Conference Session

Innovative Curriculum In Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Carmine C. Balascio, University of Delaware

Tagged Divisions

Engineering Technology

fourteen ET workplace competencies adopted were: 12Table 1. ET Workplace CompetenciesEngineering/Technical Knowledge Analysis and JudgmentGeneral Knowledge PlanningContinuous Learning CommunicationQuality Orientation TeamworkInitiative IntegrityInnovation Professional ImpactCultural Adaptability Customer FocusAs an example, the communications competency and associated key actions are defined asfollows: 13Communication Competency: Clearly conveying information and ideas through a variety ofmedia to individuals or groups in a manner that engages the audience and helps themunderstand and retain the message.Key Actions:- Organizes the

Conference Session

Engineering Technology Design I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Carlos R. Morales, Purdue University, West Lafayette

Tagged Divisions

Engineering Technology

. Thus, they elected two business policies thatare central to the collaboration’s mission4: 1. The authors keep the copyright to the work 2. The authors receive a 70% of the gross revenue generated by the bookThe decision to allow author’s to keep the copyright to their own book was grounded in the Page 22.827.3belief that authors would be more motivated to make continual improvements to their work ifthey retained the copyright to their book. It was also believed that by keeping the copyright in thehands of the authors, the company would be continually motivated to keep the interest of itsauthors on its list of priority items.The

Conference Session

Nanotechnology/RFID

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ahmed S. Khan, DeVry University,Addison, Illinois; Aram Agajanian, DeVry University, Chicago

Tagged Divisions

Engineering Technology

to describe the new phenomena atthe nanoscale. 3As the global economy continues to be transformed by new technology, an intense competitionwill grow for intellectual capital and intellectual property. Technology will continue to drive the Page 22.850.2global and domestic GDP.4 The National Science Foundation predicts that the global marketplacefor goods and services using nanotechnologies will grow to $1 trillion by 2015 and employ 2million workers. It is estimated that by 2015 nanotechnology will be a $3 trillion-a-year globalindustry. In 1997 the investment in nanotechnology stood at $430 million to more than $9 billionin 2004. There more

Conference Session

Industrial Collaboration and Applications

Collection

2011 ASEE Annual Conference & Exposition

Authors

Niaz Latif, Purdue University, Calumet; Nick L. Wilson, Morrison Container Handling Solutions

Tagged Divisions

Engineering Technology

AC 2011-40: INDUSTRY EDUCATION PARTNERSHIP: MECHATRON-ICS ENGINEERING TECHNOLOGY PROGRAM DEVELOPMENTNiaz Latif, Purdue University, Calumet (Tech) Dr. Niaz Latif is the Dean of the School of Technology at Purdue University Calumet (PUC). He is also the Interim Associate Vice Chancellor of Research and Graduate Studies at PUC. Dr. Latif served as an Assistant Dean for Statewide Technology Administration in the College of Technology at Purdue University, West Lafayette, before joining Purdue University Calumet on July 1, 2007. He is the Principal Investigator of the 2010 NSF-ATE grant, ”Meeting workforce needs of Mechatronics Technicians.” Mr. Nick Wilson is the founder and President of Morrison Container Handling

Conference Session

Industrial Collaboration and Applications

Collection

2011 ASEE Annual Conference & Exposition

Authors

Aleksandr Sergeyev, Michigan Technological University; Nasser Alaraje, Michigan Technological University

Tagged Divisions

Engineering Technology

electrical engineering technology program at Michigan Tech will re-shape, enhance,and expand its power engineering focus area. The Power Engineering curriculum developmentwill incorporate the addition of three new courses that will be added to the current two courses,Electrical Machinery and Power Systems. The Electrical Engineering Technology program willre-shape the current power systems course to focus on Power Distribution and introduce threenew courses (Power Transmission, Power Electronics, and Alternative Energy Sources). Figure 1 Page 22.869.3shows the current and proposed power engineering focus area curriculum; the descriptions of thethree

Conference Session

Green Renewable Energy

Collection

2011 ASEE Annual Conference & Exposition

Authors

David W. Goodman, Indiana University Purdue University, Indianapolis; Heather L. Cooper, The Soundcoat Company

