spots before
they become critical.;
(9) It serves as documentation of work completed as the concerned parties sign
off on agreed upon completion;
(10) In the event of dispute or questions, it can serve as legal documentation of
the actual history and events of the construction; and
(11) After project completion, it can serve as a guide in future projects through
post-completion analysis.
2.2.2 Developing a Construction Work Schedule
Construction schedule specifications are all over the map. According to the
committees of the Association for the Advancement of Cost Engineering (AACEI)
and the Project Management Institute College of Scheduling (PMICoS) (2005),
there is no consistency in arrangement, focus or language. Some specifications start
right off with the software to be used along with the requirements for reports and
updates. Others start with scheduler qualifications while still others introduce the
purpose of the schedule and the schedule scope of work. Frequently, however, these
procedures, processes and technical details are completely intermingled. At the
same time, there are variances in common details, such as determination of lost
weather days and the maximum duration of an activity. Some specs specifically
require the qualification of the scheduler, while one owner offers to fund the
scheduling services for the contractor.
14
The idea is that processes and procedures that are common to many
specifications will be independent of the technical portions of the specifications.
The mechanical details of the schedule and specific software requirements can
reside in a technical section of the specification. Time extension requirements
should be separate as well. Having a common framework of schedule specifications
will lead to more consistency across contracts and will reduce confusion among the
contractor community. Accomplishing general industry agreement on the
procedures and process should be more achievable. Having a separate technical
section may not necessarily lead to agreement on many details, but will at least lead
to development of a checklist for owners to consider in their schedule specifications.
If today’s construction schedules are properly prepared, construction
managers, owners, suppliers, and sub-contractors have an efficient and effective
management tool to control complex construction projects accomplished by a
diverse array of designers, engineers, suppliers, and specialty subcontractors.
Planning, coordination, and communication of the work plan, schedule, performance,
and control are then greatly facilitated in the efforts to achieve projects successfully
and profitably. However, the ‘if’ needs to become ‘when’. And this means all of
the underlying aspects need to be checked by an independent, qualified and
experienced master construction scheduler and the validation-auditing team as stated
by Glenwright (2008).
2.3 Construction Work Scheduling Techniques
The advantages to using a complete construction scheduling package include:
immediate field updates; realistic revisions; input from those actually completing the
work; and a stronger investment in completing the work according to schedule and
on time. Onsite internet access to the construction schedule and communication
capabilities give the project leadership the tools they need to provide onsite
supervision that is responsive and decisive.
15
The nature of the project schedule will normally depend on the cost of the
project. A bar chart is usually used on smaller projects. As the cost of the project
increases owner’s start to demand a schedule that is based on a critical path method
network.
2.3.1 Bar Charts
A bar chart simply indicates when specific activities will start date, their
duration and finish date. The activities are plotted on a time scale. Since each
specific activity on a bar chart is depicted as a straight line on the schedule, a bar
chart is easy to understand. A bar chart does not indicate the interrelationship
between different activities nor does indicate that the commencement of one activity
is dependent on the completion of a predecessor activity.
2.3.2 Critical Path Method
It is important to understand the relationship between the commencement
and completion of the various activities which comprise a construction project.
Critical path method (CPM) network and Program Evaluation Review Technique
(PERT) are the two scheduling devices which indicate the dependencies and
interrelationships between different activities. Those interrelationships between
activities are indicated as a network.
Over the years, the CPM has become the common construction network
schedule. A CPM shows the sequence of each activity, the start of each activity, the
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dependence of that activity on the completion of a preceding activity, and how the
completion of that activity will restrict the commencement of subsequent activities.
The CPM is graphical model of a project. The basic components of the
network are individual arrows which represent specific activities. The activity can
be any aspect of the project that requires either time or resources. The project
activities are indicated by a logical flow of the work from the left hand side of the
schedule to the right hand side. At each end of the arrow are activity numbers. The
numbers are referred to as “i-j” designations. The letter “i” represents the start of
the activity and the letter “j” represents the finish of the activity. At some place
along the arrow and between the “i-j” designations is a number which represents the
number of days that activity will require. The schedule also has a time scale. Finally,
the critical path is shown as darker or different colored line that runs through the
critical activities.
According to William (2009), the basic steps in creating a CPM schedule
include: (1) identification of the basic tasks or activities that must be performed to
complete the project; (2) estimation of the duration of the specific activities; (3)
making a determination of the logical flow of the work, which includes a
determination of which activities must be completed before the subsequent ones can
commence; and (4) inputting the information into the computer so that it can make
the numeric calculations that lead to the formulation of the schedule.
Terms that are used in context of a CPM network include:
(1) An Arrow or line is used to represent one activity;
(2) A Node or Event which represents the beginning and ending point of
an activity;
(3) A Milestone is typically a significant event that the owner or
contractor wants to track;
(4) A Link which represents the path between two Nodes;
(5) A Dependency is the relationship between two different activities as
they related to the commencement and completion of those activities;
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(6) A Predecessor activity is an activity that restrains ( refer to as a
restrain) a subsequent depend activity;
(7) A the restrained activity that follows a Predecessor activity is a
Successor activity;
(8) Job logic refers to the necessary time and order of specific activities
in relationship to the whole project; and
(9) Float represents the number of days an activity can be delayed
without delaying the project, with a critical activity having no float.
The critical path is computed in two steps. The first step involves a forward
pass calculation of the activities; starting with the first activity on day one of the
project. During the forward pass calculation the early start and early finish for that
activity is calculated. The early start is the earliest time an activity can start and is
based on the completion of predecessor activities. The early finish is the earliest
time an activity can finish, assuming it starts on time and takes no longer than was
planned. The second step is the backward pass calculation. It involves calculating
the late start dates and late finish dates for each activity. While the late start date is
the latest date an activity can start without delaying the project completion, the late
finish date is the latest date an activity can finish without delaying the project.
Scheduling software automatically completes these two calculation passes then
prepares a report with the dates and a graphic network portrayal of the schedule.
The Critical Path is the longest continuous chain or series of activities
through the CPM network. In essence, the critical path is the shortest period of time
it will take to complete all the activities that comprise the project. The completion
of project is delayed when one of the critical path activities is not started on time,
not finished within the allotted time, or not finished on time. If a non-critical
activity exceeds its float time, that activity will become critical.
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2.3.3 Choosing the Right Scheduling Method
Jon et. al. (2002) mentioned that one of the key decisions to be made before
a project begins is which scheduling method is best suited to the project.
Frequently, the owner and the designer decide on scheduling requirements as a part
of the planning process for a project and the process of drafting specifications for
bidding or negotiating. In making this decision, considerations were given to;
(1) The size, complexity, and location of the project;
(2) Project phases and timing;
(3) The number of parties that will act as prime contractors;
(4) The need date for completion of certain milestones and of the project;
(5) The experience of the owner, the architect/engineer, or the construction
manager in the use of specific scheduling techniques;
(6) The capabilities and experience of the prime contractor(s) in preparing
and implementing the project schedule required;
(7) The type and quality of data desired by the owner, architect/engineer,
construction manager, or contractor to effectively plan, schedule,
coordinate, monitor, appraise, and document the progress of the project;
and
(8) The amount of owner-furnished or third-party-furnished material and
equipment involved.
Regardless of the scheduling system chosen, the owner or the owner’s agent
responsible for managing the project should have experience with the scheduling
method selected.
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2.4 Developing Schedule Specifications
After an owner or agent has chosen the proper scheduling technique, either
the critical path method (CPM) or the bar chart method, it is important to the success
of the project that specifications outlining the scheduling requirements be carefully
prepared and incorporated into the contract. Including such requirements enables
an owner to more effectively control and enforce the scheduling obligations of the
parties involved.
Schedule specifications should be clear and concise, avoiding ambiguities
and potential misunderstanding. Unfortunately, this is not often the case.
Frequently, specifiers have little knowledge of the scheduling technique being
specified and the responsibilities and liabilities they can incur.
Experience has shown that it is very difficult to establish standard schedule
specifications for use by the construction industry today. For example,
specifications may range from one paragraph to five or ten pages. The short
specifications are dangerous, and the long ones are expensive. However, experience
has shown that the more detail included in the specifications, the better chance there
is to eliminate misunderstandings.
Hence, Jon et. al. (2002) stated that good Construction work schedule
specifications set forth the type of schedule that will be in effect for the project.
Specifically, they address:
(1) The scheduling method and techniques to be used;
(2) Which party has the responsibility for preparing the schedule;
(3) Coordination of any multiple-contract situations that will exist on the
project;
(4) The amount or level of schedule detail required by the specification;
(5) The need to incorporate all contractually specified milestones. This may
include completion dates for critical components of work, deliveries of
equipment, dates for promised information (such as owner-tenant
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layouts), dates for access to the prject, and availability dates for key work
areas (where renovbation proceed in existing facilities);
(6) The need for the contractor to identify dependencies that will restrain
performance;
(7) Processing procedures for shop drawings (preparation, submission, and
approval);
(8) Processing procedures for submittals (initial and updates, plus frequency);
(9) Procedures for review and approval of the schedule;
(10) Remedies for noncompliance (for initial schedule as well as updates);
(11) Updating procedures (specifying frequency, requirements for joint
updating meetings between parties, the keeping of meeting minutes, data
requirements and methods for incorporating time-impact analyses and
time extensions as part of the updating process);
(12) Progress reports;
(13) Whether or not the schedule will be used for determining progress
payments;
(14) Procedures for justification of time extensions (using time impact
analysis);
(15) Float utilization and availability to project and parties; and
(16) Involvement of subcontractors in the scheduling process.
2.5 Responsibility for Schedule Preparation
In order for the construction plan to meet all these requirements, though, it
must have the willing cooperation and buy-in of the owner, construction manager,
sub-contractors and designers. In short, everyone needs to have some degree of
ownership in the plan. For that reason, it’s important that the owner or construction
manager to have the input of every major player in the project during the design
stages of the construction schedule.
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As early as the bidding stage, it pays to be open to suggestions and
communication. Being open to input from bidding subcontractors allows the plan to
be refined based on the experience and capabilities of those who have tackled
similar work in the past. If those lines of communication are open from the very
start, every subcontractor who makes a successful bid has a realistic stake in the
project because they feel they helped define the tasks and timetable. Without it,
updating the schedule regularly becomes a time-wasting chore in their minds. When
a contractor and his crew have an investment in the plan, they feel they are helping
to manage it rather than being a slave to it.
