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ETLS: Engr Tech Leadrshp (Grad)

502-01
Manufacturing Processes
 
R 5:45 pm - 8:45 pm
B. Bach
 
09/08 - 12/18
18/16/0
Lecture
CRN 43457
3 Cr.
Size: 18
Enrolled: 16
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
OWS 257

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43457

In Person | Lecture

St Paul: Owens Science Hall 257
     (Common Good capacity: 45 participants)

  Bob Bach

An overview of manufacturing processes with the objective of establishing the processes most appropriate to the characteristics and production requirements of the product. Metallurgy is briefly reviewed as a basis for material processing. Many conventional methods of fabrication are covered. Design for manufacturing and assembly techniques will be studied along with assembly methods and flow. Clean rooms and electronic assembly are also covered. Students unfamiliar with manufacturing processes will need to do independent study to determine all of the processes available.

3 Credits

502-02
Manufacturing Processes
 
TBD
B. Bach
 
09/08 - 12/18
0/1/0
Directed Study
CRN 45802
3 Cr.
Size: 0
Enrolled: 1
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
             

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 45802

In Person | Directed Study

St Paul: In Person

  Bob Bach

An overview of manufacturing processes with the objective of establishing the processes most appropriate to the characteristics and production requirements of the product. Metallurgy is briefly reviewed as a basis for material processing. Many conventional methods of fabrication are covered. Design for manufacturing and assembly techniques will be studied along with assembly methods and flow. Clean rooms and electronic assembly are also covered. Students unfamiliar with manufacturing processes will need to do independent study to determine all of the processes available.

3 Credits

504-01
Excellence in Operations
 
M 5:45 pm - 8:45 pm
T. Becker
 
09/08 - 12/18
13/13/0
Lecture
CRN 43458
3 Cr.
Size: 13
Enrolled: 13
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
Online

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43458

Online: Some Synchronous | Lecture

Online

  Thomas Becker

An advanced course in concepts essential to achieving excellence in operations. The course covers the development and implementation of a coherent manufacturing strategy consistent with business and corporate strategies; importance of global competitiveness; and structuring of the production process based on the manufacturing mission. The human interaction involved in current quality issues, Just-in-time (JIT), Total Productive Maintenance (TPM), setup time reduction, simultaneous engineering, lean manufacturing and contemporary logistics systems, employee involvement and teamwork are key concepts of this course.

3 Credits

505-01
Mgr'l Acct & Perform Mgmt
 
R 5:45 pm - 8:45 pm
T. Becker
 
09/08 - 12/18
24/19/0
Lecture
CRN 43459
3 Cr.
Size: 24
Enrolled: 19
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
Online

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43459

Online: Some Synchronous | Lecture

Online

  Thomas Becker

This course integrates the concepts of financial accounting, cost accounting and performance measurement as they are applied to the enterprise. The course emphasizes the concepts, terms, and techniques for using accounting and measurement information in planning decision-making, and performance evaluation. Topics include analysis of financial statements, manufacturing and operations costs, fixed and variable costs, capital investment analysis, pricing, job and process cost systems, budgeting, responsibility accounting, cost allocation and activity- based costing. Also covered are operational measures emphasizing physical units, process analysis, productivity measurement, and other non-accounting operational key indicator measurements. Consideration is also given to the influence of such concepts as Total Quality Management (TQM) Just-In-Time (JIT), Benchmarking, the Balanced Scorecard, Re-engineering, Six Sigma and Baldrige Awards as they relate to accounting and performance measurements.

3 Credits

506-01
Statistic Methods for Mfg Qlty
 
See Details
T. Keenan
 
09/08 - 12/18
25/17/0
Lecture
CRN 43460
3 Cr.
Size: 25
Enrolled: 17
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
Online

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43460

Online: Sync Distributed | Lecture

Online

  Tom Keenan, Ravisankar Gurusamy

An introduction to the basic philosophy of the statistical tools used to assure manufacturing quality. Tools to include: hypothesis testing, regression analysis, analysis of variance, process capability, control charts (SPC) and six sigma. Students will conduct and report an industrial based statistical application project.