Tagged Divisions

Engineering Technology

requirements and the desire to create a sustainable and safeenvironment, there is a growing need to transition gradually from fossil fuels toward new andemerging energy solutions. An important component of addressing the global energy challengesof the future will involve public understanding and acceptance of new and emerging energytechnologies as safe and reliable sources for transportation fuels, energy storage, and powergeneration [1]. Creating a highly educated workforce who will contribute to overcoming theenergy challenges and increasing the public awareness of the challenges and opportunities areessential components in bringing about the transition [6]. Informal science education approachescan be applied to promote energy literacy at all levels

Conference Session

ETD Design I: Electrical and Computer Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Wei Zhan, Texas A&M University; Ana Elisa P. Goulart, Texas A&M University; Joseph A. Morgan, Texas A&M University; Jay R Porter, Texas A&M University

Tagged Divisions

Engineering Technology

much less time preparing for the course projects. With each course adding differentfeatures to the common platform, the learning experience in several courses becomes seamlesslyintegrated. The curriculum development effort improves the efficiency of student learning andenhances the students’ educational experience.1. IntroductionOne of the emphases for undergraduate Engineering Technology (ET) education is hands-onexperience gained through laboratory classes and course projects. Almost every junior or seniorlevel course in the Electronics and Telecommunications programs at Texas A&M University hasa course project. The curriculum is thus packed with laboratory assignments and projects, eachdemanding the students’ time. During the past

Conference Session

Student Learning and Teamwork

Collection

2011 ASEE Annual Conference & Exposition

Authors

William J. Sawaya, Texas A&M University

Tagged Divisions

Engineering Technology

engage students in taking greater responsibility for their ownlearning. Student and faculty feedback has judged the quizzes to provide a valuable contributionin the learning process.IntroductionEngaging students as active partners in the learning process can be challenging. But it is alsowidely believed that interactive learning has significant benefits. [1,2,3] This research presents anovel approach to both constructing and evaluating daily class quizzes that facilitate positivestudent learning related outcomes. This system has been designed to aid in the repetition andemphasis of key concepts [3], to facilitate comprehension[2, 4] and knowledge construction[1], andto provide a mechanism for student self evaluation [2, 4] of the state of their

Conference Session

Embedded System Design

Collection

2011 ASEE Annual Conference & Exposition

Authors

Joseph A. Morgan, Texas A&M University; Jay R. Porter, Texas A&M University; Wei Zhan P.E., Texas A&M University

Tagged Divisions

Engineering Technology

22.991.1 c American Society for Engineering Education, 2011 Krisys: A Low-Cost, High-Impact Recruiting and Outreach ToolIntroductionThe United States has seen declining enrollments in engineering and technology disciplines overthe past five years.1 This trend is of growing concern to engineering professionals and iscontributing to a recognized shortage of talent in the fields of science, technology, engineering,and mathematics (STEM).2 The problem has led many funding agencies to promote STEMprograms in an effort to increase the awareness and value of STEM careers among today’s youthin order to boost recruiting and retention in these fields. As an example, in 2006 the

Conference Session

Mechanical Engineering Technology Curriculum Innovations.

Collection

2011 ASEE Annual Conference & Exposition

Authors

Aaron K. Ball, Western Carolina University; George D. Ford, Western Carolina University; Frank Miceli, Asheville Bucombe Tech Community College

Tagged Divisions

Engineering Technology

classroom resources. Sheppard andGallois8 describe a more holistic method of implementing and integrating technology with anentrepreneurial approach to undergraduate engineering education under an umbrella term calledTechnogenesis™ as shown in Table 1. Under this broader curriculum approach, technology andapplied engineering applications are blended with entrepreneurship and integrated through eightsemesters of undergraduate study. Western Carolina University has taken a similar approach ofintegrating PBL both vertically through four years of study and horizontally across three differentengineering and technology programs. These programs included electrical engineering, electricaland computer engineering technology, and engineering technology

Conference Session

Unique Developments in Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Aleksandr Sergeyev, Michigan Technological University; Nasser Alaraje, Michigan Technological University

