Conference Session

ECE Laboratory Design

Collection

2006 Annual Conference & Exposition

Authors

Fitra Khan, University of Texas-Brownsville; Mahmoud Quweider, University of Texas-Brownsville; Juan Iglesias, University of Texas-Brownsville; Amjad Zaim, University of Texas-Brownsville

Tagged Divisions

Electrical and Computer

networking laboratory (CNL)1. Built around a 24-nodedistributed Beowulf2,3 supercomputer, the main goal of CNL is to enhance the understanding ofparallel computing principles in key courses of the Bachelor of Science in Computer Science(BS-CS) degree, the two-year Associate in Applied Science in Computer Information Systems(AAS-CIS), and the four-year Bachelor of Applied Technology in Computer InformationSystems Technology (BAT-CIST).The strategy has been to use this supercomputer as the main instrument to infuse concepts andprinciples into targeted courses by creating a set of laboratory modules and capstone projects.Such project framework in CS education is strongly emphasized in the ACM/IEEE-CS curriculamodel4. CNL has aided in motivating the

Conference Session

Electrical and Computer Poster Session

Collection

2012 ASEE Annual Conference & Exposition

Authors

James Graham, University of Louisville; Karla Conn Welch, University of Louisville; Jeffrey Lloyd Hieb, University of Louisville; Shamus McNamara, University of Louisville

Tagged Divisions

Electrical and Computer

1and Logic Design, the junior level course Embedded System, and in the senior courses CapstoneDesign and Professional Issues and Current Topics Seminar. Section four discusses somepreliminary critical thinking assessment done in the Professional Issues and Current TopicsSeminar course. Concluding remarks and future plans are discussed in section five2 Critical thinking at the Speed School of EngineeringIn response to the University’s i2a initiative, the Speed School of engineering has developed amulti-leveled critical thinking program that begins with the school’s freshman program:Introduction to Engineering, and goes on to include sophomore, junior, and senior courses, co-opreports, and undergraduate engineering capstone projects. A

Conference Session

Electrical and Computer Division Technical Session 4

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Ramsin Khoshabeh, University of California, San Diego; Vikash Gilja

Tagged Divisions

Electrical and Computer

valuable in [2]. In designingtheir courses on embedded systems, they stressed critical thinking about the system design ratherthan the embedded system specifications. They also structured the material so that a sequence ofexercises would culminate in a design-focused capstone project. We modeled this approach veryclosely in designing our lab and final project structure.In [3], El-Abd conducts a survey of courses utilizing Arduino-based embedded systems. Thesurvey highlights that excellent assessment methods for such experiential courses tend to besome combination of presentations with associated demonstrations. Our course follows thismodality, where student grades are largely based upon their project presentations anddemonstration of their

Conference Session

SDR & Programming in ECE Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Patrick Cutno, Miami University; Chi-Hao Cheng, Miami University; Zhiqiang Wu, Wright State University; Bin Wang, Wright State University; Deng Cao, Central State University

Tagged Divisions

Electrical and Computer

the final project, he/she might choose cover only Lab 6 or Lab 7.Final ProjectStudents are expected to finish one regular lab exercise per week and work on a final project afterfinishing all regular lab exercises. Some regular lab exercises like Lab 6 or Lab 7 might be a two-week project. Students will apply the knowledge they acquired from regular lab projects to thefinal project. The final project meant to be an open-end project. Interested students might chooseto continue their final project after finishing this course and use it as a senior capstone project topicin their senior year. The undergraduate students participating in this curriculum project chose toinvestigate the co-existence of a FM radio station and a digital communication

Conference Session

SDR & Programming in ECE Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Zhiping Zhang, Wright State University; Zhiqiang Wu, Wright State University; Bin Wang, Wright State University

Tagged Divisions

Electrical and Computer

wirelessengineering education”, we have developed and demonstrated the first nationwide example ofevolvable software defined radio (SDR) based laboratories for three existing undergraduatecourses [4][5]. Given the success of this project, NSF has continued to support us through aTransforming Undergraduate Education in Science (TUES) type II project to further develop aseries of SDR based lab modules that serve a wide range of courses from a freshman yearintroductory course to senior year capstone design projects.In this paper, we report an SDR [6]-[11] based signal detection and RF parameter estimationplatform which can be adopted by many courses of electrical and computer engineering curricula.This SDR based platform is equipped with a user-friendly

Conference Session

ABET Accreditation, Assessment and Program Improvement in ECE.