3 Credits

507-01
Intro. to Systems Engineering
 
S 9:00 am - 12:00 pm
R. Monson
 
09/08 - 12/18
13/7/0
Lecture
CRN 43461
3 Cr.
Size: 13
Enrolled: 7
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
         

9:00 am
12:00 pm
OSS 122

 

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43461

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 122
     (Common Good capacity: 23 participants)

  Robert Monson

This course considers the engineering of both natural and human-made systems as well as the analysis of those systems. The course will convey to the students the essential elements of systems engineering; including systems thinking, systems analysis, system architecture, the decomposition and re-composition of systems design, risk management, reliability, maintainability and availability, and the coherent structure of a systems view.

3 Credits

509-01
Verification & Validation
 
T 5:45 pm - 8:45 pm
M. Hebbard
 
09/08 - 12/18
14/7/0
Lecture
CRN 43462
3 Cr.
Size: 14
Enrolled: 7
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
Online

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43462

Online: Sync Distributed | Lecture

Online

  Murphy Hebbard

This course considers two closely related but distinct concepts in systems engineering, verification and validation. Verification is “The process of evaluating a system or component to determine whether the products of a given development phase satisfy the conditions imposed at the start of that phase.” (IEEE Standard Glossary of Software Engineering Terminology, Standard 610.12-1990.) Validation is the act of assessing the requirements, design, and development of a product to ensure that it will meet the user’s requirements, operational needs, and expectations at the time of delivery. Systems engineering verification and validation practices will be studied and applied in appropriate situations. Prerequisite: ETLS 508 - Systems Design

3 Credits

511-01
Circuit Analysis
 
W 5:45 pm - 8:45 pm
C. Min
 
09/08 - 12/18
30/1/0
Lecture
CRN 43666
3 Cr.
Size: 30
Enrolled: 1
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
Online

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43666

Online: Sync Distributed | Lecture

Online

  Cheol-Hong Min

Introduction to linear circuit analysis and basic electronic instrumentation. Students will learn linear models of passive components and sources as well as how real components depart from those models. Circuit analysis techniques including nodal and mesh analysis, equivalence theorems and computer simulation will be covered. Laplace transform techniques will be used to examine sinusoidal steady state and transient circuit behavior. Prerequisite: A minimum grade of C- in PHYS 112 or 212, and concurrent registration with or prior completion of MATH 114. NOTE: Students who receive credit for ENGR 240 or ENGR 350 may not receive credit for this class.

3 Credits

551-01
Strategic Quality Management
 
See Details
D. Brucks
 
09/08 - 12/18
20/12/0
Lecture
CRN 43469
3 Cr.
Size: 20
Enrolled: 12
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
OSS 313

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43469

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 313
     (Common Good capacity: 38 participants)

  David Brucks, Ted Ellefson

Strategic quality management is presented as a Driver--> System--> Results model. The DSR model provides a framework for better understanding your business and when and where to take action to improve results. The model is a tool that links company mission, strategic plans, competitive positioning, and customer focus as the DRIVER. People and processes form the SYSTEM that actually designs, produces, and delivers products and services. RESULTS include financial, customer, employee and process. The course also connects the DSR model to the Malcolm Baldrige Criteria for Performance Excellence, six sigma and lean improvement tools ISO 9000, and Quality Management Systems and tools such as Statistical Process Control (detailed training in tools such as SPC is not part of the class). In addition to developing an understanding of how to guide and manage quality strategically, the course also helps to identify and prioritize the "right questions to ask" to guide and manage tactically. Applying the course to real world situations should lead to improved results - financial, customer, employee and process.

3 Credits

552-01
Supply Chain Sychronization
 
Blended
J. Nelson
 
TBD
14/5/0
Lecture
CRN 43470
3 Cr.
Size: 14
Enrolled: 5
Waitlisted: 0
M T W Th F Sa Su
     

09/09:
5:45 pm
8:45 pm
Online 1

09/16:
5:45 pm
8:45 pm
OSS 122

09/23:
5:45 pm
8:45 pm
Online 1

09/30:
5:45 pm
8:45 pm
OSS 122

10/07:
5:45 pm
8:45 pm
Online 1

10/14:
5:45 pm
8:45 pm
OSS 122

10/21 - 11/11:
5:45 pm
8:45 pm
Online 1

11/18 - 12/16:
5:45 pm
8:45 pm
OSS 122

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43470

Blended Online & In-Person | Lecture

St Paul: O'Shaughnessy Science Hall 122
     (Common Good capacity: 23 participants)

