Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

David R. Jacques, Air Force Institute of Technology; John M. Colombi, Air Force Institute of Technology; Richard G. Cobb, Air Force Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

years of active duty Air Force service, Dr. Colombi led command and control systems integration projects, systems engineering for the Air Force E-3 aircraft program office, researched biometric systems security at the National Security Agency and managed/ researched communications networking in the Air Force Research Laboratory.Richard G Cobb, Air Force Institute of Technology Page 22.7.1 c American Society for Engineering Education, 2011 Fostering Systems Engineering Education Through Interdisciplinary Programs and Graduate Capstone ProjectsAbstract The

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Catherine Skokan, Colorado School of Mines

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

StateUniversity found that minorities, in particular, increased their laboratory performance in a hybridenvironment. Perhaps the most compelling argument can be made by Landers7 in his doctoralthesis where a large number and variations of hybrid courses were analyzed. He states (p. 61):“it appears that online instruction is more effective than traditional instruction when seekingknowledge and problem solving gains”. In creating a hybrid Senior Design offering, facultymembers would have more opportunities to make connections with the on-line material and theteam project.Many of the present lecture topics apply directly to the design and construction of an object orstructure and dissemination of knowledge (lists and facts). The teams that work on projects

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Colin J. Neill, Pennsylvania State University, Great Valley; Joanna F. DeFranco, Pennsylvania State University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

, Ph.D. is an Assistant Professor of Software Engineering in the School of Graduate and Professional Studies at The Pennsylvania State University. Prior to entering academia she worked in industry and government as a software and electronics engineer. Her research interests include problem solving in software and systems design, team learning, and project management. Page 22.838.1 c American Society for Engineering Education, 2011 Improving Team Learning in Systems DesignAbstractA detailed statistical experiment to study the effect of the cognitive collaborative model (CCM

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Elisabeth W. McGrath, Stevens Institute of Technology; Susan Lowes, Institute for Learning Technologies, Teachers College/Columbia University; Chris Jurado, Stevens Institute of Technology; Alice F. Squires, Stevens Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

activities such as collection and analysis of data and publications as part of the National Science Foundation’s Science Partnerships Program as well as in the implementation of capstone projects at the Center for Innovation in Engineering and Science Educa- tion (CIESE). Prior to joining CIESE he was a practicing chemical engineer on water treatments, envi- ronmental management systems and quality assurance. Chris received a BE in in Chemical Engineering from University of Guayaquil, an Environmental Technology Certificate from the Swedish International Development Agency, and a ME in Engineering Management from Stevens Institute of Technology. He’s currently pursuing a PhD in Financial Engineering at Stevens.Alice F

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

James A. Nemes, Pennsylvania State University, Great Valley; Kirsten S. Hochstedt, Penn State University; Mary Lynn Brannon, Pennsylvania State University, University Park; Elizabeth C. Kisenwether, Pennsylvania State University, University Park; Robert M. Capuro, Pennslyvania State University; Sven G. Bilen, Pennsylvania State University, University Park

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

response theory methodology.Mary Lynn Brannon, Pennsylvania State University, University Park Mary Lynn Brannon, Instructional Support Specialist at the Leonhard Center for the Enhancement of Engineering Education at the Pennsylvania State University, has a Master of Arts Degree in Education and Human Development specializing in Educational Technology Leadership. Her work focuses on projects that measure and assess student perceptions of learning related to their experiences with engineering course innovations. She is a faculty development consultant with previous experience in instructional design and instructor of the Graduate Assistant Seminar for engineering teaching assistants.Elizabeth C. Kisenwether, Pennsylvania

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Keith G. Sheppard, Stevens Institute of Technology; John A Nastasi, Stevens Institute of Technology; Eirik Hole, Stevens Institute of Technology; Peter L. Russell, Stevens Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Engineering from the University of Stuttgart, Germany in 1995.Peter L. Russell, Stevens Institute of Technology Peter Russell is an Industry Assistant Professor of Engineering and Science at Stevens Institute of Tech- nology. He earned a BFA, BARCH from the Rhode Island School of Design. Mr. Russell has extensive experience in the architectural profession. As an Assistant Professor, Mr. Russell is managing interdisci- plinary projects for both The Department of Energy and The Department of Defense. Page 22.1278.1 c American Society for Engineering Education, 2011 SE CAPSTONE

