senior design ii proposal a step-by-step review. what is senior design? senior design is a sequence...
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Senior Design II proposalA step-by-Step review
What is Senior Design?
Senior Design is a sequence of two courses during two consecutive semesters
The courses are named Senior Design I and Senior Design II. Electrical and Computer Engineering Students are supposed to take them during their last two semesters as Engineering Students ad FIU
Senior Design I is a 2 credit, lecture type course while Senior Design I is a 2 credit Directed Individual Study
The activities the students perform during this combination of courses would be the equivalent in the industry of a complete Project Life Cycle
What is Senior Design?
The Senior Design sequence is mainly a project management experience which includes the design of a final product
The Electrical and Computer Engineering Students dedicate a considerable amount of time in this process and over time they have increased our expectation for the Senior Design II demonstrations as very intriguing projects continue to be presented
What is Senior Design?
During Senior Design I students:
• Form a multidiscipline team and practice to achieve effective communication skills
• Determine the project requirement and specifications• Do most of the research• Check for patents infringement• Do a preliminary Design keeping in mine the industry
standards• Estimate the Time Line and the budget
In this process students make sure that:
• The best ethical principles are used and• Health, safety and the environment are preserved
What is Senior Design?
During Senior Design II students:
• Perform the Detailed Design• Build a prototype• Test and Evaluate the prototype• Discuss with their mentor any changes in the
requirement or in the specificationsIn this process students make analyze:
• The results of the project• How the budget and the timeline changed• Elaborate a final conclusion on the project
What is The Senior Design II Proposal?
The Senior Design II Proposal would be our equivalent to the Preliminary Design Review (PDR)
All the activities during Senior Design I circle around the Senior Design II Proposal
In order to pass Senior Design I Students must have a proposal signed by The Mentor, The Senior Design I instructor and all the team members
What is The Senior Design II Proposal?
The main aspects of the Senior Design II proposal are:
• To determine the Problem Statement and Project Objectives
• To determine the Project Specifications• To conduct a Technology review that includes:
• Similar Projects• Patents• Standards
• To establish the management schedule of the project based on:
• Time lines and• Budget
What is The Senior Design II Proposal?
The main aspects of the Senior Design II proposal are (cont.):
• To set the health and safety goals• To make correct decisions base on:
• Preserving the environment• Improving Manufacturability• Assuring Sustainability
• To Determine the project feasibility and the risks involved
• To Analyze different concepts and select the one that fits best to the project
• To produce a preliminary design and communicate it effectively by means of text and diagrams
What do we make Different?
Our Students form a Team and find a Mentor Early in the process
Our Students do most of the research and the writing during Senior Design I
Our Students start the design very early in the process, even when the Senior Design II Proposal is not complete
SENIOR II PROPOSAL OUTLINE Title page and Contents
Title Page Table of Contents List of Tables List of Figures
ACKNOWLEDGEMENT ABSTRACT I. EXECUTIVE SUMMARY II. PROBLEM STATEMENT
A. Project Objectives B. Constraints
III. ASSUMPTIONS AND LIMITATIONS. A. Assumptions B. Limitations
IV. NEEDS FEASIBILITY ANALYSIS A. Needs Analysis B. Feasibility Analysis C. Marketability
V. RISK ANALYSIS VI. OPERATING ENVIRONMENT VII. INTENDED USER(S) AND INTENDED USE(S)
A. Intended user(s). B. Intended use(s).
VIII. BACKGROUND IX. INTELLECTUAL PROPERTY CONSIDERATIONS X. STANDARDS CONSIDERATIONS XI. HEALTH AND SAFETY CONSIDERATIONS XII. ENVIRONMENTAL CONSIDERATIONS XIII. SUSTAINABILITY CONSIDERATIONS XIV. MANUFACTURABILITY CONSIDERATIONS XV. ETHICAL CONSIDERATIONS AND SOCIAL IMPACT
XVI. CONCEPT DEVELOPMENT A. Alternative Options
1) Advantages 2) Disadvantages
XVII. END PRODUCT DESCRIPTION AND OTHER DELIVERABLES A. End Product Description B. Functions C. Specifications D. Other Deliverables
XVIII. PLAN OF ACTION A. Statement of Work (SOW) B. Work Breakdown Structure (WBS) C. Project Milestones D. Gantt Charts
XIX. MULTIDISCIPLINARY ASPECTS XX. PERSONNEL XXI. BUDGET XXII. RESULTS EVALUATION XXIII. LIFE-LONG LEARNING XXIV. CONCLUSION XXV. REFERENCES XXVI. APPENDICES
A. Team Contract B. Intellectual Property Contract
XXVII. SENIOR DESIGN II - PROCEDURES
II. PROBLEM STATEMENT A. Project Objectives B. Constraints
III. ASSUMPTIONS AND LIMITATIONS. A. Assumptions B. Limitations
IV. NEEDS FEASIBILITY ANALYSIS A. Needs Analysis B. Feasibility Analysis C. Marketability
V. RISK ANALYSIS VI. OPERATING ENVIRONMENT VII. INTENDED USER(S) AND INTENDED USE(S)
A. Intended user(s). B. Intended use(s).
PROBLEM STATEMENT
At this point students have found a topic and a mentor.