As quoted by Willis (1986), most of the following parties will be participants
in a typical construction project. Women now play significant roles in all sectors of
the construction industry, and it is expected that their participation in the industry
will continue to increase.
Once the project delivery system and scheduling methods have been selected,
the party responsible for preparing the project schedule must be designated. In the
traditional approach, for example, an owner requires a general contractor to prepare
the schedule. In addition, the owner has the option to require the general contractor
to submit the schedule either for formal approval or for informational purposes only.
Under such circumstances, the general contractor also had options. For
example, the general contractor may choose to prepare the schedule in-house or may
contract the services of a scheduling consultant to provide technical assistance if the
required skills and experience are not available in the general contractor’s
organization. On occasion, an owner may specify that the general contractor hire a
scheduling consultant and may even insist on approving the use of any consultant
selected by the contractor.
As many contractors lack the skills necessary for successful scheduling, an
owner may choose instead to provide to the contractor for successful scheduling
consultant and may even pay for this service as referred by Jon et. al. (2002). This
option also offers alternatives. For example, the scheduling consultant can work
with the contracted party or parties and assist in developing a schedule for all work
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contracted; the resultant schedule can then be submitted by the contractors to the
owner for formal approval or informally agreed to by the owner. The scheduling
specifications should include information on whether the schedule submittal
required formal approval by the owner.
2.5.1 The Clients / Owners
This is the individual, the firm, or the organization that funds the construction
project and will own the completed facilities. The owner, perhaps assisted by
consultants, specifies the scope of the construction project.
In some instances, the owner may specify the detailed layout of the facility,
the type of materials to be used, and so forth. The owner, perhaps assisted by some
of the parties described below, and depending on the technical expertise of his or her
own staff, may inspect the project work as it is being performed and on its completion.
The golden rule in the construction process is: "He who has the gold makes the
rules." Because the owner controls the purse strings, he or she dictates the kind of
contract that will be used and selects the other parties to the project.
2.5.2 The Construction Manager
He or she is an employee of a professional construction management firm that
may be retained by the owner to perform predesigned planning, to help select the
designer, to help select contractors, and to perform post-contract award functions. The
construction management firm may perform all or some of these functions in return
for a fee. When capitalized, the term Construction Manager (CM) means an
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employee of such a firm. The term construction manager can also be applied to
many other management level personnel within the construction industry.
When an owner contracts the services of a construction manager as his agent,
the construction manager is frequently responsible for overall scheduling and
coordination when multiple trade or multiple prime contracts are used. As a result,
the construction manager has several options schedule development and
implementation.
The construction manager may prepare an overall detailed master schedule
for the project. This type of schedule usually be supported by milestone schedules
and/or prebid integrated schedules for each of the key multiple prime or trade
contracts that are anticipated to be let with this method of the project delivery.
As trade contractors are let, the construction manager has the option to
require each trade contractor to participate jointly in the development of the trade
contract schedule. The objective is to reflect the trade in the development of the
trade contract schedule. The objective is to reflect the trade contractors’ plans and
intentions to execute their work and to coordinate their dependencies with others.
The alternative to this procedure is to require trade contractors to prepare
their own schedules, based on certain basic information provided by the construction
manager, and submit them to the construction manager for approval. After approval,
the construction manager has the option to incorporate the trade contractors’
schedulers into the detailed master schedule or to maintain them separately. From
the detailed information, a time-scaled master summary control schedule may be
developed by the construction manager to provide management with overall project
visibility and a management tool for use in periodic briefings and reports.
When design-build construction manager project delivery systems are used,
the scheduling options available to the design-build contractor construction manager
are basically the same as with the agency construction manager.
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2.5.3 The Designers
They may be employees of the owner, but are more often the employees of
an architect-engineer (AE) firm. In addition to designing a facility that meets the
expressed needs of the owner and that complies with applicable building codes, the
AE may be retained by the owner to act as his or her representative in
inspecting the project work, to review and approve materials that the contractor
proposes to use in the work, to review and recommend contractor requests for progress
payments, and to perform other functions on behalf of the owner.
2.5.4 The Contractor and Sub-contractors
These are individuals or firms that undertake to perform required
construction work in return for a contract price. Contractors may be categorized
as prime contractors and subcontractors. Prime contractors have a contractual
relationship with the owner, whereas subcontractors have a contractual relationship
with the prime contractor or with another subcontractor. General contractors are
prime contractors who contract to perform ail of the required work, possibly
excluding some specialty items such as electrical and mechanical work that the
owners desire to contract directly with the specialty contractors. Subcontractors
are sometimes referred to as first-tier subcontractors, second-tier subcontractors, and
so on. A first-tier subcontractor has a contractual relationship with a prime
contractor. A second-tier subcontractor has a contractual relationship with a
first-tier subcontractor, and so forth. A typical construction contractor, regardless of
whether a prime contractor or a subcontractor, will perform certain functions, either
personally or by use of his staff. These functions include the following:
A. Home Office Functions. These include the selection of potential
projects, estimating the costs of such projects, the preparation of
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bids or negotiating construction contracts, the procurement of
construction materials, the management and maintenance of
contractor-owned equipment, and personnel and financial
management. The titles of home office contractor staff members
might include: estimators, schedulers, procurement specialists,
accountants, counsel, project managers, fleet managers, safety
officer, quality control officer, and others.
B. Field Functions. The contractor's principal field function is project
management. The contractor may have a project manager, a
project superintendent, or both as his field supervisors at the project
site. Other contractor field personnel may include office engineers,
office clerks, time-keepers, clerks, inspectors, and foremen.
2.5.5 The Design-Build Firm
The term is usually reserved for firms that perform both design and
construction functions, but such a firm may also perform planning functions.
2.5.6 Fabricators and Vendors
These terms apply to firms that contract with the owner or with the
contractor, to fabricate and deliver fabricated or off-the-shelf construction
materials to be used in the project. The construction contract may call for the
contractor to purchase and install all of the material, or it may call for the owner to
purchase some of the material for installation by the contractor. Material that has
been procured by the owner is termed owner-furnished material (OFM). If the owner
is the federal government, the material is termed GFM.
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2.6 Sources of Planning Work Schedule
When everyone is together, it is more possible to identify needs for
additional manpower, added equipment, and potential time loss and gain. If a delay
has caused the loss of time, the entire team can work on recovering the lost time. If
there is a gain, the team can come up with the best way to use the gain.
There are many method employed in project planning. Many project
planners were used to table form which comprises from a date list, starting or
completed information, which are provided by the management. Regardless of the
methods employed, the decisions made will require the collection of data on
materials, machineries, equipments, manpower, finance and time.
2.6.1 Construction Materials
The measurement of quantities by the quantity surveyors from building plans
and specifications can be summarized to determine the particular quantity and types
of materials to be used to perform a work. The availability and delivery period for
these materials should be obtained and from suppliers or according to experience.
2.6.2 Machineries and Equipments
The machineries and equipment which are required to complete a
construction project will definitely depend on the suitable types and the method of
which there are place or keep safely. After the selection on the particular
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machineries or equipments is made, the availability and delivery time must be
determined.
Heavy machineries such as cranes, cement mixers, steel bar cutter and steel
bar bending machines for structural works are required during the execution of the
work scheduling. These matters are important to prevent machineries from idling
which induce will induce a high cost.
2.6.3 Labours and Manpower
Labours and manpower are important assets in construction projects.
Without labours, a project can become abandoned and the contractor will need to
terminate the contract. Thus, labours should be taken into account when scheduling
work to ensure that the participation of the labours is at the maximum standard.
The numbers of skilled workers should also be considered in the work
performed. It should be adequately sufficient to meet expected workload and work
tasks. A mistake in this planning will result in late submission of works.
2.6.4 Finance
The allocation of finance must be scrutinized to reimburse for the cost of the
supply of construction materials, labours and machineries. Any financial difficulties
must be solve to ensure that the construction project can be carried out smoothly.
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2.6.5 Time
The most crucial element which must be carefully monitored is time. The
owners will normally check for starting dates, completed dates and other relevant
yet important dates in contract submissions by the contractors. Besides, there are
also time limits which must be obeyed by construction organizations during
planning stage.
The time require for the construction materials to be delivered to site should
follow a specified schedule. This is to fulfill worker’s demand and reduce wastage.
A proper understanding of the project requirements will enable a more effective and
efficient materials handling at site.
2.7 Control and Monitor Construction Work Schedule
Communication remains vital once construction begins. Keeping the lines of
communication open involves making regular updates on progress both ways. It’s
up to the crew leaders to be sure that progress is tracked regularly in the scheduling
software. Any possible delays need to be noted, as well as finished work flagged.
Making the means to communicate instantly available on site provides both
incentive and opportunity to keep the schedule properly maintained.
In addition to daily updates, regular weekly meetings of the team leaders are
vital as well. These meetings should include the project manager, an owner
representative, and representatives of the subcontractors. Update meetings can
provide a look-ahead on the project’s progress and possible difficulties or gains. By
breaking down the schedule into smaller blocks, weekly meetings can help make the
transition from the big picture to a more detailed look at the tasks needed in the
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upcoming week. Again, including all interested parties makes use of the expertise
of everyone concerned, and fosters the team attitude that keeps the project on track.
2.8 Characteristics of a Good Construction Schedule
According to Frank (2204), the best approach is for all project participants to
join in the scheduling process and develop a meaningful schedule, and then use it
throughout the duration of the project. This is most likely to happen when the
schedule is realistic, useable, and understood by all of the project participants.
2.8.1 The Plan
All good schedules start with a well thought out planned work sequence.
The plan should consider factors that could impact the timing of the work such as
site access, access to work areas, long lead time equipment and materials, labor
availability, and which areas of the work will take the longest. Once this plan has
been established, it should be clearly communicated to all project participants. It is
important to make sure that those not working on site, such as the engineer
reviewing shop drawings or material fabricators, understand the priorities and
planned work sequence.