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Steven Corns, Missouri University of Science and Technology; Cihan H. Dagli, Missouri University of Science and Technology; Ivan G. Guardiola, Missouri University of Science and Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

AC 2011-1211: SE CAPSTONE: INTEGRATING SYSTEMS ENGINEER-ING FUNDAMENTALS TO ENGINEERING CAPSTONE PROJECTS: EX-PERIENTIAL AND ACTIVESteven Corns, Missouri University of Science and TechnolotyCihan H. Dagli, Missouri University of Science & Technology Cihan Dagli is a Professor of Engineering Management and Systems Engineering, and Affiliated Profes- sor of Electrical and Computer Engineering at the Missouri University of Science and Technology. He received BS and MS degrees in Industrial Engineering from the Middle East Technical University and a Ph.D. in Applied Operations Research in Large Scale Systems Design and Operation from the University of Birmingham, United Kingdom, where from 1976 to 1979 he was a British

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard W. Freeman, U.S. Coast Guard Academy; Richard J. Hartnett P.E., U.S. Coast Guard Academy

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

- Introducing Multidisciplinary Capstone Design to the United States Coast Guard AcademyThe United States Coast Guard Academy (USCGA) is one of five Service Academies educatingand training generations of Military Officers. USCGA offers eight majors including fourengineering majors- Civil, Electrical and Computer, Mechanical and Naval Architectural andMarine Engineering. Each major has traditionally taught its own capstone design course, whichranged from a one-semester paper project to a two-semester project with a functional prototype.Multidisciplinary projects have been rare and collaboration on projects has usually been limitedto having cadets from other majors working as part of design teams, but usually being enrolled ina separate

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Radu F. Babiceanu, University of Arkansas, Little Rock; Daniel Rucker, University of Arkansas, Little Rock; Hussain M Al-Rizzo, University of Arkansas, Little Rock; Seshadri Mohan, University of Arkansas, Little Rock

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Communications and IEEE Surveys and chaired sessions in many international conferences andworkshops. He has also served as a Guest Editor for several special issues of IEEE Network, IEEECommunications Magazine, and ACM MONET. He was nominated for 2006 GWEC’s Global WirelessEducator of the Year Award, as well as 2007 ASEE Midwest Section Dean’s Award for Outstanding Ser-vice. He has currently undertaken another book-writing project titled ”Mobile Multimedia Internet”, forpublication by Wiley Interscience.Dr. Mohan holds a Ph.D. degree in Electrical and Computer Engineering from McMaster University,Canada, a Master’s degree in Electrical Engineering and Computer Science from the India Institute ofTechnology in Kanpur, India, and a Bachelor’s degree in

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard Stansbury, Embry-Riddle Aeronautical University, Daytona Beach; Massood Towhidnejad, Embry-Riddle Aeronautical University, Daytona Beach; Jayson F. Clifford; Michael P. Dop, Embry-Riddle Aeronautical University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

of Electrical, Computer, Software and System Engineering at Embry-Riddle Aeronautical University. His teaching interests include artificial intelligence, autonomous systems, and software engineering with emphasis on software quality assurance and testing. He has been involved in research activities in the areas of software engineering, software quality assurance and testing, autonomous systems, and human factors.Jayson F Clifford Jayson Clifford is a Research Associate at Embry-Riddle Aeronautical University. He has worked on a number of projects involving the development of unmanned vehicle systems and software processes for small teams.Michael P Dop, Embry-Riddle Aeronautical University Michael Dop is a

Conference Session

Developing Systems Engineering Curriculum, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ricardo Pineda, University of Texas, El Paso; John E. Weaver, Lockheed Martin Aeronautics Company; Oscar H. Salcedo, University of Texas, El Paso; Jose Luis Falliner, The University of Texas, El Paso; Richard T. Schoephoerster, University of Texas, El Paso