• To emulate real world situations where designers (The students) design for Clients based on user needs, the Mentor assumes the role of the Client and therefore the Mentor can establish his/her own Project Requirement
Students determine the Problem Statement, Objectives, Constraints and Limitation based on their interaction with:
• The Client by means of a structured interview• The potential Users by means of a Survey and• The other Team Members by means of Brainstorming
NEED ANALYSIS/The Client Interview
Prepare a Structured interview with questions like:
• When and why do you use this type of product?• Walk us through a typical session using the product.• What do you like about the existing products?• What do you dislike about the existing products?• What issues do you consider when purchasing the
product?• What improvements would you make to the product?• Are there already products on the market that have
similar features?• And you can always ask a second question:
• What does that mean?• Why do you want that?
Every Project is different please customize
NEED ANALYSIS/The Survey
NEED ANALYSIS/The Brainstorming
Source AttributeClient The battery is protected from accidental shortingClient The screwdriver operates normally after repeated dropping.Client The SD operates normally in the rainClient The SD provides an indication of the energy level of the batterySurvey The SD drives screws faster than by handSurvey The SD can drive screws into hardwoodSurvey The SD makes it easy to start a screwSurvey The SD can be used on electrical devicesSurvey The SD fits in a toolbox easilySurvey The SD is easy to set-up and useSurvey The SD is not HeavySurvey The SD costs Less than $95Survey The SD has Tungsten Carbide bitsSurvey The SD has Plastic BodySurvey The SD can be used outdoorsSurvey The SD can be used indoorsTeam The SD Prevents FatigueTeam The SD feels good in the user's handTeam The SD is comfortable when the user pushes on itTeam The SD is comfortable when the user resists twistingTeam The SD weight is just rightTeam The SD is balanced in the user's handTeam The SD resists corrosion when left outside or in damp placesTeam The SD maintains power for several hours of heavy useTeam The SD can be dropped from a ladder without damageTeam The SD lasts a long timeTeam The SD prevents inadvertent switching offTeam The SD is safeTeam Must meet OSHA requirements (Occupational Safety and Health Administration)Team The SD is easy to use.Team The SD is easy to turn onTeam The SD can be used while rechargingTeam The SD retains the screw before it is drivenTeam The SD is easy to storeTeam The SD is easy to rechargeTeam The SD drives sheet metal screws into metal ductwork
Remove repeated entries
Project AttributesEliminate Constraints,
Functions and Implementations
AttributeThe battery is protected from accidental shortingThe SD operates normally in the rainThe SD provides an indication of the energy level of the batteryThe SD drives screws faster than by handThe SD can drive screws into hardwoodThe SD makes it easy to start a screwThe SD can be used on electrical devicesThe SD fits in a toolbox easily ContraintThe SD is easy to set-up and useThe SD is not HeavyThe SD costs Less than $95The SD has Tungsten Carbide bits ImplementationThe SD has Plastic Body ImplementationThe SD can be used outdoorsThe SD can be used indoorsThe SD Prevents FatigueThe SD feels good in the user's handThe SD is comfortable when the user pushes on itThe SD is comfortable when the user resists twistingThe SD weight is just rightThe SD is balanced in the user's handThe SD resists corrosion when left outside or in damp placesThe SD maintains power for several hours of heavy use ContraintThe SD can be dropped from a ladder without damage ContraintThe SD lasts a long timeThe SD prevents inadvertent switching offThe SD is safeMust meet OSHA requirements (Occupational Safety and Health Administration) ContraintThe SD is easy to use.The SD is easy to turn onThe SD can be used while rechargingThe SD retains the screw before it is drivenThe SD is easy to storeThe SD is easy to rechargeThe SD drives sheet metal screws into metal ductwork
The main goal of this project is to design and build a prototype of a safe screwdriver that will be useful for metal and wood works. The screwdriver will be good for indoor as well as outdoor jobs and will resist water and shocks. The unit must be safe, allow works on electrical equipment and pose a minimum risk of causing short circuits. Emphasis will be stressed on easiness of use, storage and durability. Users of the newly design screwdriver will feel a comfortable experience with minimum fatigue and will be able to work under the rain with no safety risks. The cost of the unit must not exceed $95 and it must be OSHA compliant.