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2.8.2 Subcontractor Input
Generally, construction managers and general contractors are capable of
putting together a schedule without subcontractor input. However, it is the
subcontractors who are in the best position to know their durations and plan their
work sequences. For this reason, I have found that a detailed schedule planning
meeting with the major or early subcontractors is one of the best ways to ensure the
schedule has appropriate work activity durations and sequencing.
Subcontractor input will also confirm durations for shop drawing submittals
and material deliveries. How long will shop drawings take? What time has the
manufacturer indicated for fabrication of materials? The initial schedule will
include these activities, but the subcontractor can help "tune up" the schedule with
more accurate information. Subcontractors can also assist in the schedule updating
process, since they are closest to the actual work. Often they can suggest "work-
arounds" or alternate sequences to mitigate delays or other field problems.
2.8.3 Schedule Card Trick
One method for coordinating the schedule input of large groups of
contractors is a meeting called the "Schedule Card Trick." The contractors prepare
their activities and durations in advance of the meeting on different colored 3 x 5
cards. Several large calendar sheets with weekly time increments are also prepared
before the meeting. During the "card trick" meeting, you "build the building,"
starting with the earliest work areas. The activities for each work area are sequenced
and arranged by placing the cards on the calendar sheets and connecting related
activities.
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In this way, the construction schedule is created in front of the
subcontractors. This is a great opportunity to hash out key sequencing and planning
issues. For example, which subcontractor goes first inside the building, ductwork,
or masonry? Will the finishes go from the bottom floor up or the top floor down?
The "Schedule Card Trick" gives all the subcontractors a chance to see the big
picture, as well as where and when their work fits in the schedule. There is also the
added benefit of "buy in" of the schedule by the subcontractors because they helped
put it together.
2.8.4 Explicit Activity Names
Work activities in the schedule should have names that are clear and specific.
Explicit work activity names make it easy to understand what is included (and not
included) in the work activity and when they start and finish. In order to properly
track work progress, the schedule needs separate activities for each trade contractor
even if the activities are scheduled to occur at the same time. The plan may be for
them to start and finish together, but you will never be able to identify the contractor
responsible for delaying the activity if they are combined in a single activity in the
schedule. Similarly, it is good practice to separate activities that a certain trade
contractor may do in different time periods or with different crews, such as "framing
walls" and "drywall and tape."
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2.8.5 The Right Level of Detail
When construction is just getting started on a project, it is not unusual to find
the project team focused on the earlier parts of the work. As a result, they may not
want to take the time to develop a detailed schedule for work that is a year or more
in the future. On many projects, a detailed schedule will be developed for the site
work, structure and enclosure, and a single long duration activity will be allocated
for "interior finish work." This will work, as long as enough time is allocated in the
schedule for the later work and a future schedule details this work.
A schedule may not be used if it is cluttered with too much detail. Generally,
activity durations should range between one and four weeks. How much to "break
down" individual work activities also depends on how large the work areas are and
if a set of activities will always be done in sequence. It may be all right to combine
"form/reinforce/place footing - east side" if the duration is one or two weeks. One
day activities or milestones signifying the completing of key project activities (i.e.
permanent power available, roof tight, completion of a work stage) are also useful.
Even a large, detailed schedule may not provide all the specific activities needed in
the field or may be too cumbersome to use on a daily basis. For these reasons, field
staff often develops short-term, hand drawn schedules to coordinate day to day
activities among subcontractors. This is an acceptable practice if the durations and
sequencing in these short-term schedules are consistent with the "official" project
schedule. Significant differences between the two schedules are indications that
there may be a problem with the overall schedule because it is not accurately
reflecting the work being performed in the field.
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2.8.6 Well Organized Activity Groupings
The typical construction schedule on a large project will include hundreds or
even thousands of activities. To make the schedule useable, it should be structured
so these activities can be sorted and grouped, making it easy to find desired schedule
information. Generally, activities can be separated by phases, such as bid/award,
shop drawing/fabrication, new construction and renovation. It is helpful if the
activities can be sorted by bid package or specification section within these
categories. It works best if the groupings of activities correspond to the planned
work areas and sequences (i.e. how you are planning to "build the project"). For
example, if the interior work on the floor of a building will be completed all at once
or in two halves, or by specific functional areas (Administration Area, Classrooms,
Library, etc.), it is important to create schedule activities for each work area.
Breaking work into smaller pieces in the schedule also allows better tracking (for
starts and finishes) and better logic (the following activity will probably start sooner).
Areas on bridge and road projects are often sub-divided by survey stations or work
phases.
2.8.7 Proper Consideration of Weather
Once a detailed schedule has been developed and the expected start date for
the work is known, the project team should review the activities in relation to the
time of year in which they are scheduled. In cold weather climates, activities which
fall in the winter months may need to be shifted, or it may be necessary to plan for
temporary enclosure and heating. Similarly, the schedule may need to allow more
time for certain activities or show them being done on a limited basis because of
weather considerations. Similar issues may arise in extremely warm areas or areas
which have a rainy season. If a revised project start date or other delays shift the
work by several months, the schedule should be updated and the activities that have
34
shifted into bad or difficult weather periods should be looked at closely and adjusted
as needed to reflect the effect of weather.
This is one of the most often ignored aspects of preparing and updating
project schedules; when not considered and planned for, seasonal effects can
significantly impact the project cost and schedule. Finally, use the schedule. Hang
a large plot on the wall at the jobsite. Write on it, noting actual starts and finishes,
and make notes about changes and new issues. Put the new updates on top of older
versions (which are very likely to be referred to by those who are really watching
the schedule). Refer to it daily with the subcontractors. Formally review current
activities at all regular subcontractor meetings. Awareness of the schedule and
delays will allow for better planning and a smoother job. Throughout the project, be
"schedule conscious." The schedule itself may experience delays, but time will
move on.
2.9 Requirements of Successful Construction Work Schedule
There are advantages and disadvantages to each of the methods of schedule
preparation and implementation. Although success has been achieved using all of
these methods, each has had its own failures, due primarily to various user-oriented
reasons.
According to Jon et. al. (2002), experience has shown that on fixed-price or
lump-sum contracts, the best results have been achieved when the contractor is
responsible for schedule preparation and maintenance, with the owner or the
owner’s agent reserving the right to approve the initial schedule.
This assignment of responsibility makes a good deal of sense, considering
the risks involved. On a fixed-price or lump-sum contract, the general contractor, in
establishing its price, makes a number of assumptions based on the manner by which
35
it can perform the required work at a cost lower than the competition. Therefore, the
general contractor is in the best position to plan and schedule its work and the work
of the subcontractors and suppliers. If the general contractor lacks the technical
capability to develop this information, there is always the option of hiring a
scheduling consultant to convert the plans and intentions to the scheduling technique
specified in the contract.
When multiple prime contracts are involved in project delivery, the
responsibility for overall schedule preparation is best left to the owner or the
owner’s agent. The owner is the only party with the authority and economic power
to schedule and coordinate the multiple prime contractors involved. This does not,
of course, preclude specifying and allowing the prime contractors to develop their
own schedules for their own portions of the work and then monitoring them
separately or on an integrated basis, throughout the life of the project.
When a design-build contractor is involved, the contractor or construction
manager should be directly responsible for scheduling and coordination of the work.
Regardless of the schedule preparation method chosen, the degree of success will
depend on five conditions (Jon M. W. et. al., 2002):
(1) All parties need to commit to making the schedule work;
(2) A good scheduling specification must be prepared to properly
communicate to all parties their contractually required responsibilities,
methods, and procedures for scheduling;
(3) Once the schedule is agreed on, it must be implemented and periodically
updated to reflect current status and how the remaining work is to be
completed;
(4) Timely and accurate submissions of delay analyses by all parties
involved are a must to keep the schedule properly adjusted for excusable
delay. Each party should strive to maintain a correct posture for the time
of performance; and
(5) The owner, or the party having the responsibility for overall schedule and
coordination and the economic power to enforce the schedule, must
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ensure schedule compliance by the various parties involved so as not to
delay another party.
2.10 Factors Affecting in the Preparation of Better Construction Work
Schedule
According to Mohamad Ibrahim et. al. (2006), they believed that four areas
should be properly investigated prior to the development of the project scheduling
procedures. The critical areas that have been identified are process of acceptance,
responsibilities of contracting parties, application of work schedule, and
implications of work schedule.
According to Jon et. al. (2002), clear and concise schedule specifications
outlining the responsibilities for scheduling and the requirements for preparation,
approval, participation, use, maintenance, and reporting are essential for timely and
successful completion of most projects. Unfortunately, poor scheduling especially in
terms of its specifications, have contributed to the downfall of many projects. Some of
the common problems associated with the poor construction work schedule include:
(1) Not being specific about the method of scheduling required.
Whatever the scheduling method chosen, it should be stated clearly and
eliminate any opinions or ambiguities;
(2) Not requiring contractors to involve subcontractors in schedule
development and implementation.
This is compounded by the problem of prime contractors;
(3) Specifying only a maximum number of activities required.
The level of detail required should be based on specific criteria. Based
on experience, a minimum number of activities should be specified to
ensure a sufficient level of detail;
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(4) Owners not approving or rejecting a contractor’s schedule in a timely
manner and not stating reasons for rejecting when formal approval of a
schedule is required.
Owner should state clearly in the specification how long he intends to
take to review and approve the contractor’s schedule or reject it as
unreasonable or not feasible;
(5) Stating that the schedule will be periodiacally updated, but not being
specific about the frequency of such updates.
The frequency of updating should be clearly stated, such as mothly or
bi-weekly. If the specified freuquency becomes unnecessary, the
requirement can always be reduced to a lesser frequency, either
temporarily or permanently;
(6) Not requiring joint updates.
Joint updates involving all key parties are encouraged to maximize
communication abouyt schedule, performace, problems, actions reuired,
and intended plans for completion. The objective is to eliminate the
surprises that can result when a single party independently prepares an
update and distributes the updated version of the schedule to all other
project participants;
(7) Not requiring that all physical access and availability restraints be
incorporated into the project schedule.
The party responsible for preparing the schedule should include this
information in the schedule and define the relationship of each restraint
to the sequence of work planned to accomplish the required scope of
work within the time period specified;
(8) Not specifying an explicit period for review and approval of shop
drawings and other contractual submittals.