Tagged Divisions

Engineering Technology

, and 10 laboratory exercises. The student’s progress was assessedwith 13 quizzes, midterm, final and certification exams. Ninety percent of the students completedthe course with the score 93/100 and higher. Within the remaining 10% of the student body, thelowest score was 88/100.In summer 2010, an accelerated version of “Robotics Automation” course was offered for thefirst time with six enrolled students. The course material, including simulation and laboratoryassignment, was delivered during 2 weeks totaling 80 contact hours. Every day students had totalof 4 hours of recitations, 1 simulation project and 2 laboratory exercises. The progress wasassessed daily with quizzes and with midterm exam at the end of the first week. At the end of

Conference Session

Electrical and Computer Engineering Technology Projects and Applications

Collection

2011 ASEE Annual Conference & Exposition

Authors

Chandra R. Sekhar, Purdue University, Calumet ; Omer Farook, Purdue University; Jai P. agrawal, Purdue University Calumet; Essaid Bouktache, Purdue University, Calumet

Tagged Divisions

Engineering Technology

the curriculum of an Electrical and Computer EngineeringTechnology program, the biomedical course is redesigned so that the students can follow thetheory with laboratory experiments for processing biomedical signals utilizing System DesignApproach (SDA). Isolated experiments focused on a single topic never conveyed the holistic feelthat is gained through a complete instrumentation platform design.This course is offered in the form of Learning Modules. The paper discuses the coursesystem design learning modules which encompasses: 1) Bio signal, Transducers and SignalConditioning, 2) Microcontrollers based Embedded System design, 3) Embedded SystemProgramming, 4) Object-Oriented Programming (OOP) Design, 5) Use of Graphical UserInterface (GUI

Conference Session

Mechanical Engineering Technology Curriculum Innovations.

Collection

2011 ASEE Annual Conference & Exposition

Authors

Vassilios Tzouanas, University of Houston, Downtown

Tagged Divisions

Engineering Technology

acquired by thestudents. I. IntroductionTo build a foundation on process modeling and simulation, undergraduate students are offered anintroductory course on the subject, ENGR 3410. Typically, students take this course in the junioryear. This course provides an introduction to material and energy balances in engineeringapplications, including chemical, environmental and biological systems. Use of software toolssuch as Matlab and Excel is made to solve engineering problems. The textbook by Felder andRousseau1 is used and the following topics are covered in ENGR3410: 1. Introduction to Engineering Calculations 2. Typical Processes and Process Variables 3. Fundamentals of Material Balances, Total

Conference Session

Embedded System Design

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jeanne Christman, Rochester Institute of Technology; Eric J. Alley, Rochester Institute of Technology

Tagged Divisions

Engineering Technology

asoftware solution to the same algorithm. An image rotation algorithm was chosen for tworeasons; the first being that the results can initially be measured qualitatively by observation. Abigger reason for choosing image rotation is that it is an application that students are familiarwith. They are exposed to image rotation daily on their phones and mp3 players, but have neverconsidered the processing behind it prior to starting this lab.Like all lab projects, this lab starts with an introduction to the theory behind the exercise. Theequation for rotating an image about its center is given in Figure 1, where Xsource and Ysource is thepixel location in the original image, Xdest and Ydest is the corresponding pixel locations in therotated image and

Conference Session

Topics Related to Telecommunications

Collection

2011 ASEE Annual Conference & Exposition

Authors

Min-Sung Koh, Eastern Washington University; Esteban Rodriguez-Marek, Eastern Washington University; Claudio Talarico, Eastern Washinton University

Tagged Divisions

Engineering Technology

. 1. IntroductionOur daily life is closely connected to communication devices such as iPods, smart phones,Netbooks, laptops, etc., only to name a few. The rapidly changing modern world has drivenmany people to base their social agendas on communication devices. These devices are soubiquitous that is getting harder and harder to even imagine our lives without communicationdevices. Hence, as a communication systems engineer/technologist it is essential to have anunderstanding of communication systems’ basic concepts and principles. To provide thisunderstanding in the classroom, theoretical concepts are introduced in the typical communicationsystems class. Among the various topics, it is essential to learn modulation and demodulation ofanalog

