writing the final report for ee 499 – senior projects
DESCRIPTION
Writing the Final Report for EE 499 – Senior Projects. GUIDELINES FOR WRITING XE 499 SENIOR PROJECT – CAPSTONE DESIGN REPORTS Prepared b y Dr. Bahaddin Karagőzoğlu ELECTRICAL AND COMPUTER ENGINEERING DEPARTMENT FACULTY OF ENGINEERING KING ABDULAZIZ UNIVERSITY Rabi II 1425 ~ June 2004. - PowerPoint PPT PresentationTRANSCRIPT
Writing the Final Report
for EE 499 – Senior Projects
2
GUIDELINESFOR WRITING
XE 499SENIOR PROJECT – CAPSTONE DESIGN
REPORTSPrepared by
Dr. Bahaddin KaragőzoğluELECTRICAL AND COMPUTER ENGINEERING DEPARTMENT
FACULTY OF ENGINEERINGKING ABDULAZIZ UNIVERSITY
Rabi II 1425 ~ June 2004
http:/bkaragoz.kau.edu.sa
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Essentials of the Report
• What we did,• Why we did it,• How we did it,• What we have found (results we have obtained),• Interpretation of results: What are the results
obtained mean to us,• Conclusions: How the achievements match the
original objectives. • Recommendations: How we would proceed if we
have started the project now?http:/bkaragoz.kau.edu.sa
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Organizing the Project Report
Typical organization of a report is composed of three main sections as:
• Preliminary materials,• Body of the report, and• Reference materials
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Preliminary Materials• The Title or Cover Page• The cover backbone • Approval page • Remembrance and Dedication (optional, if used)• Project Summary or Abstract • Acknowledgement (optional) • Table of Content • List of Tables and List of Figure (if available)
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The cover page
DESIGN OF AN ELECTRONIC DEVICE FOR SURVEILLANCE OF DRY-EYE PROBLEM IN
SCREEN ADDICTS
By
MOHAMMED WAGIALLAH BASIM AHMED Comp. No. 9950270 Comp. No. 9950729 AHMAD AL-SHOMAR ALA’A ABDUL JABBAR Comp. No. 0052131 Comp. No. 0051591
Supervised by
DR. BAHATTIN KARAGŐZOĞLU
Advisory committee
DR. M. SHAFIQUE KHAN COMPUTER ENG, KAAU ENG. MALIK MUTABBAGANI CEO OF PHOTON Co. Ltd ENG. ENIS ILKER TEKDEMIR E&COMM. ENG, KAAU
Customer
DR. BAHATTIN KARAGŐZOĞLU, ECE DEPT. KAAU
ELECTRICAL AND COMPUTER ENGINEERING DEPARTMENT
FACULTY OF ENGINEERING KING ABDULAZIZ UNIVERSITY
JEDDAH - SAUDI ARABIA
FALL 1423/1424 H - 2002/2003 G
Left margin3 cm
Top margin5 cm
Right margin2.5 cm
Bottom margin2.5 cm
Title of the project: it is printed in 16-24 points font size single-spaced, bold and all CAPITAL LETTERS. Student name: 14-18 points font size and bold
Supervisor’s name: 14-18 points font size and bold
Month and year: in Hijri and Gregorian without commas in 14-16 points font size and bold
Institutional details: 14 – 16 pts font size and bold
Advisory committee (if available)
Customer (if available)
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Title
• It must precisely describe the reports content– Tell clearly what we are writing about– Focus on the limited area of our work
EXAMPLE:Design of a System to Locate a Free-Ranging
Patient within the HospitalPurpose - topic - focus
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The cover backboneEE
KAU
DESIG
N O
F AN
ELECTR
ON
IC D
EVICE FO
R
SURVEILLA
NC
E OF D
RY-EYE PRO
BLEM
IN SC
REEN
A
DD
ICTS
1425H/
2004Ghttp:/bkaragoz.kau.edu.sa
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The approval page
DEVELOPMENT OF A PC-BASED UNIVERSAL DISPLAY FOR BIOLOGICAL SIGNALS
BY
TAMER MOHAMMED BAHAUDEEN COMP. #: 9752270
A senior project report submitted in partial fulfillment of the requirements for the degree of
BACHELOR OF SCIENCE in
ELECTRICAL ENGINEERING (Biomedical Engineering)
Supervised by:
DR. BAHATTIN KARAGŐZOĞLU
Approved by:
Dr. R.A. Taşaltın .....................................................