Tagged Divisions

Systems Engineering

, implementation and deployment of the AT&T Services and Network in Mexico. He was also Siemens Business Services (SBS) Practice Director for Latin America where he was the main consultant in systems implementations in Venezuela, Colombia, Ecuador and Brazil. Dr. Pineda has extensive experience in Academia; he was a Professor at ITESM in Monterrey, Mexico and at the ”Universidad de Los Andes” in Colombia and currently at the University of Texas at El Paso. His current Research projects include: PI for ”Energy Se- curity Microgrid Large Scale Energy Storage (LSES)” for Raytheon-Energy Solutions, PI for ”Prognosis & Resilience Design for Complex SoS” with Raytheon-IDS, PI ”SOS Global Attributes to Design Space Mapping

Conference Session

A Systems-Thinking Approach to Solving Problems

Collection

2011 ASEE Annual Conference & Exposition

Authors

Cecelia M. Wigal, University of Tennessee, Chattanooga

Tagged Divisions

Systems Engineering

-making process that aids the engineer in generating andevaluating characteristics of an entity (physical or process) whose structure, function, andoperation achieve specified objectives and constraints. The program describes the process as theapplication of the solid foundation of the basic sciences, mathematics, and engineering sciencesto the abstractness, complexity, and solving of real world problems.The elements of the design process are emphasized throughout the program’s curriculum,beginning with the freshmen year. At the freshman year the Introduction to Engineering Design(IED) course uses project-based learning to address (1) problem definition, (2) attributegeneration, (3) function, constraint and objective identification, (4) idea

Conference Session

Developing Systems Engineering Curriculum, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Alice F. Squires, Stevens Institute of Technology; Jon Wade, Ph.D., Stevens Institute of Technology; Douglas A. Bodner, Georgia Institute of Technology; Masataka Okutsu, Purdue University; Dan Ingold, University of Southern California; Peter G. Dominick Ph.D., Stevens Institute of Technology, W.J. Howe School of Technology Management; Richard R. Reilly, Stevens Institute of Technology; William R. Watson, Purdue University; Don Gelosh, ODDRE/Systems Engineering

Tagged Divisions

Systems Engineering

AC 2011-1295: INVESTIGATING AN INNOVATIVE APPROACH FOR DE-VELOPING SYSTEMS ENGINEERING CURRICULUM: THE SYSTEMSENGINEERING EXPERIENCE ACCELERATORAlice F Squires, Stevens Institute of Technology Alice Squires has nearly 30 years of professional experience and is an industry and research professor in Systems Engineering at Stevens Institute of Technology in the School of Systems and Enterprises. She is a Primary Researcher for the Body of Knowledge and Curriculum to Advance Systems Engineering (BKCASE) and Systems Engineering Experience Accelerator projects. She has served as a Senior Sys- tems Engineer consultant to Lockheed Martin, IBM, and EDO Ceramics, for Advanced Systems Support- ability Engineering Technology

Conference Session

Developing Systems Engineering Curriculum, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Alice F. Squires, Stevens Institute of Technology; David H. Olwell, Naval Postgraduate School ; Timothy L.J. Ferris, University of South Australia; Nicole A.C. Hutchison; Arthur Pyster, Stevens Institute of Technology; Stephanie Enck, Naval Postgraduate School

Tagged Divisions

Systems Engineering

AC 2011-958: DEVELOPING SYSTEMS ENGINEERING GRADUATE PRO-GRAMS ALIGNED TO THE BODY OF KNOWLEDGE AND CURRICU-LUM TO ADVANCE SYSTEMS ENGINEERING (BKCASE(TM)) GUIDE-LINESAlice F Squires, Stevens Institute of Technology Alice Squires has nearly 30 years of professional experience and is an industry and research professor in Systems Engineering at Stevens Institute of Technology in the School of Systems and Enterprises. She is a Primary Researcher for the Body of Knowledge and Curriculum to Advance Systems Engineering (BKCASE) and Systems Engineering Experience Accelerator projects. She has served as a Senior Sys- tems Engineer consultant to Lockheed Martin, IBM, and EDO Ceramics, for Advanced Systems Support- ability