Online

  James Nelson

This applications-oriented course will review key topics in supply chain management and integrate these topics with current management thinking in lean manufacturing and six sigma. A systems thinking approach that maps logistics, forecasting, warehousing, transportation, and information systems will be combined with discussions of vendor and customer relationships, motivations, and ethics to work toward a smoothly functioning supply system. Students will use proven industrial engineering and management principles, techniques and tools to design a supply chain for their industry, efficiently and effectively plan and layout manufacturing operations, and improve processes to eliminate waste.

3 Credits

555-01
Advanced Product Design
 
W 5:45 pm - 8:45 pm
T. Secord
 
09/08 - 12/18
14/14/0
Lecture
CRN 43632
3 Cr.
Size: 14
Enrolled: 14
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
OSS 122

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43632

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 122
     (Common Good capacity: 23 participants)

  Thomas Secord

Detailed discussion of product design and development for engineers. This lecture-based course focuses on medical device product design, yet it draws many examples from other industries. Students will learn the product development cycle beginning with initial market analysis and proceeding through manufacturing. The course introduces many statistical analysis tools and procedures as the basis for rigorous decision making in product design. General design topics include voice-of-customer research; technical product requirements; project planning and schedules; measurement system analysis; comparative testing; design of experiments; robust design; manufacturing process control; and product reliability.

3 Credits

601-01
Program/Project/Team Mgmt
 
M 5:45 pm - 8:45 pm
R. Monson
 
09/08 - 12/18
19/12/0
Lecture
CRN 43471
3 Cr.
Size: 19
Enrolled: 12
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
OSS 122

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43471

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 122
     (Common Good capacity: 23 participants)

  Robert Monson

Focusing on the applications of project management, students gain insight and understanding of the day-to-day activities of project management (including cost analysis and scheduling techniques) and exposure to software options. A significant portion of the course focuses on conflict resolution, time management, leadership, and other personnel-related topics with the goal that engineers might effectively carry out the requirements of their companies without paying a penalty in lost good will or personnel.

3 Credits

652-01
Tech Forecasting & Risk Mgmt
 
See Details
T. Becker
 
09/08 - 12/22
20/3/0
Lecture
CRN 40731
3 Cr.
Size: 20
Enrolled: 3
Waitlisted: 0
09/08 - 12/22
M T W Th F Sa Su
   

5:45 pm
8:45 pm
Online

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 40731

Online: Sync Distributed | Lecture

Online

  Thomas Becker, Brad Reinboldt

The course will develop approaches to analyzing the technological environment and attendant risk exposure and anticipating future changes through lecture, discussion, group assignments, readings, books, and individual projects will reinforce key course concepts. Each student will choose a specific topic for study such as a technology or set of related technologies, an industry or market, or an economic/political region or country and will develop materials that can be applied in anticipating future technological and social change in the topic area. These student topics will form part of class discussions. Students should be prepared to discuss their progress as it relates to topics being developed in class.

3 Credits

660-02
Engineering Leadership
 
W 5:45 pm - 8:45 pm
K. Holmes
 
09/08 - 12/18
16/15/0
Lecture
CRN 43536
3 Cr.
Size: 16
Enrolled: 15
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
Online

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43536

Online: Sync Distributed | Lecture

Online

  Kathleen Holmes

The course addresses three basic questions: 1. What makes for a highly effective leader? 2. Who am I as a leader and how do I exhibit my leadership? 3. How do I develop my leadership? It is designed to develop engineering students’ leadership capabilities by building their own ‘roadmap’ for their leadership; increasing clarity about one’s self as a leader; strengthening their awareness for interpersonal and leadership effectiveness within organizations; and sharpening their capability for managing their leadership development throughout their career and life. Designed in seminar format, the course provides students with multiple readings, personal assessments, exercises and case studies, guest speakers, and large and small group dialogue. Students are encouraged to consider a vision of their career within a global mindset and grounded in the Engineering Code of Ethics. Assignments are intended to facilitate career management and presenting oneself as a professional and as a leader.