Dr. A.F. Al-Khateeb .....................................................
ELECTRICAL AND COMPUTER ENGINEERING DEPARTMENT FACULTY OF ENGINEERING
KING ABDULAZIZ UNIVERSITY JEDDAH - SAUDI ARABIA
FALL 1423/1424 H - 2002/2003 G
Left margin3.5 cm
Top margin2.5 cm
Bottom margin2 cm
Right margin2 cm
Statement of purpose: 14 – 16 pts, bold
Names and signatures of report examiners: Names left justified, 14-16 points font size and bold
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الـعـــالـمـيــــن رّب لله الـحــمـــد
والصالة والسالم على أشرف األنبياء والمرسلين سيدنا محمد وعلى آله وصحبه أجمعين
To the memorial of my late father Mohammed Bahaudeen (may
Allah Almighty bless him)
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Remembrance and Dedication
Left margin3.5 cm
Top margin2.5 cm
Bottom margin2 cm
Right margin2 cm
Remembrance
Dedication (optional, if used)
Remembrance section may centralize the page if dedication is not used
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Abstract (Project Summary)
• A brief overview of the report• It should be
– Accurate: correctly reflect the purpose and content – Self-contained: stand on its own to reflect the
contents of the paper – Concise and Specific : As brief as possible– Non-evaluative: report information objectively
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Abstract (project summary)ABSTRACT
Development of PC-Base Universal Display for Biological Signals
Monitoring biological signals from the human body requires proper sensors, dedicated amplifiers,
signal processors and display units. Hence, monitoring systems interact with doctors through a visual
display screen that presents different information collected from the body. However, they are
expensive because of the dedicated complex hardware. Signal amplification and processing stages
for biological signals can be developed rather easily if a proper display unit is available since these
signals can not be displayed effectively using standard laboratory oscilloscope type displays.
For my senior project, I intended to develop an economical display system for biological
signals such as the signal generated due to the electrical activity of the heart. The system accepts a
signal amplified and has an amplitude level from 0 to 5 volts, with the frequency range of 125 Hz.
This range clearly covers most biological signals such as the electrooculogram (EOG),
electroencephalogram (EEG), and electrocardiogram (ECG), but not the electromyogram (EMG), or
the axon action potential (APP). In addition it can be used to monitor temperature and blood
pressure, because they have frequency much less than 1 Hz.
The input signal is converted from analog form to a sequence of digital pulses by the analog
to digital converter (ADC). Then, it travels through buffers and inverters to the parallel port of a
personal computer (PC). The PC accepts the readings from both status and control groups, and
combines them under the command of specially developed software. The readings are drawn on
computer screen as the real-time display of the acquired signal.
The program also saves a copy of the read data into a text file. Saving data to a text file is
much faster than saving them directly to an EXCEL file. After the data acquisition finished, a second
program converts the text file into MS EXCEL file format. A third program is developed to display
readings saved in the EXCEL file for off-line analysis of the signal. Eventually, the system
developed assists the medical professionals in interpreting biological signals via both on-line and
off-line displaying, and storing them.
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Boldface, 16 pts, centered and above the title
Bold, 16 pts, centered
Spacing (1.5 lines)
Length: 350 words, maximum one page
Typeface and size: preferably Times Roman, size 12
Foreword
Summary
Objective and background
Methodology
Overall conclusions
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Acknowledgement (optional)ACKNOWLEDGEMENT
The project is completed by the grace of Allah Almighty. I present this project to my great teacher
and supervisor Professor Bahattin Karagőzoğlu, who instructed me and spared nothing of his
precious time to help me all the way, without his help and encouragement I would not have been
able to complete this work. Special thanks to Eng. Ahmed Bechir Altrigui, who was a great source
of technical support and a good companion during the time we spent in the biomedical lab. Special
thanks to all engineers and doctors of the Electrical Engineering Department for their help and to my
family for their support and bearing me during this period of time.
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• It is the place where the author expresses his appreciation to the contributors.
• A professional tone must be maintained.
• A similar format as in the abstract is preferred.