Many contracts simply state that shop drawings will be submitted
within a reasonable period of time. Define reasonable by stating
specifically when submittals are to be made at the duration of their
review and submittal periods;
(9) Not requiring owner-furnished equipment to be incorporated into a
construction schedule.
38
This is essential for identifying proper dependency and time impact
when delivery delays occur;
(10) Not specifying in the contract all contractual dependencies with
proceeding, concurrent, and follow-on contractors in a multi-prime
contractor project.
Additionally, not requiring prime contractors to define other key points
of interface, particularly with the subcontractors and suppliers on which
they are dependent;
(11) Allowing manpower and equipment restraints to create critical and
near-critical paths.
These situations may be the result of float abuses, which attempt to hide
float that normally exists. Critical or near-critical paths are those with
less than two weeks of contingency;
(12) Not giving specific instructions for graphic techniques to be used for
network or bar-chart construction.
The failure to require readable time-scaled diagrams for the original
plan and updates can result in schedules that are useless and effectively
unintelligence to the owner, subcontractors, architect/engineer, and
contractor;
(13) Not including in the specifications remedies for noncompliance of
initial schedule submittal and subsequent update information;
(14) Not including a narrative reporting requirement as part of the update
process;
(15) Not including a remedy for schedule-specification discrepancies.
Most specifications include a statement that, in the event of
discrepancies, the specifications shall govern the development and
utilization of the project schedule;
(16) Stating a maximum duration requirement for activities.
Keeping durations to a minimum, along with criteria for levels of
indenture, is appropriate;
(17) Not requiring time extensions to be justified by proper documentation
(such as the use of time-impact analyses and fragnets) and not
requiring that they be submitted to illustrate the impact of various types
of delays.
39
(18) Restricting network changes until the contractor submits details in
writing and the owner formally approves;
(19) Preparing an integrated schedule for a project involving numerous
prime contractors, subcontractors, and suppliers, and then not allowing
their direct participation; and
(20) Completely restricting any schedule changes involving change orders
and/or delays until an agreement on cost is reached.
Furthermore, to study the factors affecting the preparation of construction
work schedule, a throughout analysis is done on the factors affecting the schedule
performance of a project. Previous studies were done by Iyer et. al. (2006) on
critical factors affecting the schedule performance, an evidence from the Indian
Construction Projects. From this study, the critical factors were being analyzed and
a new list of factors was being developed. They were divided into 4 categories,
namely project specific factors, project management, working condition and external
environment.
2.10.1 Project Specific Factors
Project Specific factors which were affecting the preparation of better
construction work schedule was the type of project which is undertaken, the nature
of the project, complexity of the project and size of the project.
40
2.10.2 Project Management
According to Chua et. al. (1999), project management action is a key for
project success. By using management tools, the project managers would be able to
plan and execute their construction projects to maximize the project’s chances of
success. Thus, the variable in the project management include inadequate
communication, control mechanism, feedback capabilities, troubleshooting,
coordination effectiveness, decision making effectiveness, monitoring, project
organization structure, planning of schedule, and related previous management
experience.
A number of attributes which will affect the preparation of better
construction work schedule includes, communication system, planning effort, safety
and quality assurance program and overall managerial actions. The list of attributes
under this factor is as follows:
(1) Coordination with other team members;
(2) Leadership quality;
(3) Technical capability;
(4) Authority to make decisions;
(5) Ability to delegate authority to team members;
(6) Understanding responsibilities of team Members;
(7) Commitment of all parties;
(8) Backing up plan;
(9) Identifying critical activities;
(10) Availability f resources;
(11) Human resource training;
(12) Monitoring and feedback by client;
(13) Project completion date specified but not yet planned;
(14) Mismatch in capabilities of client and architect;
(15) Tendency to pass on the blame to others;
(16) Conflicts among team members;
41
(17) Ignorance of appropriate planning tools and techniques;
(18) Reluctance in timely decision;
(19) Lack of understanding of operating procedures;
(20) Inadequate project formulation in the beginning;
(21) Negative attitude;
(22) Aggressive competition at tender stage; and
(23) Uniqueness of the project activities requiring high technical know-how.
2.10.3 Working Condition
This factor comprises attributes like scope and nature of work and also the
climatic condition at site.
2.10.4 External Environment
The attributes under this factors includes the economic environment, social
environment, political environment, physical environment, industry relation
environment and technical advancement.
42
2.11 Summary
Today’s available technology can allow everything from instant
communication to actual web camera supervision of the job site. The ability to
update and make changes as soon as new information is available reduces delays
and allows everyone to make the best use of their time. Take full advantage of the
capabilities of construction schedule and project planning software by fostering a
team attitude that encourages everyone involved to take ownership of the plan. The
end result will be a construction schedule and plan that is useful throughout every
stage of construction from conception to post-construction analysis.
Moreover, it is difficult to establish standard specifications for use in the
construction industry. Despite advances, more effort is needed to shift preferences
towards employing scheduling technology. Scheduling software aids in the
effective daily decision-making on projects, predicting time problems encountered
when altering the scope of work. No single industry scheduling procedure is
applicable for all projects. However, the procedure for reaching timely scheduling
decisions should be established prior to its demand. Contractor preferences for
updating, cost loading, and formatted reports effect the success of the project.
Specifications for these scheduling issues should be agreed upon by all parties prior
to construction and included in the contract’s supplemental conditions.
RESEARCH
CHAPTER 3
METHODOLOGY
CHAPTER 3
RESEARCH METHODOLOGY
3.1 Introduction
This chapter describes the methodology and procedures applied in achieving
the objectives of this research. Method of data collection described in orderly manner
in the aspects of how the data were collected, where the data is to be source and how
the design till implementation of the questionnaire.
3.2 Literature Review
A comprehensive literature review had been carried out through variety
information sources, which included library reference books, journal, articles and
researches papers and reports from Internet. These reviews help the writer having
more understanding in:
44
(1) Factors that affect in the preparation of construction work schedule
(2) Project team layers roles and responsibility throughout the course of
construction period.
(3) The severity of these factors from previous study for local and
international condition.
3.3 Methods of Data Collection
Data collection is considers as the crucial stage in gathering all required
information form the fundamental in achieving main objectives of the study. Basically,
the main or primary data were collected from literature review. Data collected from
studies regarding the preparation of good construction work schedule. All factors
obtained from previous from previous study were listed. The primary data was as a
platform for the formulation of questionnaire.
Secondary data is the finalize questionnaire as the main data to be used for the
analysis for the study. Secondary data are collected form questionnaire survey. The
data collect through questionnaire survey delegated to contractors that involve in
management of construction project.
45
3.3.1 Primary Data Collection
The primary data in this study were gathered through literature review of
journals by on preparation of good construction work schedule in construction project.
A list of factors were identified and listed as a guideline to develop the questionnaire
for study. Besides factors causes, identification of factors improvement to minimize
the problem was also identified. From the factors identified, selection was done to
suit the suitability for local industry as the previous study was for international
condition.
The selection of the factors affects was alone also done by studying from
surveys with the selected project team players. From their past experience not all of
these factors seem to be suitable for local condition and some of these factors also
seem to be repeated (same factor meaning but different statement). The project team
players selected were also asked about their opinion on improvement factors in order
to minimize the poor performance problem.
The purpose of this primary data was as a guideline to develop the final
questionnaire. Selection on factors suitability was important to produced short and
simple yet compact and informative questionnaire.
3.3.2 Secondary Data Collection
The questionnaires structure framed based on three types of answering
techniques, namely rating-based, selective based and open-ended format. Rating-
based format, respondents were instructed to rate their opinion for a specific fact by
making a 5-point scale ranging from Strongly Disagree to Strongly Agree. Secondly,
selective-based questions only required respondents to tick in the appropriate box or
boxes.
46
The structured questionnaires for this study would cover 3 sections,
(1) Section 1: The background of the respondents such numbers of years
of experience, qualification, his/or position in the company. The
company profile where he/she currently employed, such as business
activity and nature of the company.
(2) Section 2: The second part comprises the questions the indicating the
possible factors that could affect in the preparation of construction
work schedule in a construction project.
(3) Section 3: Third part would be the proposed methods of improvement
when preparing better construction work schedule.
In this study, there were 100 questionnaire being distributed to randomly
selected respondents which are contractor from Johor of classes G5 to G7 registered
under CIDB, with various ages group, level of experience, organizations, working
nature and responsibilities as their involved in managing construction project.
The chosen respondents for the study are involve themselves in the
construction project running and in particular had encounter experience during
construction phase. In addition to that, the selected organizations are ranging from
medium to large scale organization only. The frameworks of categories of the
respondents are from executive level and managerial level and having responsibility
in running respective construction project representing the contractors.
47
3.4 Analysis Method
The data are processed and analyzed partly by the researcher examination and
partly using the Statistical Package Social Science (SPSS). The analysis of the data
from the receivable feedback from the questionnaire quantitative stimulation for
instance in average index calculation. Average index was calculated to reflect the
effectiveness of aforementioned criteria. The analysis will rank the factors based on
the frequency analysis and the average index. This index was calculated as follows
(Abd Majid and McCaffer, 1997):
Average Index Formula:
Average Index =
μ = Weighting given to each factor by respondents (1 to 5);
n = Frequency of the respondents;
N = Total number of respondents
Whereby the application of Average index in questionnaire for instance would be:
μ1
μ
= 1, frequency of “Strongly Disagree” response
2
μ
= 2, frequency of “Disagree” response
3
μ
= 3, frequency of “Neutral” response
4
μ
= 4, frequency of “Agree” response
5
= 5, frequency of “Strongly Agree” response
∑ μ X n
N
48
Besides, they can be represented by:
1 = Very High Degree of Consideration
2 = High Degree of Consideration
3 = Neutral Consideration
4 = Low Degree of Consideration
5 = Very Low Degree of Consideration
With the rating scale as below: (Abd Majid and McCaffer, 1997)
1 = Strongly Disagree (1.00 ≤ Average index < 1.5)
2 = Disagree (1.50 ≤ Average index < 2.5)
3 = Neutral (2.50 ≤ Average index < 3.5)
4 = Agree (3.5 ≤ Average index < 4.50)
5 = Strongly Agree (4.5 ≤ Average index < 5.00)
3.6 Reporting Results
All possible factors that affect the preparation of better construction work
schedule were listed and ranked according to the rating scale by respondents. These
factors were divided into 8 categories:
(1) Project specific factors;
(2) Project management;
(3) Working Condition;
(4) External Environment
Besides factors affecting, the improvements methods to prepare better
construction work schedule were also identified and reported to project team
member’s responsibilities.