3 Credits

676-01
Real Time DSP
 
W 5:45 pm - 8:45 pm
K. Nepal
 
09/08 - 12/18
30/13/0
Lecture
CRN 43624
3 Cr.
Size: 30
Enrolled: 13
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
Online

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43624

Online: Sync Distributed | Lecture

Online

  Kundan Nepal

This class focuses on the design, development, and implementation of Digital Signal Processing algorithms on real-time hardware systems. Students will develop DSP systems using C programming language on the ARM Cortex M processors. Prior knowledge of DSP is helpful but not required. Prior knowledge of programming using a higher level programming (preferred C) language is required.

3 Credits

678-01
Wearable Systems, Data and IoT
 
M 5:45 pm - 8:45 pm
C. Min
 
09/08 - 12/18
25/18/0
Lecture
CRN 43938
3 Cr.
Size: 25
Enrolled: 18
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
OSS 326

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43938

CoFlex:In Person&Online Sync | Lecture

St Paul: O'Shaughnessy Science Hall 326
     (Common Good capacity: 32 participants)

  Cheol-Hong Min

Introduction to wearable sensor systems, applications, data analysis and IoT.Through this course, you will learn how to develop wearable platform for various different applications. Applications include, but not limited to, personal health monitoring, fitness, communication and assistive systems. Information collected from the wearable systems can be analyzed and expanded to an Internet of Things (IoT) applications to better implement health and wellness management systems. Through the course, we will also extend wearable applications and IoT technology to discuss smart homes and smart cities. Topics include: wearable sensors and systems, wearables applications, networking and communication, and data analysis via mobile (cloud) computing.

3 Credits

699-03
Frugal Innovation
 
M 5:45 pm - 9:00 pm
T. Danielson
 
09/08 - 12/18
28/2/0
Directed Study
CRN 45772
3 Cr.
Size: 28
Enrolled: 2
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
9:00 pm
Online

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 45772

Online: Sync Distributed | Directed Study

Online

  Terry Danielson

This unique and groundbreaking course focus is on "Frugal Innovation." Frugal innovation addresses the need for products and services in the emerging developing world. The course provides a way for faculty and students to apply their intellectual talents to work on meaningful projects that serve the world and contribute to the developing world's economy's success and foster social benefits between the students. The course collaborates with Egerton University in Nakuru, Kenya, with satellite weekly class sessions and weekly class discussion forums. This course is differentiated from other courses by the extent of the experiential learning and its highly cross-functional collaboration nature between the two universities in the developed and developing worlds.

3 Credits

701-01
Design of Experiments
 
R 5:45 pm - 8:45 pm
T. Keenan
 
09/08 - 12/18
15/5/0
Lecture
CRN 40596
3 Cr.
Size: 15
Enrolled: 5
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
Online

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 40596

Online: Sync Distributed | Lecture

Online

  Tom Keenan

This course provides the student with a set of skills to improve products and processes already in manufacturing as well as to develop products and processes in the development stages of a project. The definition of DOE promoted is " a tool to assist in the process of understanding the system". There will be discussion of how DOE fits into the overall product lifecycle and where it applies and does not apply to the area of testing. Tools covered include full and fractional factorials, central composite, Box-Behnken, Taguchi, Evolutionary Operation and the method of steepest ascent. Theoretical statistics understanding is assumed coming into the course. A standard, simple process will be presented which allows for improved communication and user confidence in using the tool set. The primary objective is to assist the student in implementing the skills learned as a part of the course. This is an applications - oriented course that includes case studies, team projects, student presentations and reports, guest lecturers and use of computational software. A quick statistical overview will be provided in the class as a refresher, but is not intended to cover the subjects in depth to students new to the subject. It would still be beneficial to review all of the topics prior to starting the class. The underlying statistics covered in ETLS 506 are a critical foundation for the material presented in the DOE class. The minimum background needs to include an understanding of: statistical symbology; normal distribution; ANOVA; and z, t, and F tests. General understanding of alpha and beta errors flow charts, Pareto charts, cause and effect diagrams and SPC is nice but not required. If you have equivalent background, the instructor will grant a written waiver.