Conference Session

Engineering Technology Design I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Charles G. Drake, Ferris State University

Tagged Divisions

Engineering Technology

. Page 22.60.3Force Table: Workbenches and ordinary classroom tables were made into force tableswith some common hardware as seen in Figure 1. Pulley supports were made in a varietyof ways starting with steel angle braces, eye hooks, and C-clamps. (See Figure 2.)Students were required to hang different masses on two the three strings shown and bringthe system into equilibrium by pulling on the third string with a force gauge; pulleypositions and masses were adjusted as needed such that the knot was over the table. A360 degree protractor was then used to identify directions for each string. Starting with aFBD, students were to add the three applied forces confirm that the net force was zero.Graphical, trigonometric, and components solutions were

Conference Session

Interdisciplinary Education in Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Irina Nicoleta Ciobanescu Husanu, Drexel University; Michael G Mauk P.E., Drexel University; Radian G. Belu, Drexel University; Eric Carr, Drexel University

Tagged Divisions

Engineering Technology

effective pathway to Page 22.76.2instructing students in producing novel solutions to technical problems in a systematic way.IntroductionRapid changes in Engineering Technology (ET) area require new and improved strategies inengineering technology education 1, 2. The general trend of today’s ET education is movingrapidly to project based learning. More than ever, the educational approach is leaning towardsmeeting the demands of industrial world in terms of skills development and degrees offered. ETcurricula need to adapt to emerging technologies by enabling students to acquire meaningful andrelevant practices. New courses based on novel approaches

Conference Session

Multimedia and Distance Learning

Collection

2011 ASEE Annual Conference & Exposition

Authors

Julie M. Little-Wiles, Purdue University, West Lafayette; Linda L. Naimi, Purdue University

Tagged Divisions

Engineering Technology

than the traditionalcounterparts, mostly due to the necessity of the delivery of the curriculum online. Meanwhiletraditional classes, and even institutions, may be operating their LMS at a much lowerperformance level due to former practices that circumvent the system.MethodThis study was guided by three main questions: 1. What can we do as university administrators and educators to ensure our students are fully engaged in regards to course instruction within a learning management system? 2. How do we enhance a student’s academic experience and provide a sense of community to them – online in a learning management system? 3. What elements need to be present in an online learning management system to benefit students within

Conference Session

TAC/ABET Related Outcome Based Assessment Methods and Models

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard Cliver, Rochester Institute of Technology (CAST); William M. Leonard, Rochester Institute of Technology; Elizabeth Dell, Rochester Institute of Technology; Robert A. Merrill, Rochester Institute of Technology

Tagged Divisions

Engineering Technology

educational objectives and program outcome…”1 which at thesurface does not appear to require anything more than a single page, graphic report. However,the creation of the documented process requires a living document and must be maintainedduring the entire accreditation cycle. The criterion continues to state “The results of theseevaluations of program educational objectives and program outcomes must be used to effectcontinuous improvement of the program through a documented plan.” The goal of thedocumentation process is to effect continuous improvement on the program. The wordscontinuous and improvement are co-requisites and must be used together to make a positivechange to the program. Using the process to “effect continuous improvement” is often

Conference Session

Interdisciplinary Education in Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Stephen R. Fleeman, Rock Valley College

Tagged Divisions

Engineering Technology

asvideos, to be delivered asynchronously, but paced to ensure timely completion. Laboratoryactivities are still conducted to provide students with hands-on experiences and direct interactionwith their professors and other students. The design of alternative-format hybrid classes leadsinherently to a detailed, concise, week-by-week course construction. This paper includes fivesections: (1) Alternative Energy – A Comprehensive Overview, (2) Designing a Curriculum forAssessment, (3) The Pros and Cons of a Hybrid Course Design, (4) The Critical Issues ofEnrollments and Employment, and (5) Conclusions and Future Development. The SES degreeprogram curriculum at Rock Valley College finishes its first two years of delivery in June 2011.1. Alternative

Conference Session

Multimedia and Distance Learning

Collection

2011 ASEE Annual Conference & Exposition

Authors

Julie M. Little-Wiles, Purdue University, West Lafayette; Linda L. Naimi, Purdue University