49
3.7 Summary
The data collection for this study was obtained from literature review and
questionnaire. Through literature review, factors affecting the preparation of better
construction work schedule were obtained from previous researchers. The pin-pose of
questionnaire was to gain more information on the possible factors from the
respondents’ opinion and past experience. Besides that, there were questions for
the respondents to rank the severity of these factors. Questionnaire survey was
conducted in to gain information for this study. The questionnaire consist of three (3)
section, where the first section was about the background of the respondents, the
second section indicated possible factors affecting the preparation of better
construction work schedule and the third section was the proposed improvement
methods to prepare better construction work schedule of the construction
projects.
DATA ANALYSIS
CHAPTER 4
AND FINDINGS
CHAPTER 4
DATA ANALYSIS AND FINDINGS
4.1 Introduction
This chapter presents the research analysis and discussions. Based on the
questionnaire survey done earlier, the data will then be processed and analyzed. This
is done in order to generate the results which will then be tabulated and used for
further discussion. The first section explains the respondents’ demographic profile.
The next two sections display results on the factors affecting the preparation of better
construction work schedule.
4.2 Data Collection
The qualitative data generated from the questionnaire survey was analyzed
using the frequency analysis and relative index technique as explained before. The
51
summary of data analysis for questionnaire survey will be tabulated in the next section.
The result will be used as the basis for further discussion in the next chapter.
The developed questionnaire was distributed one-hundred (100) sets to targeted
respondents within the locality of Johor contractors. Out of one-hundred (100) sets
distributed, thirty (30) sets that are 30% were managed to be returned and hence will
be used as the basis of the analysis of this research.
4.3 Demographic Profile of Respondents
The demographic profile of respondents through the questionnaire shows that
majority of the respondents were from top management of the company. The positions
held were project managers, site supervisors or site engineers, quantity surveyors,
executives and civil engineers. This shoes and proves that the data gained for the
purpose of this analysis is deemed to be strong and appropriate, as they comes from the
top management of most of the organizations. Opinions given were from diverse
perspective with professional insight.
4.3.1 Respondent’s Highest Qualifications
According to the study, Figure 4.1 showed half of the respondents hold a
Degree in Civil Engineering. 26.7% were graduated with a Degree in Science
Building. Besides, 13.3% of the respondents have the highest qualification of Degree
in Quantity Surveying. A minority holds Diploma in Quantity Surveying and LCCI
Higher Diploma with 6.7% and 3.3% each.
52
Figure 4.1: Highest Qualification of Respondents
4.3.2 Respondent’s Experience
Figure 4.2 showed the respondents’ working experience in the construction
industry. A majority of them, 36.7% have 2 to 3 years of experience. 30.0% of the
respondents have 4 to 5 years of working experience in the field. A minimum of them,
only 20.0% have less than 2 year of experience follow by 13.3% having 6 to 7 years of
experience. However, none of them have more than 8 years of experience in the field.
This proves that there were many junior level executives in the construction industry.
Figure 4.2: Working Experience of Respondents
53
4.3.3 Current Working Position
Based on the study, Figure 4.3 showed a majority of the respondents, 36.7%
hold positions as site engineer or site supervisors. Project managers and quantity
surveyors have equal percentage which is 23.3%. Next, 10.0% were of executive
levels and 6.7% were civil engineers. This is due to the fact that many respondents
graduated with a degree in civil engineering work as site engineers or site supervisors
instead of civil engineers.
Figure 4.3: Working Position of Respondents
4.4 The Analaysis of the Factors
The analysis for this section will cover the evaluation of critical factors that
have been asked in the questionnaire. In addition to that, these factors have been
discussed earlier in the literature review. Through the SPSS software, analysis is
automatically done by inserting the data, and hence the analysis is then tabulated. All
54
the factors discussed will be referred to as in short form term for instance B1, C2 and
D3 for easy identification of the factors that has been discused. The factors were
divided into four parts which is, project specific factors, project management, working
condition and external environment.
4.4.1 Analysis of Projects Specific Factors Considered
Four (4) main factors were highlighted in this section. The results of the study
were shown in Table 4.1. All (4) of this factors were ranked and anlazed using
average index and frequancy analsysis as stated before.
4.4.1.1 Average Index Analysis
Figure 4.4: Project Specific Factors
55
Based on Figure 4.4 shown, the factors of this category have the highest scale
of degree of consideration ranging from 4.50 to 5.00. The factor A3 has an average
index of 4.73 followed by factor A1 with scale of 4.70. Then, factor A4 comes next on
having a scale of 4.57. The last factor was A2 with a scale of 4.50. All of these factors
were stongly agreed by the respondents and therefore these were very imporant factors
affecting the preparation of construction work schedule.
4.4.1.2 Frequency Analysis
Table 4.1 showed the tabulation of the project specific factors in terms of its
frequancy. Based on this survey it can be seen clearly that the majority of the
respondents have a very high degree of consideration that these factors were equally
important to be considered to prepare better construction work schedule. The factor of
A3 shows 73.3% of respondents have very high degree of consideration on this factor.
This is followed by 26.7% with high degree. The factor of A1 shows that 70.0% of the
respondents have very high degree of consideration while 30.0% with high degree.
The factor A4 shows 60.0% have very high degree of consideration, 36.7% high
degree and 3.3% in neutral position. On the other hand, factor A2 shows fairly half of
all respondents who choses this factor has highest consideration, 43.3% with high
consideration and 3.3% in neutral position.
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Table 4.1: Project Specific Factors Considered in Preparing Better Construction Work Schedule
Figure 4.5: Tabulation of Project Specific Factors
Level of Consideration 1 2 3 4 5 Average Index Rating Description
Respondent's Frequency f % f % f % f % f % A3 Complexity of Project 0 0.0 0 0.0 0 0.0 8 26.7 22 73.3 4.73 5 Strongly Agree A1 Type of Project 0 0.0 0 0.0 0 0.0 9 30.0 21 70.0 4.70 5 Strongly Agree A4 Size of Project 0 0.0 0 0.0 1 3.3 11 36.7 18 60.0 4.57 5 Strongly Agree A2 Nature of Project 0 0.0 0 0.0 1 3.3 13 43.3 16 53.3 4.50 5 Strongly Agree
57
4.4.2 Analysis for Project Management Factors Considered
Twenty-Three (23) main factors were highlighted in this section. The results of
the study were shown in Table 4.2. All (23) of this factors were ranked and anlazed
using average index and frequancy analsysis as stated before.
4.4.2.1 Average Index Analysis
Based on the Figure 4.6, first fifteen (15) factors shows above figure of scale
four (4). However, the remaining five (5) factors show below 4.00 scales. The factor
of identifying critical activities (B9) shows the scale 4.73 that is between 4.50 and 5.00
which shows that it has a very high degree of consideration. Factor B1 have average
index at 4.67. Factor B6 having a scale of 4.57 whish is also considering high degree
of consideration by the respondents. For factor B7, it shows the scale of 4.53. These
factors were considered as very imporant factors as the rating was at a scale of 5
overall. Besides, these factor were the most severe under this categoty and were
considered as top priority in any case.
Next, many factors fall under the scale between 3.50 to 4.49 which have high
degree of consideration, starting from factor B5 which has a scale of 4.43. The factor
B4 comes next having scale of 4.40. Next, factor B2 having a scale of 4.37. Factor
B19 have scale of 4.33, followed by factor B20 with scale 4.30. Then, factor B23 have
a scale of 4.23. The Factor B12 have a scale of degree of consideration 4.20. This is
followed by factor B17 having a scale of 4.17 and factor B14 with scale 4.13. Factor
B10 and B18 shows the same degree of consideration, 4.10. For the factor B16, it
shows the scale 4.00. Next, factor B13 shows a scale of 3.93 and factor B21 shows a
scale of 3.77. The factor B22 and B15 have average index of 3.73 and 3.67
respectively. These factors were fairly important as they score an overall of rating
scale 4.
58
The last factor is B11 which shows a degree of consideration of 3.40 is
considerede as not quite important. This is due to the fact that respondents believed
that human resource training may not be an important factor to be considered is this
category to prepare better construction work schedule.
Figure 4.6: Project Management Factors
59
4.4.2.2 Frequency Analysis
Figure 4.7 showed the factors identified by respondents under the category of
project management factors. Factor B9 has the highest degree of consideration with
73.3% of respondents believe that it has strong influence while 26.7% of them have
high degree of consideration. Factor B1 have 66.7% respondents who have highest
degree of consideration and 33.3% who only agree. Factor B6 shows 60.0% who
have highest degree of consideration but 36.7% who have high degree of consideration.
3.3% respondents stands neutral same as factor B3 and B7. Factor B7 has same
percentage of highest degree of consideration which is same as factor B5. Half of the
respondetns who choses factor B4 have highest degree of consideration while half of
respondents who choses factor B2 only have high degree of consideration. This case
was the same for factor B20, B23, B16 and B13 having 50.0% of high degree of
consideration. 40.0% of respondents have highest degree of consideration for factor
B19, B20, B17 and B14. Factor B17 have equal percentage (40.0%) of respondents
having very high and high degree of consideration. 16.7% stands neutral but 3.3%
have low degree of consideration on factor B17. The same case also applies to factor
B10, B16 and B13 having 3.3% with low consideration. Factor B18 has 70.0%
respondents who agree but only 20.0% strongly agree and 10.0% stands neutral.
On the other hand, factor B21, B22, B15 and B11 have equal respondents of
20.0% having highest degree of consideration for each factor respectively. Factor B21
has 43.3% who have high degree of consideration, 30.0% neutral and 6.7% with low
degree of consideration. Factor B22 have 46.7% respondents having high degree of
consideration which is same as factor B15. 13.3% of respondents stands neutral and
20.0% have ow degree of consideration for factor B15. Then, factor B11 have equal
percentage (23.3%) of respondents having high and low degree of consideration while
its neutral stand is about 33.3%.