3 Credits

720-01
Anatomy & Physiology for Med
 
M 5:45 pm - 8:45 pm
M. Koontz
 
09/08 - 12/18
19/3/0
Lecture
CRN 43797
3 Cr.
Size: 19
Enrolled: 3
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
Online

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43797

Online: Sync Distributed | Lecture

Online

  Megan Koontz

The course teaches fundamentals of anatomy and physiology of nerves, muscle, heart, blood vessels, gastrointestinal system, urinary tract, liver and hormones. A broad range of disease states and medical devices are introduced to help students better relate to the anatomic and physiologic lecture information. Class experience also includes guest speakers and/or local hospital/clinic tours.

3 Credits

721-01
Med Dev Regulatory Submiss
 
See Details
C. Burns
 
09/08 - 12/18
21/21/0
Lecture
CRN 43496
3 Cr.
Size: 21
Enrolled: 21
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
Online

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43496

Online: Sync Distributed | Lecture

Online

  Candice Burns, Timothy Philips, Melissa Young

This course teaches the student about submissions for regulatory approval of medical devices. Topics include: medical device law, custom and research devices, significant and non-significant risk devices, FDA investigational device exemption, 510(k) substantial equivalence determination, pre-market approval, PMA supplements, third party review, combination devices, European economic area CE mark, international harmonization, MDR, device tracking, post market surveillance, and annual post approval reporting. Depending upon the degree of class interest medical device submissions in Canada, Australia and Japan may be covered.

3 Credits

722-01
Med Device Quality Systems
 
See Details
K. Simmons
 
09/08 - 12/18
26/24/0
Lecture
CRN 43501
3 Cr.
Size: 26
Enrolled: 24
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
Online

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43501

Online: Sync Distributed | Lecture

Online

  Kristina Simmons, Rita Guzzetta

This class will focus on medical device quality system requirements for medical device manufacturers. The majority of class time will be spent reviewing the U.S. FDA Quality System Regulation with additional focus on the European Quality Standard for Medical Devices, ISO 13485, and the European Medical Device Regulation. The course includes a short overview on the history of FDA regulation, sources of U.S. law and regulated activities. Additional class topics include an introduction to the U.S. regulatory submission process, complaint handling, medical device event reporting, risk management, and corrections & removals. Several classes will include lecture and classroom discussion on how to handle FDA inspections, and the ramification of non-compliance discovered during inspections. Classroom methodology will be lectures with substantial student interaction encouraged. Coursework includes small group presentation and paper development as well as presentations of that work to the broader class.

3 Credits

723-01
Biomat'ls in Design Med Device
 
T 5:45 pm - 8:45 pm
F. Kasumzade
 
09/08 - 12/18
23/15/0
Lecture
CRN 43796
3 Cr.
Size: 23
Enrolled: 15
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
Online

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43796

Online: Sync Distributed | Lecture

Online

  Farida Kasumzade

This course will develop the necessary background to understand the material selection process in the design of medical devices. The students will learn about biomaterials and also develop an appreciation for the relationships between a material’s properties, structure, and the implementation to achieve a desired functionality. The class is also suitable for students who do not have an extensive background in organic chemistry, biochemistry, or materials science. The first half of the semester will concentrate on the properties of several classes of materials including metals, polymers, ceramics, and composites. Topics such as material characterization, biocompatibility, processing of biomaterials, and failure of medical devices will be included in the second half. A number of existing medical devices and various real-life issues related to these devices will be explored based on instructor’s experience of working in the industry. The course will be applications oriented, with particular emphasis on orthopedic and cardiovascular applications. This course will use a combination of lectures, guest lectures, tours, student presentations, and self-directed learning.