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Table of ContentTABLE OF CONTENT
Abstract ............................................................................................................................. i Acknowledgement ........................................................................................................... ii Table of Content ............................................................................................................. iii List of Figures .................................................................................................................. v CHAPTER - 1 INTRODUCTION ............................................................................... 1
1.1 INTRODUCTION ........................................................................................... 1 1.2 PHYSIOLOGICAL PARAMETERS FOR MONITORING .......................... 2
1.2.1 Preference of Physicians .......................................................................... 2 1.2.2 Importance of Biopotential Signals ......................................................... 2 1.2.3 Characteristics of Biological Signals ....................................................... 3
1.3 MEANS OF PATIENT MONITORING......................................................... 4 1.3.1 Significance of Portable and Remote Monitors....................................... 5 1.3.2 Types of Portable Patient Monitors ......................................................... 5 1.3.3 Characteristics of Patient Monitors.......................................................... 6 1.3.4 Contribution of Computers to Patient Monitoring................................... 8
1.4 PROBLEM DEFINITION AND DESIGN CONSTRAINTS ......................... 9 1.4.1 Problem Definition................................................................................... 9 1.4.2 Economical and Social Issues................................................................ 10 1.4.3 Literacy in Technical Subjects............................................................... 10 1.4.4 Objective of the Project ......................................................................... 11
CHAPTER - 2 HARDWARE DESIGN..................................................................... 12 2.1 GENERAL OUTLINE OF THE SYSTEM................................................... 12
2.1.1 General Block Diagram ............................................................................. 12 2.1.2 Working Objectives ............................................................................... 12
2.2 INTERFACING ANALOG SIGNALS TO THE COMPUTER ................... 13 2.2.1 Basic Requirements ............................................................................... 13 2.2.2 Specifications of the Analog to Digital Converters (ADC)................... 14 2.2.3 ADC Types ............................................................................................ 16 2.2.4 The ADC0809........................................................................................ 17 2.2.5 Timing Circuits ...................................................................................... 19 2.2.6 Input Ranging and Level Shifting.......................................................... 21
2.3 INTERFACE THROUGH THE PARALLEL PORT ................................... 21 2.3.1 Parallel Port Background ....................................................................... 21 2.3.2 The Parallel Port -- an Overview ........................................................... 22 2.3.3 IEEE 1284 Data Transfer Modes........................................................... 23 2.3.4 Testing the Parallel Port......................................................................... 24 2.3.5 Reading A Whole Byte From A Parallel Port........................................ 25
CHAPTER - 3 SOFTWARE DESIGN ...................................................................... 27 3.1 PREFACE...................................................................................................... 27 3.2 DESIGN STEPS ............................................................................................ 28
3.2.1 Port Control............................................................................................ 28 3.2.2 Characteristics of Computers Used........................................................ 29 3.2.3 Conversion Control................................................................................ 29 3.2.4 Graphing ................................................................................................ 30 3.2.5 Real Time Signal Graphing ................................................................... 32
3.3 SIMULATION OF A PATIENT MONITOR ............................................... 32 3.3.1 Simulating a Multi-Channel Display ..................................................... 32 3.3.2 Acquiring the Patient Data..................................................................... 33
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Entries must be consistent, in both style and substance, with headings as they appear in the text (wording, capitalization, style of numerals, etc.)
Each entry should have tab leaders and corresponding page reference numbers must be aligned correctly
List of Tables and List of Figure (if available): a similar format as in the Table of Content is used http:/bkaragoz.kau.edu.sa
Format of Other Preliminary Materials
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Remembrance and dedication page (optional); conform to EE 499 formatAcknowledgement; a similar format as in the abstract, thanking those who helped with the work. Included people’s first names or initials, title, department, and institution all spelt correctly.Table of content; conform to EE 499 formatList of figures and tables; conform to EE 499 formatPage numbers in Roman numerals (i.e. iii, iv, v, …) appear at the bottom center of every page, except the title, approval and remembrance pages that have no page number displayed.
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Body of the Report • Introduction• Review of the literature (background)• Methodology• Results and discussions• Conclusions and recommendations.
Introduction
Results and conclusions
What we did? Why we did it?
How we did it?
What are the results we obtained? What are the results obtained mean to us?
How the achievements match to original objectives?