60
Figure 4.7: Tabulation of Project Management Factors
61
Table 4.2: Project Management Factors Considered in Preparing Better Consruction Schedule
Level of Consideration 1 2 3 4 5 Average Index Rating Description
Respondent's frequency f % f % f % f % f % B9 Identifying critical activities 0 0.0 0 0.0 0 0.0 8 26.7 22 73.3 4.73 5 Strongly Agree
B1 Coordination with other team members 0 0.0 0 0.0 0 0.0 10 33.3 20 66.7 4.67 5 Strongly Agree
B6 Understanding responsibilities of team members 0 0.0 0 0.0 1 3.3 11 36.7 18 60.0 4.57 5
Strongly Agree
B3 Technical capability 0 0.0 0 0.0 1 3.3 12 40.0 17 56.7 4.53 5 Strongly Agree B7 Commitment of all parties 0 0.0 0 0.0 1 3.3 12 40.0 17 56.7 4.53 5 Strongly Agree
B5 Ability to delegate authority to team members 0 0.0 0 0.0 4 13.3 9 30.0 17 56.7 4.43 4
Agree
B4 Authority to make decisions 0 0.0 0 0.0 3 10.0 12 40.0 15 50.0 4.40 4 Agree B2 Leadership quality 0 0.0 0 0.0 2 6.7 15 50.0 13 43.3 4.37 4 Agree
B19 Lack of understanding of operating procedures 0 0.0 0 0.0 2 6.7 16 53.3 12 40.0 4.33 4
Agree
B20 Inadequate project formulation in the beginning 0 0.0 0 0.0 3 10.0 15 50.0 12 40.0 4.30 4
Agree
B23 Uniqueness of the project activities requiring high technical know-how 0 0.0 0 0.0 4 13.3 15 50.0 11 36.7 4.23 4
Agree
B12 Monitoring and feedback by client 0 0.0 0 0.0 5 16.7 14 46.7 11 36.7 4.20 4 Agree
B17 Ignorance of appropriate planning tools and techniques 0 0.0 1 3.3 5 16.7 12 40.0 12 40.0 4.17 4
Agree
B14 Mismatch in capabilities of client and architect 0 0.0 0 0.0 8 26.7 10 33.3 12 40.0 4.13 4
Agree
B10 Availability of resources 0 0.0 1 3.3 6 20.0 12 40.0 11 36.7 4.10 4 Agree
62
Table 4.2: Project Management Factors Considered in Preparing Better Consruction Schedule (Cont’d)
Level of Consideration 1 2 3 4 5 Average Index Ranking Description
Respondent's frequency f % f % f % f % f % B18 Reluctance in timely decision 0 0.0 0 0.0 3 10.0 21 70.0 6 20.0 4.10 4 Agree B16 Conflicts among team members 0 0.0 1 3.3 6 20.0 15 50.0 8 26.7 4.00 4 Agree B8 Backing up plan 0 0.0 1 3.3 8 26.7 13 43.3 8 26.7 3.93 4 Agree
B13 Project completion date specified but not yet planned 0 0.0 1 3.3 7 23.3 15 50.0 7 23.3 3.93 4
Agree
B21 Negative attitude 0 0.0 2 6.7 9 30.0 13 43.3 6 20.0 3.77 4 Agree
B22 Aggressive competition at tender stage 0 0.0 4 13.3 6 20.0 14 46.7 6 20.0 3.73 4 Agree
B15 Tendency to pass on the blame to others 0 0.0 6 20.0 4 13.3 14 46.7 6 20.0 3.67 4 Agree
B11 Human resource training 0 0.0 7 23.3 10 33.3 7 23.3 6 20.0 3.40 3 Neutral
63
4.4.3 Analysis for Working Condition Factors Considered
Two (2) main factors were highlighted in this section. The results of the study
were shown in Table 4.3. All (2) of this factors were ranked and anlyzed using
average index and frequency analysis as stated before.
Figure 4.8: Working Condition Factors
4.4.3.1 Average Index Analysis
Based on Figure 4.8, factor C1 and C2 shows they have very high degree of
consideration of a scale between 4.50 to 5.00. Factor C1 has a scale of 4.6 while factor
C2 has a scale of 4.5. Both factor C1 (scope and nature of work) and C2 (climatic
condition at site) were considerably very important factors which affects the
preparation of construction work schedule.
64
4.4.3.2 Frequancy Analysis
Figure 4.9: Tabulation of Working Condition Factors
Figure 4.9 showed the frequancy analysis of both C1 and C2 factors. Factor
C1 has 63.3% of respondents having highest degree of consideration, 33.3% have high
degree of consideration while only 3.3% stands neutral. However, factor C2 has
60.0% of respondents having highest degree of consideration. It has the same
percentage (33.3%) for high degree of consideration same as factor C1. Besides, the
percentage for respondents having neutral and low degreeof consideration is equal to
the respondents who chose neutral on factor C1 which is 3.3%.
65
Table 4.3: Working Condition Factors Considered in Preparing Better Construction Work Schedule
Level of Consideration 1 2 3 4 5 Average Index Rating Description
Respondent's Frequency f % f % f % f % f % C1 Scope and nature of work 0 0.0 0 0.0 1 3.3 10 33.3 19 63.3 4.60 5 Strongly Agree C2 Climatic condition at site 0 0.0 1 3.3 1 3.3 10 33.3 18 60.0 4.50 5 Strongly Agree
Table 4.4: External Environment Factors Considered in Preparing Better Construction Work Schedule
Level of Consideration 1 2 3 4 5 Average Index Rating Description Respondent's frequency f % f % f % f % f %
D1 Economic Environment 0 0.0 2 6.7 2 6.7 12 40.0 14 46.7 4.27 4 Agree
D6 Technological Environment 0 0.0 0 0.0 7 23.3 11 36.7 12 40.0 4.17 4 Agree
D5 Industrial Relation Environment 0 0.0 1 3.3 9 30.0 14 46.7 6 20.0 3.83 4 Agree
D2 Social Environment 0 0.0 1 3.3 10 33.3 14 46.7 5 16.7 3.77 4 Agree
D4 Physical Environment 0 0.0 3 10.0 12 40.0 11 36.7 4 13.3 3.53 4 Agree
D3 Political Environment 0 0.0 10 33.3 11 36.7 6 20.0 3 10.0 3.07 3 Neutral
66
4.4.4 Analysis for External Enviornment Factors
Two (6) main factors were highlighted in this section. The results of the study
were shown in Table 4.4. All (6) of this factors were ranked and anlazed using
average index and frequancy analsysis as stated before.
4.4.4.1 Average Index Analysis
Figure 4.10: External Environment Factors
According to Figure 4.10 shown, the factors for this category has high and
neutral degree of consideration. Factor D1 has a scale of 4.27 for the average index.
Next is factor D6 which has a scale of 4.17. Factor D5 has a scale of 3.83 while factor
D2 have a scale of 3.77. Factor D4 have average index with a scale of 3.53. These
factors were very important factors affecting the preparation of construction work
schedule. However, the final factor D3 has a scale of 3.07 is considered as not quite
important factor.
67
4.4.4.2 Frequancy Analysis
Figure 4.11: Tabulation of External Environment Factors
Figure 4.11 showed the tabulation of the factors in external environment
category in terms of its frequancy. The factor D1 has 46.7% of respondents having the
highest degree of consideration and 40.0% who have high consideration. 6.7% of the
respondents stands neutral and have low degree of consideration. On the other hand,
factor D6 have 40% of respondents having very high degree of consideration but only
36.7% have high consideration and 23.3 stands neutral. Factor D5 have larger group
of respondents (46.7%) who have high degree of consideration if compared to very
high degree (20.0%, neutral (30.0%) and low degree (3.3%). The same case happens
to factor D2 where its percentage of respondents is the same for both having high
degree of consideration and neutral. As for factor D4, 40.0% of respondents stands
neutral and followed by 36.7% who agree, 13.3% strongly agree and 10.0% disagree.
Then, factor D3 has 36.7% whostands neutral, 33.3% with low degree of consideration,
20.0% high degree of consideration and only 10.0% who strongly agree.
68
4.5 Analysis on Improvement Methods in Preparing Better Construction
Work Schedule
Table 4.5 showed the list of methods of improvement that could be considered
in preparing better construction work schedule in the construction industry.
Respondents show different opinion towards these methods of improvement.
Figure 4.12: Tabulation of Improvement Methods
From Figure 4.12, only three (3) methods were agreed totally by all
respondents which were IM3, IM5 and IM8. The other five (5) methods suggested
were not agreed by all respondents. However, the percentage of respondents who
agree that these methods will prove improvement is more than those who think
otherwise. IM1 and IM4 both have 97% of respondents who agree that these methods
were important while 80% of respondents agree on IM2 and IM6. Only 70% of
respondents agree on IM7 which proves that IM7, upgrading communication system
used or using more technology when giving information for efficiency and more
effectiveness such as email, PDA, and GPRS is not a good idea in improving the
preparation of construction work schedule. Nevertheless, these improvement methods
69
should be consider as an important actions to be taken by all project team players to
improve the preparation of construction work schedule.
Table 4.5: Improvement Methods in Preparing Better Construction Schedule
Improvement Methods Yes No
Frequency (f)
Percentage (%)
Frequency (f)
Percentage (%)
IM3 Project team members must be committed to their responsibilities.
30 100 0 0
IM5
Continuous and proper planning before construction, so that resources and time are sufficient.
30 100 0 0
IM8 Give prompt feedback/action when any matter arises.
30 100 0 0
IM1
Project team leaders should keep good relationship with all project participants.
29 97 1 3
IM4 Contractor should manage his financial resources and plan cash flow.
29 97 1 3
IM2
Learn more on managing human, because with good skill on human management and good motivating skill, motivated workers could improve productivity.
24 80 6 20
IM6
Material supply should be readily preserved to avoid insufficient or depleted resources.
24 80 6 20
IM7
Upgrade communication system used. Use more technology when giving information for efficiency and more effectiveness such as email, PDA, and GPRS. It is better to give information in written form rather than verbal instruction or information.