3 Credits

735-01
Preclinical Activities
 
See Details
R. Martin
 
TBD
24/11/0
Lecture
CRN 40580
3 Cr.
Size: 24
Enrolled: 11
Waitlisted: 0
M T W Th F Sa Su

09/13:
5:45 pm
8:45 pm
OSS 329

09/20:
5:45 pm
8:45 pm
In Person

09/27 - 10/18:
5:45 pm
8:45 pm
OSS 329

10/25 - 11/01:
5:45 pm
8:45 pm
In Person

11/08:
5:45 pm
8:45 pm
OSS 329

11/15 - 11/29:
5:45 pm
8:45 pm
In Person

12/06 - 12/13:
5:45 pm
8:45 pm
OSS 329

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 40580

CoFlex:In Person&Online Sync | Lecture

St Paul: O'Shaughnessy Science Hall 329
     (Common Good capacity: 31 participants)

St Paul: In Person

  Roy Martin, Kimberly Anderson

Pre-clinical testing is utilized to evaluate the safety and potential efficacy of promising medical technologies prior to evaluation and use in human beings. This testing information is required by regulatory agencies around the world. The studies also provide extremely valuable and cost effective product development opportunities for medical product sponsors. The tests are defined by guidance documents, international standards and the formal product risk assessment. Coordination of the multifunctional team that acquires and also utilizes this data can greatly enhance the value of this testing. This course will review the history and preclinical regulatory requirements of medical devices and description planning and management of associated pre-clinical evaluations. In addition, the risks involved in medical device development and use are explored. Risk mitigation activities associated with development of an actual medical device are presented and then experienced through their application for a hypothetical medical device. Class time is devoted to providing feedback for individual student projects about mitigating the development risks for a student chosen real or hypothetical medical device.

3 Credits

739-01
EV Market and Technologies
 
Blended
J. Kukkonen
 
TBD
18/15/0
Lecture
CRN 43950
3 Cr.
Size: 18
Enrolled: 15
Waitlisted: 0
M T W Th F Sa Su
 

09/08 - 09/15:
5:45 pm
8:45 pm
OWS 257

09/16 - 09/29:
5:45 pm
8:45 pm
Online 1

09/30 - 10/06:
5:45 pm
8:45 pm
OWS 257

10/07 - 10/20:
5:45 pm
8:45 pm
Online 1

10/21 - 10/27:
5:45 pm
8:45 pm
OWS 257

10/28 - 12/08:
5:45 pm
8:45 pm
Online 1

12/09 - 12/18:
5:45 pm
8:45 pm
OWS 257

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43950

Blended Online & In-Person | Lecture

St Paul: Owens Science Hall 257
     (Common Good capacity: 45 participants)

Online

  Jukka Kukkonen

A one semester graduate course exploring the key areas of electric vehicle market and technologies. This course will provide an understanding of the present state of electric vehicle market and technologies, perspectives on the dynamics of the market and plenty of ideas on future opportunities. This course will provide a solid foundation for anyone considering future career or business options with EVs and related technologies in this fast-growing field.

3 Credits

741-01
Heat Transfer & Fluid Flow
 
T 5:45 pm - 8:45 pm
J. Stark
 
09/08 - 12/18
30/7/0
Lecture
CRN 43463
3 Cr.
Size: 30
Enrolled: 7
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
Online

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43463

Online: Sync Distributed | Lecture

Online

  John Stark

Modes of heat transfer: convection, conduction and radiation. Coupling fo convective heat transfer with fluid flow. Fundamentals of fluid flow: statics, boundary layers pipe flows, pressure drop and friction factor. Convective heat transfer at external surfaces and internal surfaces. C Conduction in solids of various shapes; use of heat- conducting fins to improve performance of heat exchangers. Radiation heat transfer between surfaces.

3 Credits

744-01
Power Systems and Smart Grids
 
Blended
M. Kabalan
 
TBD
12/10/0
Lecture
CRN 43464
3 Cr.
Size: 12
Enrolled: 10
Waitlisted: 0
M T W Th F Sa Su
 

09/14:
5:45 pm
8:45 pm
FDC 317

09/21:
5:45 pm
8:45 pm
FDC 317

09/28:
5:45 pm
8:45 pm
Online 1

10/05:
5:45 pm
8:45 pm
FDC 317

10/12:
5:45 pm
8:45 pm
Online 1

10/19:
5:45 pm
8:45 pm
Online 1

10/26:
5:45 pm
8:45 pm
FDC 317

11/02:
5:45 pm
8:45 pm
Online 1

11/09:
5:45 pm
8:45 pm
Online 1

11/16:
5:45 pm
8:45 pm
FDC 317

11/23:
5:45 pm
8:45 pm
Online 1

11/30 - 12/14:
5:45 pm
8:45 pm
FDC 317

         
+ asynchronous coursework

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43464

Blended Online & In-Person | Lecture

St Paul: Facilities & Design Center 317
     (Common Good capacity: 46 participants)

Online

  Mahmoud Kabalan

An introduction to the practical aspects of power systems and the power grid. In one semester, this course will cover essential introductory concepts necessary to understand and use power systems as well as provide the foundation for more advanced power system study.