How we would proceed if we have started the project now?http:/bkaragoz.kau.edu.sa
The Introduction
• The introduction (1 or 2 pages)– Includes the purpose of the report– States the objectives
• Background (3-6 pages)– Gives any necessary background information– Provides a review of pertinent literature
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Introduction (1 or 2 pages)
It includes a clear explanation of goals of the project, the significance of studying the problem. It should orient the reader to the topic of the report by including the following:
•The problem - Explain the particular problem that is addressed in the report.
•The objective - State the assignment (what our project needs to accomplish to solve the problem).
•The method of the report - Describe the organization and structure of the report.
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Background (3-6 pages)
• Discuss the context and history of this general topic and describe what has been done in the past. Include literature search results for the OVERALL problem and context rather than the options for component parts here.
• Include pros and cons of the existing solutions. Also motivate need for a new solution.
• Answer the question: What are the most important issues for this topic in terms of the goals of the project and the effects on society?
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Write about >5 of following issues• Economic: effect of this topic on the economy in the past, possible cost of
project development, cost of materials, target cost if project is marketed.• Environmental: influence on the environment in the past, possible effects for
future developments• Sustainability: product life cycle, future markets• Manufacturability: material availability, use of off the shelf versus custom
components, special needs for hostile environments• Ethical: uses that could cause harm to society, ethical issues that someone
working on this topic might encounter
• Health and safety: positive or negative impacts on the health and safety of individuals or society for past or future applications in this topic
• Social: relationship of this topic to social aspects of society such as education, culture, communication, entertainment
• Political: relationship of this topic to political issues.http:/bkaragoz.kau.edu.sa
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Methodology
It contains • alternative approaches to reach the goal,• analysis of the problem and design of subsystems, • test and evaluation of the designed components, and • synthesis of the components to build the project. • present work plan for project phases (analysis,
design, implementation and evaluation) and • cost analysis in terms of expected effort and material
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Elements of Methodology Chapter
• Design Requirements (3 to 6 pages)• Feasibility Discussion (2-5 pages)• Final Implementation (5-15 pages)
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Design Requirements• Specifications and requirements for the project
– Specify technical and non-technical characteristics.• Selection of design criterion• Alternative solutions
– Explore alternative solutions. – Evaluate alternative solutions based on situation description
and design constraints.• Select the proposed solution with justifications
– Provide an overall architecture of the solution.• Functional decomposition of the project
– Explain the major functions required by our design. – Figures and tables should be used to supplement discussion.
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Feasibility Discussion
• Results of literature search– Provide the options and justification for overall approach
(hardware, software, choices of methods). • Analysis
– Describe behavior of the system, data and requirements • Options and justification for each functional part
– Provide the options and justification of design approach and components or methods used in each functional part.
– Be sure to cite all of the literature used in our discussion.
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Final Implementation• Describe the project and its functions
– We might organize the implementation presentation by functional groups.
– Discuss and present the calculations used in the design of the project in the relevant subsections.
– Summarize repetitive calculations in tables. • Also, describe
– Tools used, – The way of implementing the solution and – Solution requirements.
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Results
• Design of experiments to evaluate the system in laboratory environment and in real life situations,
• Statistical evaluation of the experimental data• Statements of results including visual
materials
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In the Results Section
Objectively inform the reader of the data collected and the statistical treatment of
them. Include all pertinent tables and/or figures to
further describe data Do not include an evaluation or analysis of the
data
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Discussion
• Evaluation and interpretation: – Was the hypothesis supported?– If so, how?
• An interpretive discussion of the results and thoughtful evaluation of the design methodology adopted.