21 70 9 30
70
4.6 Additional Suggested Factors Affecting in the Preparation of Construction
Work Schedule
Out of the thirth (30) respondents, one respondents suggested that transparency
in sharing data among involved parties is also a factor which should be considered
when preparing the construction work schedule. Besides he also suggested that team
players should have good communication skill as a method of improvement.
4.7 Discussion of Findings
The information obtained through earlier literature study in Chapter 2,
literature review and the results from the questionnaire distribution for questionnaire
survey of the local contractors have fulfilled the objective of this study.
In general, this thesis was conducting an exploratory study on the preparation
of construction work schedule to determine the factors which were affecting this
mater in the construction industry. Therefore, the objectives of the study and findings
will be reviewed as a resolution of the objectives. There were three (3) objectives
posted in this study and further details on the individual findings and an overall
outcome as the general conclusion summarized the entire study.
In this study, thirty-five (35) possible factors affecting the preparation of better
construction work schedule were investigated. These factors were divided into four
(4) main categories namely project specific factors, project management factors,
working condition factors and external environment related factors. From the factors
listed, eleven (11) factors scored an average index between 4.50 to 5.00 rating scale,
twenty-two (22) factors has average index between 3.50 to 4.5 rating scale, whereas
only 2 factors were have average index between 2.00 to 3.49 rating scale. This means
71
that most of the respondents have fairly high degree of consideration of most of the
factors discussed.
Besides, this study has also identified the importance of these factors that
affect the preparation of better construction work schedule. The factors which were
very important were complexity of project, type of project, size of project and nature
of project under the project specific factors.
Complexity of project is important as the activities and procedures involved
will need a different approach from conventional. A more complex the construction
project, the more complex the construction project, the greater the complication in
preparing the construction work schedule. Besides, the type of project must be
determined first whether it is a commercial building, housing estates, schools or
others. Each building project requires different construction work schedule. Size and
nature of project should be taken into consideration seriously before preparing the
construction schedule. Large construction projects, such as an office building or
industrial complex, are often too complicated. These projects are divided into many
segments such as site preparation, landscaping and the building construction which
require schedulers to determine the best way to get materials to the building site and
the most cost-effective plan and schedule for completing the project. all required
construction site activities are divided into logical steps, budgeting the time required
to meet established deadlines which will require sophisticated estimating and
scheduling techniques and use of computers with specialized software.
On the other hand, all the project management related factors was also
important except for human resource training. The factor, identification of the critical
activities, coordination with other team members, understanding responsibilities of
team members, technical capability and commitment of all parties were very
important. Every activities involved in the whole construction process should be
carefully listed and planned systematically to avoid missing tasks and delay. This is
also to smooth the construction process with a clear direction of process to follow.
Every members participating in a construction project should keep a god relationship
between each other in order to ensure that works carry out is according to plan.
Without good relationship, problems may arise and team members, authority to make
72
decisions, leadership quality difficult to solve jeopardizing the work and causing the
project to be in chaos.
Nevertheless, the other project management related factors which were the
ability to delegate authority to team members, authority to make decisions, leadership
quality, technical capability, lack of understanding of operating procedures,
inadequate project formulation in the beginning, uniqueness of the project activities
requiring high technical know-how, monitoring and feedback by client, ignorance of
appropriate planning tools and techniques, reluctance in timely decision, mismatch in
capabilities of client and architect, availability of resources, reluctance in timely
decision, conflicts among team members, project completion date specified but not
yet planned, negative attitude, aggressive competition at tender stage, and tendency to
pass on the blame to others are quite important. Thus, the construction team members
should always pay attention to these factors to prepare a good construction work
schedule so that construction work can be carried out smoothly and effectively.
Factors with the lowest average index were human resource training and
political environment. The construction players believed that human resource training
affect the preparation of construction work schedule less. However, it can educate
team members to learn more on managing human and projects which improve
productivity.
Furthermore, working condition related factors were also very important. The
scope and nature of work was considered as very important because the scope and
nature of work will be the base for preparing the construction work schedule.
Inaccurate scope and nature of work will result in misleading deceptive or false
statement or even claims in the construction projects.
External environment related factors were fairly important affecting in the
preparation of construction work schedule. These factors refer to economic
environment, technological environment, industrial relation environment, social
environment and physical environment. These factors were inter-related to all the
other factors mentioned above. Economic environment seem to be important due to the
importance of the country economic situation.
73
Methods of improvement in preparing construction work schedule were also
identified in order to help the project team members produce a more effective and
good construction work schedule. Any improvement methods will help in the
preparation but only a few will drastically enhance the development of the
construction work schedule namely project team leaders should keep good
relationship with all project participants, continuous and proper planning before
construction so that resources and time were sufficient and give prompt
feedback/action when any matter arises.
4.8 Summary
Based on the survey done above, it can clearly be seen that there were some
factors that were in theory which might not be as important as everyone thinks.
However, when it comes to practical, it plays such an important role in determining the
success of a project. This can be seen from the responses given by the respondents.
Quantitative and qualitative judgements were employed in data analysis. Statistics
were used to analyze the background of the respondents and Likert scaling system was
used to analyze the factors that were presented in the questionnaire form.
According to the result of the analysis, the factors vary from one situation to
another. The analysis indicated that thirty-five (35) possible factors that should be
considered in preparation of consruction work schedule were divided into four (4)
catagories namely, project specific factors, projectmanagemtn, working condition and
external environment. The factors listed have achieved the average index ranging from
3.07 to 4.73 rating scale. Ten (11) factors have scale from 4.50 to 5.00 average index
as very high degree of consideration. However, most of the factors, twety-one (22)
have average index between 3.50 to 4.50 rating scale The remaining factors which is
only two (2) have average index between 2.00 to 3.5 rating scale. This shows that
most of the factors agreed by the respondents to be considered in preparing better
construction work schedule.
74
The most critical factors with the highest average index overall would be the
complexity of the project and identifying critical factors with average index of 4.73
and type of project with average index of 4.70 rating scale respectively. Generally,
project specific factors is considerably most important when preparing construction
work schedule. Then, it is followed by the project management and working condition
factors which is also quite significant. In fact, from the study it was revealed that the
external environment factors were less vital compared to the other factors in this matter.
CONCLUSION
CHAPTER 5
AND
RECOMMENDATIONS
CHAPTER 5
CONCLUSION AND RECOMMENDATIONS
5.1 Introduction
This chapter concludes the study by the discussion of the results of the data
analysis done on Chapter 4 on data analysis and findings. This study basically aimed
to reveal the main factors that normally being considered in the preparation of the
construction work schedule. From the extensive literature review, those factors are
discussed with a sound knowledge of the factors in various angles were achieved.
5.2 Conclusion
As a conclusion to the study, the objectives of the study and findings will be
reviewed as a resolution of the objectives. There were three (3) objectives posted in
this study and further details on the individual findings and an overall outcome as the
general conclusion to summarize the entire study.
76
Objective 1:
To investigate the factors affecting the preparation of a better construction work
schedule.
Table 5.1 below showed the summary of the 33 factors which affects the preparation
of construction work schedule in the construction industry according to category.
Table 5.1: Factors Affecting the Preparation of Better Construction Work Schedule
No Factors Affecting the Preparation of Construction Work Schedule Factors Category
1 Complexity of Project Project Specific Factors 2 Type of Project Project Specific Factors 3 Size of Project Project Specific Factors 4 Nature of Project Project Specific Factors 5 Identifying critical activities Project Management Factors 6 Coordination with other team members Project Management Factors 7 Understanding responsibilities of team members Project Management Factors 8 Commitment of all parties Project Management Factors 9 Ability to delegate authority to team members Project Management Factors
10 Authority to make decisions Project Management Factors 11 Leadership quality Project Management Factors 12 Technical capability Project Management Factors 13 Lack of understanding of operating procedures Project Management Factors 14 Inadequate project formulation in the beginning Project Management Factors
15 Uniqueness of the project activities requiring high technical know-how Project Management Factors
16 Monitoring and feedback by client Project Management Factors
17 Ignorance of appropriate planning tools and techniques Project Management Factors
18 Reluctance in timely decision 19 Mismatch in capabilities of client and architect Project Management Factors 20 Availability f resources Project Management Factors 21 Reluctance in timely decision Project Management Factors 22 Conflicts among team members Project Management Factors
23 Project completion date specified but not yet planned Project Management Factors
24 Negative attitude Project Management Factors 25 Aggressive competition at tender stage Project Management Factors 26 Tendency to pass on the blame to others Project Management Factors 27 Human resource training Project Management Factors 28 Scope and nature of work Working Condition Factors 29 Climatic condition at site Working Condition Factors 30 Economic Environment External Environment Factors
77
Table 5.1: Factors Affecting the Preparation of Better Construction Work Schedule
(Cont’d)
No Factors Affecting the Preparation of Construction Work Schedule Factors Category
31 Technological Environment External Environment Factors 32 Industrial Relation Environment External Environment Factors 33 Social Environment External Environment Factors 34 Physical Environment External Environment Factors 35 Political Environment External Environment Factors
Objective 2:
To establish the severity of these factors.
Table 5.2showed the severity of the factors affecting the preparation of construction
work schedule in terms of average index from the highest to the lowest index.