Tagged Divisions

Engineering Technology

mandated learning management system. This information can be helpful in improving Page 22.171.2training, support and usage of LMSs.MethodFor the purposes of this study, we sought to address three main questions: (1) How do universityfaculty feel about the learning management systems in use at their institution? (2) Do theybelieve they are engaging students with their use of the learning management system? (3) Whatelements do they consider to be crucial or important in a learning management system?Full-time faculty from eight departments and every level of teaching experience from theCollege of Technology Purdue University were invited to participate

Conference Session

Factors Affecting Student Performance

Collection

2011 ASEE Annual Conference & Exposition

Authors

Grant P. Richards, Purdue University, West Lafayette; Helen A. McNally, Purdue University, West Lafayette

Tagged Divisions

Engineering Technology

students; reportingincreased rates of learning and improved comprehension [1, 2]. Additional studies haveexplored the relationship between student learning styles and student retention rates [3].While learning styles data has been routinely published for students in many fields; there is littledata on students in Electrical Engineering Technology programs. This study examines thelearning styles of two groups of incoming students (n = 154) in a four year ElectricalEngineering Technology program. Data for this study was obtained using the Felder-SolomonIndex of Learning Styles (ILS), a freely-available instrument used in the assessment of learningstyles in a range of fields.Students in this study exhibit a distinct preference for visual learning

Conference Session

Student Learning and Teamwork

Collection

2011 ASEE Annual Conference & Exposition

Authors

Fernando Rios-Gutierrez, Georgia Southern University; Rocio Alba-Flores, Georgia Southern University

Tagged Divisions

Engineering Technology

valuable educational experiences, andenhances student performance. This work reviews the robotics course, highlights the role ofmechanical and electrical engineering technology students in several projects, and presents theassessment data showing the positive results of this course.1. Introduction A mobile robot is a system that contains mechanical and electronic parts that can beprogrammed to perform specific functions, responding to sensory inputs under the control of aninternal or external computer. The reasons to use mobile robots as the main topic for the roboticscourse is that in addition to involving the electrical and mechanical engineering disciplines,robotics deals with other sciences and humanities subjects, such as animal and human

Conference Session

Embedded System Design

Collection

2011 ASEE Annual Conference & Exposition

Authors

Warren A. Rosen, Drexel University; Eric Carr, Drexel University

Tagged Divisions

Engineering Technology

, Page 22.194.2programmable logic controllers, and field-programmable gate arrays (FPGAs). The second is toprovide the student with an understanding of the relative suitability of these components inindustrial and technical applications with respect to key selection criteria including cost,performance, power requirements, and ease of implementation. The final objective is tofamiliarize the student with a set of industry-standard tools used to program these devices and tomake estimates of their performance and power requirements.Course ContentThe course is designed for a ten-week (plus final exam) quarter system. The topic schedule isshown in Table 1. Week Topic 1 Introduction to

Conference Session

Graduate Education and Undergraduate Research in ET

Collection

2011 ASEE Annual Conference & Exposition

Authors

Vladimir Genis, Drexel University; Warren Rosen, Drexel University; Eric Carr, Drexel University; Michael G Mauk P.E., Drexel University; Radian G. Belu, Drexel University; Gerry Marekova, Drexel University

Tagged Divisions

Engineering Technology

for technical-managers.Admission requirementsIn addition to the general Drexel graduate admission requirements applicants mustprovide a preliminary proposal of their intended plan of study, which should include ageneral set of objectives, an outline of the courses to be taken, and identification of amaster's project topic to be pursued.To be admitted to the graduate program in Engineering Technology, the following courses mustbe completed at the undergraduate level with a minimum grade of C: 1. Calculus 1 2. Calculus 2 3. Physics 1 (algebra-based) 4. Physics 2 (algebra-based) 5. DC/AC Circuit Analysis 6. Digital Electronics 7. Industrial Materials 8. StatisticsCandidates for the MSET degree must complete a

Conference Session

Green Renewable Energy and Engineering Technology

Collection

2011 ASEE Annual Conference & Exposition

Authors

Radian G. Belu, Drexel University; Irina Nicoleta Ciobanescu Husanu, Drexel University, Goodwin College of Professional Studies, Engineering Technology Program

