Global Integrated Systems EngineeringDr. Joe Heim, InstructorBrian Windrope, Program Manager
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Look Familiar?
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Contents
Need for Systems Thinking1
The GISE Program2
Benefits of the Program3
Schedule & Deadlines4
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The World is Changing
Economic, technological and social changes are transforming markets and the business environment for technical and aerospace industries. Global competition and new partnership models: Shared risk
and shared value. Networks replacing hierarchy: Virtual teams, geo-distributed. Customer expectations: integrated & increased functionality;
customization & delight. Complexity: Products and relationships in new financial
structures.
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Engineering Challenges
Creating new products and services requires the alignment and collaboration of ever more complex and creative combinations of people, technology and expertise. Managing costs of new programs and products. Integrating global supply networks. Balancing technical and financial decisions. Developing the necessary skills and competence. Technology is not the ‘Silver Bullet.’
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To Compete in the Future
Technical professionals must be systems thinkers, combining their domain expertise with systems engineering skills while understanding the business aspects of success in the global environment.
They must be able to operate productively in virtual, multi-cultural teams and work effectively with complex problems.
We must reduce the time lag between learning and applying the knowledge in an integrated business environment.
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Global IntegratedSystems Engineering
A unique graduate certificate program for working professionals.
Designed collaboratively—industry and academia.
Extensive industrial involvement.
Classroom or Online
Delivery
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Program Overview
Systems Engineering Design Project
Global Perspective
SupplyChainFinance
ProjectManagement
SystemsEngineering
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Program Features
Integrated Learning Environment Systems Engineering (SE), Project Management
(PM), Finance (F) and Supply Chain (SC).Global Seminar Series (G)Systems Engineering Design Project (P)
Integrated Lecture & Seminar Design Project
F
SC
G
SE SESE
SE
SE
PM PM
PM
PM
PM
G G G
F
F
F
F
SC
SC SC
SC
P
P
P
P P
P
PPP
P
P
P
Fall SpringWinter
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Integrated Learning: Objectives
SE
To challenge and improve systems thinking and design skills by studying systems engineering methodologies and design techniques.
PM
To focus on current project management tools and concepts and to apply these tools to the management of risky, complex projects.
SC
To explore the domain of supply chain management, focusing on the elements of design, evaluation, and performance of supply chain systems.
F
To teach the basic principles of corporate finance addressing the concept of value and how it is produced over time in a world of uncertainty.
Systems Engineering Project Management Finance Supply Chain
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Integrated Learning: Topics
SE
• Top-down problem solving
• Decision analysis • SE methodologies • Systems analysis • Requirements analysis • Functional modeling • Trade studies
PM
• Project initiation & selection
• Project planning & scheduling
• Spreadsheet models & tools
• Risk management • Cash flows and costs • Critical chain • Monitoring and control
SC
• Global logistics & distribution
• Managing inventory/optimal policies
• Risk & coordination mechanisms
• Mass customization• Vendor managed
inventory• Bullwhip effect
F
• Time value of money • NPV and IRR • Pricing • Sources of risk • Elements of cost • Risk-adjusted discount
rates • Competitive business
environment • Business profitability
and margins
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Seminar Series (G): Developing the Global Perspective
Global Issues
Cross-CulturalCommunication
InternationalKnowledge
Examine the significance of globalization and its impact on the performance of the enterprise.
Learn how different cultures communicate; critical for effective working relationships.
Understand how personal leadership requires a new way of constructing knowledge across cultures
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Systems Design Project (P)
Applies knowledge from coursework to propose a conceptual design and business approach.
Executed in teams utilizing virtual communication skills. Involves weekly project reviews/presentations to a panel
of domain experts, practitioners, academics, and sponsors.
Utilizes industrial advisors for application and technical advice.
Provides a large-scale systems integration experience.
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Previous Projects
Total Contracted Farms From Years 0 to 10
1 3 6 10 55 100
300500
650750
1000
0200
400600
8001000
1200
0 1 2 3 4 5 6 7 8 9 10
Number of Contracted Farms
Desired Growth
Aviation BioFuel: Business ModelObjective & Systems Design
Capitalize on existing crop cycle opportunities.
Yield• Up to 50 Million Gallons of
sustainable bio-fuel per year by the end of year ten.
sd Logistics
:Transportation Supplier
:BFFRS Employees »Actor»
Supply Seeds to Farmers
Transport Feedstock
Produce Feedsockact
Crush Feedstock
Transport Oil to Refinery &
Chaff to Co-Op
act
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Benefits to Students
Develop new skills and gain experience applying them in complex project situations.
Learn how to combine technical proficiency with a systems engineering approach when creating new products and services.
Gain an appreciation for the challenges and career opportunities globalization creates for technical professionals.
Prepares students to interact effectively with the extended organization at all levels.
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Who Should Attend
TechnicalManagers
Engineers PotentialLeaders
TeamLeaders
ProjectLeads
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What Students Say
“I appreciated that the faculty were accessible, knowledgeable, committed, and integrated. The single most important thing I noticed was that most of the time the faculty attended each other's lectures. This was huge, and was evidence of this commitment and integration. The lectures were well planned, relevant, and enjoyable. I truly liked all the faculty and enjoyed learning from them.”
“The faculty was very knowledgeable about the subject matter and were available to help students with their daily course related needs.”
“I rated the course "Excellent" because I personally learned a great deal. The course was not exactly what I expected, but it was exactly what I needed.”
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What Students Say
On their own….
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What Employers Say
“The systems approach is being used on a daily basis in the advanced structures area in Boeing Research and Technology.”
Dave Banks, The Boeing Company
“The ability of these students to appreciate the global business impact of their multi-disciplinary analyses is demonstrated almost daily as they evaluate and propose work assignments.”
Leroy Hanneman, Enterprise Skill Management Leader for Systems Engineering, The Boeing Company
“GISE provided the training necessary to drive projects so that they are no longer focused on single stages of life cycle or within a single organization.”
Scott Occhiuto, Lead Systems Engineer, Boeing Commercial Airplane Company
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Schedule
9-Month Program (13 credit-hours) leading to a GISE certificate.
Fall & Winter Quarters: Integrated Lecture & Seminar Weekly sessions, Thursdays (3:30-8:00pm PST)
Spring Quarter: Design Project Weekly project sessions, Thursdays (3:30-6:30pm
PST)
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Prerequisites
B.S. in engineering or a related discipline.Completion of an undergraduate-level course in
probability and statistics. Equivalent to INDE 315 (University of Washington) A student may also test out of the requirement.
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How to Apply
See http://www.pce.uw.edu/certificates/global-integrated-systems-engineering.html
Application Materials Unofficial transcripts of each college attended Letter of application Résumé TOEFL scores (international students only)
Applications are accepted on a rolling basis starting April 1 with priority given to those applications received by June 1.
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Tuition & Fees
Program tuition: ~$900/credit hour.
Additional costs include: One-time Application Fee of $50 Quarterly Registration Fee of $42 Textbooks (approximately $250)
Boeing participants are exempt from LTP limitations.
QUESTIONS?
• Brian Windrope, Program Manager– [email protected], 206-543-6120
• Dr. Joe Heim, Instructor– [email protected]
• Program website:– http://www.pce.uw.edu/certificates/global-integrated-systems-engineering.html
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