Table 5.2: Severity of Factors Affecting Preparation of Better Construction Work
Schedule
No Factors Affecting the Preparation of Construction Work Schedule
Average Index Factors Category
1 Complexity of Project 4.73 Project Specific Factors 2 Identifying critical activities 4.73 Project Management Factors 3 Type of Project 4.70 Project Specific Factors
4 Coordination with other team members 4.67 Project Management Factors
5 Scope and nature of work 4.60 Working Condition Factors 6 Size of Project 4.57 Project Specific Factors
7 Understanding responsibilities of team members 4.57 Project Management Factors
8 Technical capability 4.53 Project Management Factors 9 Commitment of all parties 4.53 Project Management Factors
10 Nature of Project 4.50 Project Specific Factors 11 Climatic condition at site 4.50 Working Condition Factors
12 Ability to delegate authority to team members 4.43 Project Management Factors
13 Authority to make decisions 4.40 Project Management Factors 14 Leadership quality 4.37 Project Management Factors
15 Lack of understanding of operating procedures 4.33 Project Management Factors
16 Inadequate project formulation in the beginning 4.30 Project Management Factors
17 Economic Environment 4.27 External Environment Factors
78
Table 5.2: Severity of Factors Affecting Preparation of Better Construction Work
Schedule (Cont’d)
No Factors Affecting the Preparation of Construction Work Schedule
Average Index Factors Category
18 Uniqueness of the project activities requiring high technical know-how 4.23 Project Management Factors
19 Monitoring and feedback by client 4.20 Project Management Factors
20 Ignorance of appropriate planning tools and techniques 4.17 Project Management Factors
21 Technological Environment 4.17 External Environment Factors
22 Mismatch in capabilities of client and architect 4.13 Project Management Factors
23 Availability of resources 4.10 Project Management Factors 24 Reluctance in timely decision 4.10 Project Management Factors 25 Reluctance in timely decision 4.10 Project Management Factors 26 Conflicts among team members 4.00 Project Management Factors
27 Project completion date specified but not yet planned 3.93 Project Management Factors
28 Industrial Relation Environment 3.83 External Environment Factors 29 Social Environment 3.77 External Environment Factors 30 Negative attitude 3.77 Project Management Factors 31 Aggressive competition at tender stage 3.73 Project Management Factors
32 Tendency to pass on the blame to others 3.67 Project Management Factors
33 Physical Environment 3.53 External Environment Factors 34 Human resource training 3.40 Project Management Factors 35 Political Environment 3.07 External Environment Factors
Objective 3:
To identify the methods of improvement in preparing better construction work
schedule.
In order to improve and prepare better and good construction work schedule, some
recommendations are listed below as a guideline for the project team members:
1. Project team leaders should keep good relationship with all project participants.
2. Continuous and proper planning before construction, so that resources and
time are sufficient.
3. Give prompt feedback/action when any matter arises.
4. Project team leaders should keep good relationship with all project participants.
79
5. Contractor should manage his financial resources and plan cash flow.
6. Learn more on managing human, because with good skill on human
management and good motivating skill, motivated workers could improve
productivity
7. Material supply should be readily preserved to avoid insufficient or depleted
resources.
8. Upgrade communication system used. Use more technology when giving
information for efficiency and more effectiveness such as email, PDA, and
GPRS. It is better to give information in written form rather than verbal
instruction or information.
5.4 Recommendation for Future Study
Another study can be done for other specific type of projects, such as housing
projects, utility projects, highway projects, dam construction projects, etc. Detail
studies can be done to evaluate the effectiveness of the construction work schedule on
the particular project in the construction industry.
In fact, the limitation regarding this study was that study was done at the
respondents own point of view. Thus, a case study can be employ to study on various
types of projects to determine the influence of these factors on the scheduling works
of these projects.
80
5.5 Summary
The objectives of this study were achieved by investigation of the important
factors affecting the preparation of better construction work schedule of a
construction project. The three most critical factors affecting in the preparation of
construction work schedule identified were complexity of the project, identifying
critical factors and type of project. In fact, project specific factors was considerably
most important affecting in the preparation of construction work schedule followed by
the project management and working condition factors. However, external
environment factors are less vital. Recommendations on the improvement of the
problem faced were also discussed after the analysis of the findings was done. More
effective and good construction work schedule can be produced if project team
players consider the methods of improvements identified in this study seriously in
their construction work.
REFERENCES
AND
BIBLIOGRAPHY
81
REFERENCES AND BIBLIOGRAPHY
Abd. Majid, M.Z., and Mc Caffer, R. (1997). Assessment of Work Performance of
Maintenance Contractors in Saudi Arabia Journal of Management in Engineering,
ASCE, Vol. 17 No. 1:91
Ballard Glenn. (1997). Lean construction and EPC performance improvement. Luis
Alarcon: Lean Construction.
Callixtus Tamin. (2005). Factors Affecting the ‘S’ Curve in Determining Project
Completion. UTM.
Che Wan Fadhil Che Wan Putra. (2001). Basic Review of Construction Work Scheduling
Approaches. Faculty of Civil Engineering. UTM.
Chua D.K.H., Kog Y.C. and Loh P.K. (1999). Critical Success Factors for Different
Proect Objectives. Journal of Construction Engineering and Management,
May/June.
Claugh RH, Sears GA, Sears SK. (2000). Construction project management. 4th ed.
Walker A. Project management in construction. 3rd ed. Blackwell Science; 1996.
CMAA. (2005). Construction Management Association of America: What does a
Construction Manager really do? Retrieved December 6, 2005.
http://cmaanet.org/job_analysis.php
Committees of the Association for the Advancement of Cost Engineering (AACEI) and
the Project Management Institute College of Scheduling (PMICoS). 2005.
Approach. http://www.constructionschedule.net/
82
Frank J, P.E. (2004). Construction Scheduling 101: Characteristic of a Good
Construction Schedule. Article 3 of 4. Pinnacleone. The conrnerstone of
confidence. http://www.pinnacleone.com/assets/files/PinnacleOne_Characteristics
_Good_Construction_Schedule.pdf
Glavinich, T. E. (2004). Construction Planning and Scheduling, 2nd Edition. Arlington,
VA, Associated General Contractors of America.
Glenwright E. (2008). Contemporary Aspects of Critical-Path Planning and Scheduling.
Part1. PM World Today. Volume X. Issue
III. http://www.pmforum.org/library/papers/2008/PDFs/Glenwright-3-08.pdf
Harban Singh, K.S. (2004). Work Programme - A Contractual Perspective. Buletin
Ingenieur Volume 21.
Hendrickson C. (1998). Project Management for Construction. First Edition. Prentice
Hall.
Iyer K.C. and Jha K. N. (2006). Critical Factors Affecting Schedule Performance:
Evidence from Indian Construction Projects. Journal of Construction Engineering
and Management, August.
Kiiras J. Project Management in Chaos. No. 2, 2001.
Mohamad Ibrahim Mohamad, Rosli Mohamad Zin
Guidelines for the Preparation and Submission of Work Schedule for
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and Donald Chan B. T. (2006).
Tatiana Rina Puspasari. (2005). Factors Causing the Poor Performance of Construction
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Project. UTM.
Twomey M. (2006). Keeping Construction on Schedule.
http://www.areadevelopment.com/assetManagement/june06/constructionProjects.
shtml
USDL (2005). United States Department of Labor, Bureau of Labor Statistics.
Construction Managers. Retrieved December 6, 2005.
http://www.bls.gov/oco/ocos005.htm
Wickwire Jon M., Jones Allen M., Wickwire Esq, Driscoll Thomas J., Hurlbut Stephen B.
(2002). Construction Scheduling: Preparation, Liability, and Claims. Edition 2.
Aspen Publishers Online.
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William C. Last, Jr. 2009. The Use of a Construction Schedule to Analyze a Delay.
http://www.lhfconstructlaw.com/CM/Articles/Articles104.asp
APPENDIX
APPENDIX A
QUESTIONNAIRE FORM
84
APPENDIX A
QUESTIONNAIRE FORM
Section A: Respondent’s Background
(Please and answer in given spaces)
1. Name : _______________________________________
2. Highest Qualification : _______________________________________
3. Working experience in the construction Industry
less than 2 years 6 to 7 years
2 to 3 years more than 8 years
4 to 5 years
4. Current Position : _______________________________________
5. Contact No. : _______________________________________
6. Company’s Name : _______________________________________
_______________________________________
7. Company’s Address : _______________________________________
_______________________________________
_______________________________________
8. Company’s Stamp:
85
SECTION B: Factors Affecting in the Preparation of Better Construction Work
Schedule
This section aims to evaluate the critical factors contributed to the preparation of better
construction work schedule.
Please use the scale below to rate the degree of consent of the following statement based
on your experience. (Please and answer in given spaces)
Strongly Agree Neutral Disagree Strongly
Agree Disagree
A. Project Specific Factors
1. Type of project
2. Nature of Project
3. Complexity of Project
4. Size of Project
B. Project Management
1. Coordination with other team members
2. Leadership quality
3. Technical capability
4. Authority to make decisions
5. Ability to delegate authority to team
members
6. Understanding responsibilities of team
Members
7. Commitment of all parties
8. Backing up plan
9. Identifying critical activities
10. Availability of resources
11. Human resource training
12. Monitoring and feedback by client
86
Strongly Agree Neutral Disagree Strongly
Agree Disagree
13. Project completion date specified but
not yet planned
14. Mismatch in capabilities of client and
architect
15. Tendency to pass on the blame to others
16. Conflicts among team members
17. Ignorance of appropriate planning tools
and techniques
18. Reluctance in timely decision
19. Lack of understanding of operating
procedures
20. Inadequate project formulation in the
beginning
21. Negative attitude
22. Aggressive competition at tender stage
23. Uniqueness of the project activities
requiring high technical know-how
C. Working Condition
1. Scope and nature of Work
3. Climatic condition at site
D. External Environment
1. Economic Environment
2. Social Environment
3. Political Environment
4. Physical Environment
5. Industrial Relation Environment
87
6. Technological advancement
Besides the factors mentioned above, is there any other factors which may contribute to
the poor preparation of construction work schedule?
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
88
SECTION C: Improvement Methods in Preparing Better Construction Work
Schedule
This section aims to identify improvement methods in preparing better construction work
schedule.
Please thick () Yes / No for the methods which can help improve preparation of better
construction work schedule.
Yes No
1. Project team leaders should keep good
relationship with all project participants.
2. Learn more on managing human, because
with good skill on human management and
good motivating skill, motivated workers
could improve productivity .
3. Project team members must be committed to
their responsibilities.
4. Contractor should manage his financial resources
and plan cash flow.
5. Continuous and proper planning before construction,
so that resources and time are sufficient.
6. Material supply should be readily preserved to
avoid insufficient or depleted resources.
89
Yes No
7. Upgrade communication system used. Use more
technology when giving information for efficiency
and more effectiveness such as email, PDA, and GPRS.
It is better to give information in written form rather
than verbal instruction or information.
8. Give prompt feedback/action when any matter arises.
Is there any other solutions to which can be used to improve the preparation of the
construction work schedule?
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
End of Questionnaire
Your Kind Co-Operation is Highly Appreciated. Thank You.