3 Credits

748-01
Renewable Energy Generation
 
R 5:45 pm - 8:45 pm
G. Mowry
 
09/08 - 12/18
30/21/0
Lecture
CRN 43465
3 Cr.
Size: 30
Enrolled: 21
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
OWS LL54

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43465

In Person | Lecture

St Paul: Owens Science Hall LL54
     (Common Good capacity: 36 participants)

  Greg Mowry

Energy is one of the most important issues of the century. This course will provide a basic understanding of various renewable and classical electric energy generation techniques. It will cover, among others, thermal, hydro, nuclear, solar, and wind-based power generation. We'll also review certain basic aspects of power storage and delivery. This course will help students in the evaluation and analysis of various energy systems in the context of technology, economics, and sustainability.

3 Credits

750-01
Smart Distribution Systems
 
M 5:45 pm - 8:45 pm
G. Mowry
 
09/08 - 12/18
25/11/0
Lecture
CRN 43933
3 Cr.
Size: 25
Enrolled: 11
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su

5:45 pm
8:45 pm
OSS 333

           

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43933

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 333
     (Common Good capacity: 34 participants)

  Greg Mowry

The distribution portion of the grid is rapidly evolving in order to incorporate distributed energy resources (DERs) in an intelligent (smart), robust, resilient and sustainable manner. In addition, the transition from ICE based transportation to EVs will require significant improvements in the existing distribution system infrastructure. This one-semester course is designed to cover the design and operating principles of legacy distribution systems and lay a foundation for smart distribution systems. Prerequisite: ETLS 744

3 Credits

753-01
Power Sys Protection & Relay
 
T 5:45 pm - 8:45 pm
P. Nyombi
 
09/08 - 12/18
10/9/0
Lecture
CRN 40201
3 Cr.
Size: 10
Enrolled: 9
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
FDC 213

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 40201

CoFlex:In Person&Online Sync | Lecture

St Paul: Facilities & Design Center 213
     (Common Good capacity: 16 participants)

  Paul Nyombi

This course covers the fundamentals of and the application of relays for power system protection. Topics in the course include: Power System Philosophies, Types of Power System Protection, Faults, Symmetrical Components and Neutral Grounding , Fuses,Instrument Transformers,Relays – Types and Operating Principles, Circuit Breakers as well as Transmission Line Protection, Busbar Protection, Transformer Protection, Circuit Breaker Protection, Shunt Capacitor Protection, Shunt Reactor Protection, Generator Protection, Motor Protection, System Protection. Prerequisite: ETLS 744.

3 Credits

770-01
Automated Control Mfg Process
 
R 5:45 pm - 8:45 pm
S. Christenson
 
09/08 - 12/18
10/6/0
Lecture
CRN 43628
3 Cr.
Size: 10
Enrolled: 6
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
OWS 250

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43628

In Person | Lecture

St Paul: Owens Science Hall 250
     (Common Good capacity: 54 participants)

  Scott Christenson

An introduction to the key elements of control systems employed in manufacturing with examples from both batch and continuous-process applications. First, the fundamental theory of operation of closed loop (binary and analog) control systems is developed. Students will explore using PLCs to implement modern systems and become familiar with a PLC programming language. Second, the theory of operation and performance limits of sensors and actuators used in the industrial environment is explored. Some sensors to be considered measure position, speed, temperature, flowrate, level and force. Some actuators to be considered include pumps, hydraulic and pneumatic cylinders, heaters, valves, stepping motors, and AC and DC motors. Future trends in control systems targeted for the manufacturing plant will be presented. Students will demonstrate their ability to automate a manufacturing cell and quantify the cost impact of the project on the manufacturing example chosen in a term paper. Instructor's permission required for MS, MBA and Certificate students.