Objectives. The following is the list of objectives for the Safe Screwdriver:
1. Safe. 1.1. Can be used on electrical devices 1.2. Minimizes the probability of short circuits 1.3. The SD operates normally in the rain
2. Marketable
2.1. Useful 2.1.1. Useful for Wood Works 2.1.2. Useful for Metal Works 2.1.3. Useful outdoors 2.1.4. Useful indoors 2.1.5. Can be used while recharging 2.1.6. Faster than a Manual Screwdriver 2.1.7. The SD provides an indication of the energy level of the
battery
2.2. Durable 2.2.1. Resists corrosion when left outside or in damp places
3. Prevents Fatigue 3.1. Feels good in the user's hand 3.2. Comfortable when the user pushes on it 3.3. Comfortable when the user resists twisting 3.4. Balanced in the user's hand
4. Easy to Use
4.1. Easy to set-up and use 4.2. Easy to turn on 4.3. Prevents inadvertent switching off 4.4. Makes it easy to start a screw 4.5. Retains the screw before it is driven 4.6. Easy to recharge 4.7. Easy to store
The Feasibility Analysis/Obtaining Weights
Skills Equipment People Mileposts Economic ResourcesSkills 1 5 3 3 3
Equipment 1/5 1 1 3 3People 1/3 1 1 5 5
Mileposts 1/3 1/3 1/5 1 1Economic Resources 1/3 1/3 1/5 1 1
1 = equal 3 = moderate 5 = strong 7 = very strong 9 = extreme
Skills Equipment People Mileposts Economic Resources G. Mean wSkills 1.00 5.00 3.00 3.00 3.00 2.667269 0.43
Equipment 0.20 1.00 1.00 3.00 3.00 1.124746 0.18People 0.33 1.00 1.00 5.00 5.00 1.528142 0.24
Mileposts 0.33 0.33 0.20 1.00 1.00 0.467044 0.07Economic Resources 0.33 0.33 0.20 1.00 1.00 0.467044 0.07
Total 6.254244
totalMeanGw
AAAMeanG NN
/.
)(.1
21
The Feasibility Analysis / Assessment
Attribute
We
igh
t
Sc
ore
W.
Sc
ore
Why? Solution
Resource FeasibilityDo we have sufficient skills?
0.43 2.0 0.86We don't know how to program microcontrollers
Take a Crash Course
Do we have sufficient equipment?
0.18 3.0 0.54The Lab Does not have a Program Station
Buy One
Do we have sufficient a number of people?
0.24 5.0 1.2 Three people in the team Enough
Schedule feasibilityWhat are the chances of meeting the intermediate mileposts?
0.07 5.0 0.35We have carefully analyzed the schedule and we are convinced that it is OK
Not Required
Economic feasibility
Is the project possible, given resource constraints? 0.07 3.0 0.21
We have only 25% of the required funds
Find a sponsor
TOTAL 0.99 17.0 3.16
WEIGHTED AVERAGE 3.19 Weight
ScoreWAverageWeighted
.
The Feasibility Analysis / Risk
Risk Exposure Matrix
Clear and well defined risk acceptance thresholds are required in order to define the level of risk that can be tolerated.
The Exposure Matrix can be used to prevent entering into a project
You may use a fishbone diagram to discover risks
Very Likely Possible Unlikely
Class IV Catastrophic Catastrophic Severe
Class III Catastrophic Severe Moderate
Class II Severe Moderate Low
Class I Moderate Low Low
Likelihood of Occurrence
Und
esira
ble
Out
com
es
The Feasibility Analysis / Fault Tree Analysis
Very Likely Possible UnlikelyClass IV T1, E2 CatastrophicClass III S2, E1 SevereClass II R1,L1, S1 R2 ModerateClass I T2 M1 Low
R2,M1, T2S2E1
Use Facts That Apply to You Project
All Considerations Fictitious
Legend
Actions
Continue Process
NoneAssign Duties For Break Period
Designate a Dedicated Person to Solve This Issue
Likelihood of Occurrence
Und
esira
ble O
utco
mes
Senior II Project Not Completed on Time
Marketing Resource Technical
Legal Economic Schedule
M1Survey Indicated Price Constraint
R1 Skills to be Acquired
R2 Team Size
T1 New Invention Required
T2 Technology Does Not Exist
L1Any Laws of Regulation against Project?
S1Team Members Procrastination
E2 T1 Would Require Extra Funding
E1Funding Required
S2Impact of Semester's Break
XVI. CONCEPT DEVELOPMENT A. Alternative Options
1) Advantages 2) Disadvantages
XVII. END PRODUCT DESCRIPTION AND OTHER DELIVERABLES A. End Product Description B. Functions C. Specifications D. Other Deliverables
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