• Discussion of the lessons learned
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In the Discussion Section
Discuss the results of the experiment Analyze the data and interpret the implications
of the data Compare the results of the current study to the
work of the previous works Recommend what should be done next in
regard to future works
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Conclusions
• Conclusions to be drawn from the results• Conclusions about the objectives• Implications of the overall study and results
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Results and Conclusions
• Performance Estimates and Results (2-5 pages)
• Production Schedule (1-2 pages)• Cost Analysis (1-2 pages)• User’s Manual (1-3 pages)• Discussion, Conclusions and
Recommendations (2-4 pages)
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Chapter and section headings
CHAPTER - 1 INTRODUCTION
1.1 INTRODUCTION
People can be divided into three groups. One group contains people who are suspicious,
imaginative, or lonely. Members of this group are attracted to health centers even when
they are healthy. This type of people lean to waste the time and money of health facilities
that someone with real sickness could have utilized. Second group contains people who are
ignorant, or unconcerned. Members of this group tend to hide their illness, causing their
health to devastate. Third group comprises of real sick people with sickness awareness
including patients recovering from operation, or people with ancient illnesses. Members of
any group could make use of simple system that does preliminary health check before
going to a hospital, or health center. These initial checks can be in the form of temperature
check, or blood pressure. Such a system might even be available in shopping malls, or
supermarkets. Members of the third group require continuous health check that can’t be
done all the time in malls and supermarkets. Monitoring systems are required to indicate if
their health conditions are getting dangerous.
Monitoring biological signals from the human body requires proper sensors,
dedicated amplifiers, signal processors and display units. Hence, monitoring systems
interact with doctors through a visual display screen that presents different information
collected from the body. However, they are expensive because of the dedicated complex
hardware. Signal amplification and processing stages for can be biological signals
developed rather easily if a proper display unit is available since these signals can not be
displayed effectively using standard laboratory oscilloscope type displays.
Eventually, monitoring of patients inside and outside of the hospital environment
becomes an essence of biomedical engineering contribution to the health-care system. A
distributed monitoring system contributes to the reduction in cost of patient-care and
improves the efficiency of services in hospitals. The projec t is about development of a
Left margin3.5 cm
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1
Chapter headings should start at a new page, at 5cm below the top of the page and centered. Chapter number must be in Arabic numerals, like 1, 2, 3… and so on, followed by Chapter Title both in capital letters, and with Arial, size16
No indentation
Times Roman 12, 1.5 spaced. Single space in tables, appendices and footnotes
Arabic numerals, like 1,2,3,4… and so on at the bottom center of each page
1 TAB stop
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Titles and Subtitles
• Use gerund ( -ing ) form, not infinitive (to+verb )
• Use brief and informative titles.• Examples:
– Handling questions– Preparing for oral presentation
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1.1 PHYSIOLOGICAL PARAMETERS FOR MONITORING
1.1.1 Preference of Physicians
The human body is composed of many systems each of which has its own location in the
body and serves an independent function. Every system has an input from another system
and gives an output that is used by some other systems. The coordinated and functional
operation of all systems leads to the health condition of human being. The physician wants
to measure certain parameters related to the operation of the systems of the body and uses
them to evaluate the health status.
One of the primary measurements a physician would like to acquire is the
concentration of O2 and other nutrients in the cells. But such quantities are normally so
difficult to measure in vivo (from the body directly). Hence, the physician is forced to
accept a second-class measurement, which is the blood flow and changes in blood volume
that correlated with concentration of nutrients. If blood flow is difficult to measure the
physician may settle for the third-class measurement that is the blood pressure, which
correlates to blood flow. However, direct measurement of blood pressure involves invasive
techniques (i.e. puncturing the protective skin layer and inserting devices into the body)
that can be implemented only limited applications. Thus, if blood pressure is hard to
measure then the physician falls back to the fourth-class measurement that is the recording
of the ECG. ECG is generated by the electrical activity of the heart that is the source of the
blood pressure [1]. Any of the previous measurement will give physician an insight of what
is happening inside and the real health condition of the body.
1.1.2 Importance of Biopotential Signals
Several organs of the human body generate their own monitoring signals during their
natural operation. It is the responsibility of biomedical engineers to pick up these signals,
analyze them and present them to the physicians for interpretations. Signals that occur due
to ionic activities generated during the working of organs, pick-up by sensors called
electrodes comprise the group of biological signals called the biopotentials. Eventually,
biopotential signals carry a lot of information on a person current health condition and how
his organs are functioning. That is why patients in hospitals have monitoring systems
connected to them, especially patients who have just gone through a medical operation.
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Subsection headings
Left margin3.5 cm
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Right margin2 cm
Bottom margin2 cm
Section headings may start anywhere within the text, after a triple space of the text of the previous section. Section titles contain Chapter and Section numbers separated by a dot, followed by the Section Title in small letters, the first letters of main words being capital. Section headings should be in bold, 12 point size.
