Fillable Printable A Sample Research Proposal with Comments
Fillable Printable A Sample Research Proposal with Comments
A Sample Research Proposal with Comments
A Sample Research Proposal with Comments
A research project or thesis will take at least two semesters to complete. Prior to starting a research, i.e.
enrolling in the first semester research course, students must go through the proposal stage, during which
students will develop their proposal and have it reviewed by his/her research advisor. This means that students
need months of planning and background research work before the start of the first semester research. Students
are not allowed to enroll in a research course without an approved proposal. For students planning to start their
research in the fall semester, the deadline for the proposal submission (to your advisor) is July 15. For those
who plan to start in the spring semester, the proposal deadline is December 1. During the proposal stage,
students should discuss their research interests with CM faculty members, identify a research topic, conduct
preliminary literature review and develop a project proposal. The proposal should discuss problem statement,
objectives, research methodology, research activities, and a time schedule in about 3-5 pages. A sample
proposal is attached here for your reference.
Sample proposal text
Comment
A Conceptual Framework for Scheduling Constraint Management
Provide a brief and meaningful title to
your project
1. Introduction
Every construction project is unique and has its own operating
environment and sets of technical requirements. As a result, the execution
of a construction project is subject to numerous constraints that limit the
commencement or progression of field operations, which invariably have
significant negative impact on overall project performance. By definition,
constraints refer to any condition, such as temporal/spatial limitations and
safety/quality concerns, which may prevent a project to achieve its goals.
Successful execution and control of a construction project relies on effective
identification and management of constraints through master planning and
short-term look-ahead scheduling. While the master schedule provides a
global view of a project and the overall execution strategy, a look-ahead
schedule offers a detail account of operational constraints and a detailed
plan showing work to be done within a relatively short time window.
Ideally, these detailed schedules should reflect actual field conditions and
provide field personnel with operation instructions free of constraints and
conflicts (Hinze 2008). This look-ahead scheduling and constraint analysis
procedure is also a critical component of the last-planner methodology
proposed by Ballard (2000). This research project will provide an overview
of state-of-art schedule constraint analysis practice during look-ahead
scheduling. In addition, it will propose a conceptual framework for
managing constraints.
Background or introduction section
provides a description of the basic
facts and importance of the research
area - What is your research area, the
motivation of research, and how
important is it for the industry
practice/knowledge advancement?
2. Problem Statement
The importance of developing a constraint-free and reliable work
plan has long been recognized by the industry. However, numerous
construction projects are still plagued by delays and cost overruns, which
can frequently be traced to ineffective identification and treatment of
constraints. First, when a constraint is not properly identified during
scheduling, subsequent conflicts in the field are inevitable. Today’s projects
are becoming more and more technically complex and logistically
challenging, which exposes construction operations to even more complex
constraints. Second, the traditional scheduling methods, bar charts and
Critical Path Method (CPM) which are widely used as a basis for constraint
analysis, greatly limit our capability in modeling and resolving constraints
Problem statement provides a clear
and concise description of the issues
that need to be addressed - What is
the specific problem in that research
area that you will address (e.g. lack of
understanding of a subject, low
performance …)?
during look-ahead scheduling. These methods have long been blamed for
their limitations in modeling and communicating constraints, including
inability to cope with non-time-related precedence constraints and difficulty
to evaluate and communicate inter-dependencies at the field operation level
(e.g. Sriprasert and Dawood 2002; Chua and Shen 2001). In summary, there
is a need for a better understanding of constraints in construction and a
structured approach in identifying and modeling constraints to ensure a
constraint-free work plan. More specifically, the following research
questions need to be addressed:
1. What are the typical constraints found in various construction
projects?
2. How to classify these constrains for easier identification and
modeling?
3. What are the current industry practice as well as research
advancements in modeling and resolving constraints?
How to unify the constraint classification knowledge and various constraint
modeling efforts into a framework for total constraint management?
3. Objectives
The long term goal of the research is to develop a formalized
constraint management system. Constraint management is defined herein as
the process of identifying, classifying, modeling, and resolving constraints.
The objective of the current study is to provide a comprehensive review of
literatures and industry practices in relation to constraint analysis and
outline a conceptual framework for constraint management. Particularly, the
study has the following sub-objectives:
1. To provide a comprehensive review of sources and characteristics
of constraints typically found in construction projects;
2. To develop a constraint classification method for easier constraint
identification and modeling;
3. To review current industry practices and researches in regards to
constraint modeling;
4. To outline a conceptual framework for total constraint management.
The result of this study will be valuable to the industry practitioners as well
as related software providers in developing better practice and tools for
constraint management and look-ahead scheduling.
Objectives provide a list of goals that
will be achieved through the proposed
research – What are the
benefits/impact (e.g. better
understanding, improved productivity
…) that will be generated if the
research problem is answered?
4. Preliminary Literature Review
A preliminary literature review shows that past studies are primarily
focused on understanding and modeling a particular type of constraint, such
as technological, contractual, resource, spatial, and information constraints.
Limited progress has been made on classifying various constraints
according to their characteristics in a comprehensive manner. In terms of
modeling and resolving constraints, various approaches have been
recommended. For example, many CPM-based methods are applied to deal
with time-related constraints; knowledge-based systems were used to
automate work plan generation; network-based optimization algorithms
were developed to resolve constraints; and databases and visualization
techniques, such as 3D, 4D, and Virtual Reality (VR), are used to
communicate and visualize constraints. What is missing from the past
studies is a comprehensive and structured approach in managing constraints
Preliminary literature review: provide
a summary of previous related
research on the research problem and
their strength and weakness and a
justification of your research - What
is known/what have been done by
others? And, why your research is
still necessary?
in construction projects.
5. Methodology
The primary research method for this study is literature review and
conceptual modeling. Constraint identification and classification through a
structured approach is the very first step toward a “zero-constraint”
environment. This study will first review various types of constraints in
construction and their characteristics. Based on this understanding, a
classification method will be developed to categorize constraint factors for
the purpose of constraint identification and modeling. In the second stage of
this study, existing constraint modeling methods will be identified based on
a comprehensive review of current industry practices and academic
researches. Finally, once the constraint classification and modeling
techniques are identified, a conceptual framework for total constraint
management will be outlined. This study will be conducted between
September 2010 and May 2011.
Research methodology defines the
research methods and logic steps -
What to do and how to solve the
problem and achieve proposed
obj ectives? Which research methods
(e.g. survey, modeling, case study …)
will be used? Attach a project
schedule table, if necessary.
References
Ballard, G. (2000). “Last planner system of production control.” Ph.D.
Dissertation. Univ. of Birmingham, Birmingham, UK.
Chua, D. and Shen, L. J. (2001). “Constraint modeling and buffer
management with integrated production scheduler.” Proceedings of
International Conferences on Lean Construction 2001, Singapore.
Hinze, J. W. (2008). Construction planning and scheduling, 3rd ed.
Pearson, NJ.
Sriprasert, E. and Dawood, N (2002). “Requirements identification for 4D
constraint-based construction planning and control system.”
Proceedings of CIB W78 conference – distributing knowledge in
building, Aarhus, Danmark.
All factual material that is not original
with you must be accompanied by a
reference to its source. Please use
ASCE guideline on reference and
citation style.