Tagged Divisions

Engineering Technology

energy conversion systems, as one described in the Figure 1.Engineering and engineering technology programs must offer a relevant and validatedcurriculum that prepares students for post-graduation success. Courses that cover traditional Page 22.201.2subject matter in mathematics, the sciences, materials, engineering economics and related topicsprovide the foundation of knowledge upon which specific skill sets are added depending onemphasis. However, it is critical for engineering technology to transition from theoretical workin the classroom to learning through experimental hand-on activities based on applications oftechnology and design

Conference Session

Manufacturing Capstone and Design Projects

Collection

2011 ASEE Annual Conference & Exposition

Authors

Daniel P. Johnson, Rochester Institute of Technology; Rebecca Dobbs, Rochester Institute of Technology; Changfeng Ge, Rochester Institute of Technology

Tagged Divisions

Engineering Technology

estimated to be a $500B market, and one of the fastest growingindustries in the world. [1] Ongoing globalization of manufacturing, distribution and markets islikely to expand the reach of the problem and add significantly to the challenge companies willface protecting their product and supply chain integrity. A wide range of individuals andenterprises make up the spectrum of exactly who engages in the activity of creating copies,knockoffs, fakes and frauds. As a research field however, the subject of anti-counterfeitingtechnology presents some challenge in that researchers working in the area may be reluctant topublish their findings in order to prevent the dissemination of the technologies to those workingto defeat these new techniques.A wide

Conference Session

Graduate Education and Undergraduate Research in ET

Collection

2011 ASEE Annual Conference & Exposition

Authors

Afsheen Mozammel, Purdue University, Calumet; Lash B. Mapa, Purdue University, Calumet; Susan Scachitti, Purdue University, Calumet

Tagged Divisions

Engineering Technology

processimprovement. Therefore, the project was conducted by following the Six Sigma DMAICmethodology as shown in Figure 1. Page 22.213.3 Figure 1: DMAIC MethodologyDefineDuring the Define phase, the team and its sponsors reached consensus agreement on what theproject was and what it should accomplish. A project charter was developed by the project teamthat defined the business case, problem statement and goal statement. The decision was made tolimit the scope of this project only to the workload of Nursing Shift Directors. A workshop wasconducted to introduce key Lean and Six Sigma principles to the team members.A Voice of the

Conference Session

Computer and InformationTechnology-Related Issues

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jorge Rodriguez, Western Michigan University; Alamgir A. Choudhury, Western Michigan University; Brian Dragone

Tagged Divisions

Engineering Technology

. The cervical region is made up of the vertebrae directlybelow the skull. The vertebrae are labeled from C1 to C7 with C1 being classified as the atlassignifying the topmost vertebrae. The thoracic region contains twelve vertebrae (T1-T12) whilethe lumbar region consists of five vertebrae (L1-L5). The body, or anterior segment, of a vertebrais cylindrical and attaches to the intervertebral discs in order to allow the spine to move. Thevertebral arch is formed by the laminae and pedicles, which, in turn, form the vertebral foramen.The foramen protects and encloses the spinal cord. (National Scoliosis Foundation, 2009) Figure 1. Schematic representation of spine scoliosis.Scoliosis. It is an affliction in which a person’s

Conference Session

Simulation and Virtual Instrumentation

Collection

2011 ASEE Annual Conference & Exposition

Authors

Antonio Francisco Mondragon, Rochester Institute of Technology; Prafull Purohit, Rochester Institute of Technology

Tagged Divisions

Engineering Technology

design with a strong emphasis on hands-on experience for the students.The last module in the sequence is being taught as a capstone course that is geared more towardsindustrial like applications and industrial design environment. This includes project managementtechniques, version control and project sign-off milestones.Based on the above guidelines, we are developing a design experience for the students based ona popular commercial computer architecture such as the ARM processor[1, 2]; the flexibility ofextending this architecture by creating hardware accelerator blocks by the integration of a highdensity FPGA; and by the addition of off-the-shelf sensor components that are interconnectedthrough the popular I2C communications bus.During the