Subsection headings should be written similarly as section headings and contain Chapter number, Section number and Subsection number, separated by dots
Reference
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Figures
Any time
Any
valu
e
0000
1000
0100
1100 1111 Dynamic range
Any
valu
e
Discrete time Discrete time
Disc
rete
valu
e
Continuous-time signal Discrete-time signal Quantized signal
Fig. 1.3 Principle of operation of the analog to digital conversion [2]
Figure caption (title) Reference
Technical reports only contain Figures and Tables. Refer to graphs as figures, photos as figures, small code segments as figures, etc. Figures and tables should NOT be hand sketched Figures and tables should be used to supplement the discussion
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Tables
Table 2.1 Conditions of pins of the parallel port
Pin # Pin name Connection
1 0C Inverted
14 1C Inverted
16 2C Non Inverted
17 3C GND
15 3S Non Inverted
13 4S Non Inverted
12 5S Non Inverted
10 6S Non Inverted
11 7S Inverted
Tables and figures must serve the reader and support the text. The titles must be coordinated with the List of Tables, List of Figures Figures and tables should be located in the body of the text, preferably AFTER they are introduced in the text References to Tables, Figures and Equations: while referencing a table, figure or an equation or a series of these within the text, use, for example, figure 2.1 (or Fig. 2.1 if Fig. is used instead of figure consistently throughout the text), table 3.2, equation (2.1), equations 3.5-3.7 and 3.9, etc
Table caption
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EquationsE a c h e q u a tio n m u s t b e w rit te n u s in g a p ro p e r , s ta n d a rd s c ie n ti f ic n o ta tio n . E q u a tio n
E d ito r o f M ic ro s o f t O ff ic e s h o u ld b e u se d . E a c h e q u a t io n m u s t b e ta b b e d c e n te re d a
s e p a ra te l in e o f te x t a n d n u m b e re d o n th e r ig h t , u s in g C h a p te r n u m b e r a n d e q u a tio n
n u m b e r , s e p a ra te d b y a d o t, a s in th e fo llo w in g e x a m p le :
)12)(15(
)5.0()( 2
sss
sssH (1 .2 )
In - l in e e q u a tio n s , o r e x p re s s io n s m a y a ls o b e u s e d , a s fo l lo w s : “ … re a liz in g th a t
122 yx , i t c a n b e c o n c lu d e d th a t … ..”
Stand-alone equation
In-line equation
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Citing references
• The references are cited in the body of the report by numbers inside square brackets [ ] or by the last name of the author(s) and year of publication as "… Akili (2002) utilized an infrared telemetry system …".
• In the first case, the references will be listed according to their order of appearances in the text. In the second case, they are ordered alphabetically according to the surname of the first author of the work cited..
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Listing of references
[1] Sklar B, Digital Communications: Fundamentals and Applications, 2nd ed., Prentice-Hall
Inc., 2001.
[2] Neuman MR, “Biopotential Electrodes”, chapter 5 in Webster JG (ed), Medical
Instrumentation: Application and Design, 3rd ed. Wiley, 1997.
[3] Karagözoğlu B, “Analysis of Electromagnetic Signals by a Microcomputer”, Bull. Tech.
Univ. Istanbul, 48(2) pp. 197 – 212, 1995.
[4] Anonymous, “Dual Switched Capacitor filter IC”, RS Data Sheet 4850, March 1983.
[5] http://www.microsoft.com/updates (visited on February 15, 2004).
[6] Gülüt YK, “Interfacing Analog Signals to a Microcomputer Using Game Port”,
Personnel communication, KAU, Faculty of Eng. Dept. of E&CE, Jeddah, Saudi Arabia,
Sept. 1994.
All references should include author, title, journal or magazine title (if a journal article), publisher, page number, date
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Quoting• Reasons: When writing the report, it is normal to include references
and quotations from the work of others. This is for one or more of the following reasons:– To cite evidence or opinions from an authority on the subject in support of our
argument– To put forward someone else’s viewpoint that we intend to argue against– To show the range of source materials we have used to support or challenge
our own ideas– To acknowledge that our arguments derive from the work of others and
thereby put them into their academic context• Quotations in our text can either be
– Direct: that is, we use the actual words of the original writer, or– Indirect: that is we paraphrase what the original source says by putting the
ideas in our own words.