Conference Session

Developing Systems Engineering Curriculum, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lisa Guerra, NASA Headquarters; Wallace T. Fowler, University of Texas, Austin; Martin James Brennan, University of Texas, Austin, Department of Aerospace Engineering and Engineering Mechanics

Tagged Divisions

Systems Engineering

Prerequisites for Capstone Design Abstract A NASA project to improve university design education curricula has resulted in the addition of an undergraduate introduction to systems engineering and a spacecraft subsystems modeling laboratory as prerequisites to the capstone spacecraft/mission design course in aerospace engineering at the University of Texas at Austin. The systems engineering course materials, created by the second author, are based on NASA systems engineering practices and available in the public domain on the internet (http://spacese.spacegrant.org). The current paper summarizes the content of the systems engineering course, as well as a companion lab on modeling spacecraft subsystems, and focuses on the positive

Conference Session

Developing Systems Engineering Curriculum, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard E Fairley, Software and Systems Engineering Associates

Tagged Divisions

Systems Engineering

techniques used by software engineers • Software engineering techniques used by systems engineers • The intangible and malleable nature of software • The four essential properties of software • The three additional factors • Risk management of software projects • Software development processesFor purposes of exposition, we distinguish software engineering from softwareconstruction. Software engineers are concerned with analysis and design, allocationof requirements, component integration, verification and validation, re-engineeringof existing systems, and life cycle sustainment of software. Programmers, whomay also be capable software engineers, construct software (i.e. engage in detaileddesign

Conference Session

Developing Systems Engineering Curriculum, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Agnes Galambosi, University of North Carolina, Charlotte; Ertunga C. Ozelkan, University of North Carolina, Charlotte

Tagged Divisions

Systems Engineering

purposefully employed in all areas of life: design of anyobject or product or service has to be in line with the three pillars of economic, social, andecological sustainability. As this is an integrated design process that demands cooperation frommany different sides of the design team, the role of systems engineering and engineeringmanagement to oversee these projects becomes extremely important.This is why today’s systems engineers will have to have a great understanding of sustainabilityand how the triple bottom line could be and should be met for every project. They need tounderstand many different principles of sustainable design, for example, how to use low-impactmaterials that are non-toxic, sustainably-produced or recycled materials; how to be

Conference Session

Systems Engineering Division Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Adeel Khalid, Southern Polytechnic State University; Chyna Kristin Vaughn

Tagged Divisions

Systems Engineering

Selection tool to Traffic Congestion in Metro Atlanta: A Case StudyAbstractTraffic and congestion is a problem in most major U.S. cities. The difference between traffic inAtlanta compared to New York or Los Angeles is the lack of proper planning and budget to meetthe transportation demands of a continuously growing city. Over the past few decades,population and traffic congestion in Metro Atlanta has continuously been on the rise. Theproblem has been exacerbated with a dwindling budget to support current and futuretransportation projects and initiatives. The Georgia Department of Transportation must becomeopen to additional ways to resolve this problem. This paper reviews the past, current and futuretransportation

Conference Session

Developing Systems Engineering Curriculum, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Michael C Smith, University of Virginia; Reid Bailey, University of Virginia

Tagged Divisions

Systems Engineering

given simultaneously to multiple classrooms (aswell as to a live classroom) by a full-time systems engineering faculty member; in other cases,courses are taught by experienced adjunct faculty who live and work in the areas where coursesare taught. Other programs use Internet-based technologies to deliver either live streamedcontent or on-demand archived content to students or use Internet-based courseware to delivercourse content and to interact with students using web-based instructional technologies.Content and curricula vary but most practice-oriented master’s degree programs require 30 to 36hours of coursework, including an individual or team project. Most do not require a thesis. Thedegree granted may be a Master of Science in Systems

Conference Session

Developing Systems Engineering Curriculum, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Alice F Squires, Stevens Institute of Technology; Robert J. Cloutier, Stevens Institute of Technology