3 Credits

771-01
Materials Engineering
 
R 5:45 pm - 8:45 pm
G. Gagnon
 
09/08 - 12/18
30/9/0
Lecture
CRN 43466
3 Cr.
Size: 30
Enrolled: 9
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
     

5:45 pm
8:45 pm
OSS 327

     

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43466

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 327
     (Common Good capacity: 34 participants)

  Genevieve Gagnon

This course introduces the student to theory and application of engineering materials. While particular emphasis is placed on traditional structural materiasl, emerging materials technology is also discussed. Topics explore the physical and mechanical properties of metals, polymers, ceramics, and composite materials. Useful applications and limitations of those materials presented, and means of modifying their properties are discussed at length. Guest speakers and industrial tours supplement traditional learning by exposing the student to particular materials application, processing and evaluation.

3 Credits

777-01
Finite Element Analysis
 
W 5:45 pm - 8:45 pm
J. Abraham
 
09/08 - 12/18
15/10/0
Lecture
CRN 43467
3 Cr.
Size: 15
Enrolled: 10
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
   

5:45 pm
8:45 pm
OSS 230

       

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43467

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 230
     (Common Good capacity: 32 participants)

  John Abraham

This course offers an introduction to finite element analysis (FEA) in theory and practice. Students will learn the mathematical and physical foundation of the method, and will also be exposed to implementation via a commerical FEA program. Solution to real problems and projects will be integral parts of the course content and grade. Emphasis will be placed on the use of FEA for solid/structural mechanics problems, while the solution for thermal and fluid problems will be covered superficially. A strong background in mechanics of materials, physics and calculus is necessary. Knowledge of computer operating systems (windows or UNIX) and programming languages (FORTRAN, Basic, C) will be useful, but is not required.

3 Credits

789-01
Sim. & Vis. of Dynamic Sys.
 
T 5:45 pm - 8:45 pm
M. Hennessey
 
09/08 - 12/18
20/5/0
Lecture
CRN 43468
3 Cr.
Size: 20
Enrolled: 5
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
Online

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43468

Online: Some Synchronous | Lecture

Online

  Michael Hennessey

Many engineering systems are inherently dynamic in nature. Characterizing and designing such systems requires mathematical modeling, simulation, and visualization using modern software such as MATLAB, SIMULINK, and SolidWorks, possibly with add-on modules. Lectures focus on the detailed applied mathematical modeling of a variety of systems from different energy domains with a bias towards mechanical systems such as mechanical translational, mechanical rotational, hydraulic, thermal, among others. The laboratory has 3 components to it: (1) software training(as necessary) , (2) developing dynamic models using MATLAB and SIMULINK, (3) creating CAD models of systems, and (4) integrating the dynamics models with the visualization to create computer animations of the resulting motions of the mechanical systems. Students also work on a team-based dynamic simulation and visualization of mechanical systems project.

3 Credits

858-01
Engineering Capstone
 
T 5:45 pm - 8:45 pm
L. Doerr
 
09/08 - 12/18
13/6/0
Lecture
CRN 43502
3 Cr.
Size: 13
Enrolled: 6
Waitlisted: 0
09/08 - 12/18
M T W Th F Sa Su
 

5:45 pm
8:45 pm
OSS 122

         

Subject: Engr Tech Leadrshp (Grad) (ETLS)

CRN: 43502

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 122
     (Common Good capacity: 23 participants)

  Larry Doerr

The Engineering Capstone course provides graduating Masters students with a long-term perspective on the rapidly-changing face of global industry and technology, and familiarizes class members with important concepts pertaining to developing company strategy and attaining company objectives. The course emphasizes personally understanding issues of leadership and ethics in a global environment, and the impact of technical considerations in the context of a global society. Students will integrate concepts and ideas from their previous coursework and experiences into a cohesive body of knowledge, building on an awareness of 21st Century issues. An intended deliverable is that each student will personalize "the right questions to ask" for lifelong learning. In so doing, they will continue to optimize their effectiveness in the challenging global economy of today and tomorrow. Prerequisite: To register, students must be within six credits of completing their degree (excepting the Capstone) and have no grades of Incomplete.

3 Credits


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