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Punctuation of quotations
For direct quotations, quotation marks are placed on both sides of the quotation :
“.......................................”
For indirect quotations, giving a reference number to indicate the source is sufficient.
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Appendices
Materials that may be of interest or importance to some readers but are not sufficiently relevant to be included in the body of the report go to appendices. There may be many appendices supplementing the report. Materials most commonly put in the appendix include
• Long tables that contain material not essential• Locally developed research aid as forms, questionnaires• Copies of data gathering or recording equipment used• Analysis data and other materials• Listing of computer programs, and• Lengthy quotations that may be of interest to some readers,
especially if the source containing the quotation is not readily available.
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Organization of appendices
• Students must discuss with their advisor(s) the need for appendices, carefully considering the value of the material they propose to include
• Appendices must be designated with a letter (Appendix A, Appendix B, etc) each starting on a fresh page, and a title.
• Each appendix must be listed in the Table of Contents.
• All appendices must meet the usual margin requirements
• Page numbering of the main body of text continuous with appendices
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Conceptual Design Report (CDR)
• It will be submitted at the end of 1st term (after EE 499 lectures)
• It will be evaluated by the ABET project committee
• It will carry 5/100 marks of the project work
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Components of the CDR
1. Situation description and problem definition
2. Advisory committee and multidisciplinary team
3. Background search, literature review and standards
4. Problem formulation
5. Alternative solutions
6. Work plan and timing diagram covering activities in the project
7. Distribution of team roles and responsibilities48http:/bkaragoz.kau.edu.sa
Elements of Chapter-1
1. Situation Description2. Problem Definition3. Project Objectives4. Project Background5. Curricular Resources6. Specification Development7. Design Specifications & Constraints8. Validation Procedure
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Situation Description, Problem Definition & Project Objectives
• Situation Description: Describe a real-world context for the problem being solved– Dr. Karagozoglu is running a research project to study
the effect of prayer activities on the human body• Problem Definition: The problem given by the
customer– a need to monitor heart rate during prayer activities
• Project Objectives: The solution that I will design– to design/build a device that monitors heart rate and
body motions during prayer activities50http:/bkaragoz.kau.edu.sa
Project Background & Curricular Resources
• Background: – possible past similar solutions (pros, cons)– relevant standards– all sources of information available to help in the
design process (books, net, etc.)• Curricular Resources: topics, concepts, and
lab experiences from the different courses the team members have taken that will be utilized in this project
51http:/bkaragoz.kau.edu.sa
Specification Development
• This is an optional section for the cases when the specs are not completely specified by the customer. In this case, explain in detail the process by which you have set the desired specs.
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Design Specifications & Constraints
• Engineering specifications that directly pertain to the device functionality,
• realistic constraints that will limit and affect how to achieve the objectives of the project– Economical– Environmental– Ethical– Health and Safety– Social– Political– Sustainability and Manufacturability
• specs and constraints must be measurable53http:/bkaragoz.kau.edu.sa
Validation Procedure
• suggest a procedure for confirming that the design has met all specifications and constraints:– lab experiment– simulation– field measurements– survey– checklist
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Components of the Final Report Checklist1. Situation description and problem definition (5)
2. Advisory committee and multidisciplinary team (2)
3. Background search, literature review and standards (4)
4. Problem formulation (12)
5. Alternative solutions (4)
6. Decision analysis (6)
7. Feasibility analysis (6)
8. Work plan and timing diagram covering activities in the project (4)
9. Distribution of team roles and responsibilities (4)
10. Presentation of final implementation (10)
11. Experiments to test the solution (14)
12. Analysis of results, statistics and reliability if applicable (8)
13. Discussion of results and methodologies implemented, impact of the project (12)
14. Conclusions and recommendations (9)http:/bkaragoz.kau.edu.sa
Important Announcement
• Activity timetable– 11 December: Oral presentation– 18 December: Ethics and safety– 25 December: Presentation skills and sum up– 1 – 5 January 2011: Oral presentation of projects– 8 January 2011: deadline for submitting conceptual
design reports• For next week, please study chapters 9 – Oral
Presentation and be ready for a quiz56http:/bkaragoz.kau.edu.sa