Tagged Divisions

Systems Engineering

AC 2011-1162: COMPARING PERCEPTIONS OF COMPETENCY KNOWL-EDGE DEVELOPMENT IN SYSTEMS ENGINEERING CURRICULUM:A CASE STUDYAlice F Squires, Stevens Institute of Technology Alice Squires has nearly 30 years of professional experience and is an industry and research professor in Systems Engineering at Stevens Institute of Technology in the School of Systems and Enterprises. She is a Primary Researcher for the Body of Knowledge and Curriculum to Advance Systems Engineering (BKCASE) and Systems Engineering Experience Accelerator projects. She has served as a Senior Sys- tems Engineer consultant to Lockheed Martin, IBM, and EDO Ceramics, for Advanced Systems Support- ability Engineering Technology and Tools (ASSETT), Inc

Conference Session

A Systems-Thinking Approach to Solving Problems

Collection

2011 ASEE Annual Conference & Exposition

Authors

Adeel Khalid, Southern Polytechnic State University; Scott C. Banks, Georgia Tech Research Institute

Tagged Divisions

Systems Engineering

developed Project 16. Project 16 created standards for the technical details andcapabilities of emergency responder communications systems. While Project 16 succeeded increating a basic set of functionality, it highlighted problems of interagency collaboration becausefrequency standards were never adopted. Several manufacturers built Project 16 compliantradios but in order for agencies to communicate with each other their systems needed to bepatched together. APCO Project 25 (P25) started in the late 1980s to address digital radiocommunications, including 800MHz trunked systems. P25 is actually a set of standards thatimprove interoperability by defining hardware, software and interfaces. DHS requires migrationto P25 and federal agencies purchase

Conference Session

A Systems-Thinking Approach to Solving Problems

Collection

2011 ASEE Annual Conference & Exposition

Authors

Yumin Zhang, Southeast Missouri State University; David K. Probst, Southeast Missouri State University

Tagged Divisions

Systems Engineering

different majors, they canchoose the system they are most familiar with. First they need to gather useful information, andthen set up their system model to simulate its behavior. Two or three students can work as agroup, and they can collaborate and improve the model they created. After completing thesimulation and verification, they need to write a project report and present the result to the wholeclass. Besides, students are also required to write four essays on the remaining five kinds ofsystems. In these essays students need to review the concepts and theories, and include at leastone application.II. Course OutlineThe first part of this course is an introduction to the basic concepts of system thinking. First,stock and flow are introduced as

Conference Session

A Systems-Thinking Approach to Solving Problems

Collection

2011 ASEE Annual Conference & Exposition

Authors

Adeel Khalid, Southern Polytechnic State University; Isaiah Waindi, SPSU Systems Engineering Graduate

Tagged Divisions

Systems Engineering

they seek to modernizeand produce more electricity. They must consider renewable energy systems from the onset ofdevelopment.Renewable EnergyRenewable energy sources offer great potential to solving some of Africa’s energy problems. Asshown in figure four (4), renewable energy use is projected to continue increasing however itdoes not keep pace with use from natural gas or coal. Therefore renewable energy solutions mustbe developed to reduce the dependency on coal for instance.Africa has many avenues for renewable energy including: • Solar power • Geothermal energy • Hydropower • Biomass energy • Wind energy Page 22.1237.7

Conference Session

A Systems-Thinking Approach to Solving Problems

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ronald C. Rosenberg, Michigan State University; Jon Sticklen, Michigan State University

Tagged Divisions

Systems Engineering

)  Spaceship Earth (4 minutes, 4 team members)  Think Globally (4 minutes, 4 team members)  International Trade (8 minutes, 4 team members)  Letter-to-the-Editor (free topic, solo, letter submitted externally)  International Business (8 minutes, 4 team members)  Energy (3 minute elevator talk, solo, to Michigan Senator (actor))  Water (3 minute elevator talk, solo, to US Senator (actor))  The Internet (8 minutes, 4 team members, plus formal Q&A section)  Water Scarcity (8 minutes, 4 team members, plus formal Q&A section)  Final Project Proposal (6 minutes, 4 team members, Q&A section) Page 22.763.4  Final