Collection

2013 ASEE Annual Conference & Exposition

Authors

Ahmed S. Khan, DeVry University, Addison, IL; Aminul Karim, DeVry University, Downers Grove, IL; Jennifer A McClain, IEEE

Tagged Divisions

Electrical and Computer

12:37 PM problem Wed, Oct Their standards should be put on the website of IEEE or other organizations so that26. 31, 2012 students could have access for their capstone projects. 10:42 AM Using ASTM 42 as a model. Educators are taking part in developing standards for Wed, Oct27. Additive Manufacturing and educational

Conference Session

ECE Curriculum Innovations

Collection

2006 Annual Conference & Exposition

Authors

Gregory Plett, University of Colorado-Colorado Springs; Rodger Ziemer, University of Colorado-Colorado Springs; Michael Ciletti, University of Colorado-Colorado Springs; R. Dandapani, University of Colordo-Colorado Springs; T. S. Kalkur, University of Colorado-Colorado Springs; Mark Wickert, University of Colorado-Colorado Springs

Tagged Divisions

Electrical and Computer

? Reflective Observation (Watching) Active Experimentation (Doing) Open-ended problems/ laboratories Role playing/ journal writing Capstone/ design undergraduate research Field trips/ simulations Group problem solving/ project reports Motivational examples/ stories Think tanks/ student lectures Interactive discussion/ lecture Problems prepared by students Class/group discussion Homework problems/ guided

Conference Session

ECE Pedagogy and Assessment II

Collection

2009 Annual Conference & Exposition

Authors

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

Tagged Divisions

Electrical and Computer

complex) specifications and complete the project successfully. A collateralbenefit of the laboratory intensive curriculum is that recruiting students becomes a much easiertask, as typical engineering minded students enjoy the creative component in the classroom.The four-year program culminates in the Capstone Design Class, a major design experience thatmixes students of multidisciplinary backgrounds into large teams (7 – 12 students) models thecreation of new company. This class has a heavy technical component, but also addressesentrepreneurship, leadership, etc. The class is described in detail in Section IV.Finally, the input from the faculty was used to determine the concentrations, or areas ofspecialization, the program would offer. Taking

Conference Session

Innovations in ECE Education II

Collection

2009 Annual Conference & Exposition

Authors

Rachid Manseur, State University of New York, Oswego; Adrian Ieta, State University of New York, Oswego

Tagged Divisions

Electrical and Computer

format ≠ Project-based. Projects will be offered as possible at the course, semester, or year level and in partnership with industry (capstone) ≠ Multidisciplinary courses. Many engineering courses will include math and physics material where needed. ≠ Streamlined math and sciences support courses. Where possible, the pre-requisite math and physics courses are revised to include material that directly and more effectively impacts engineering education.Faculty and StaffThe initial planning for the new ECE program calls for five tenure-track faculty membersincluding the chairperson, one secretary, and at least one technician. The faculty is able tosupport a curriculum that includes the

Conference Session

ECE Curriculum Innovations

Collection

2006 Annual Conference & Exposition

Authors

Charles Bunting, Oklahoma State University; Alan Cheville, Oklahoma State University; James West, Oklahoma State University

Tagged Divisions

Electrical and Computer

teamwork and communication, and is not effectively taughtby lecture, cookbook labs, or emphasizing analytical solution techniques. To communicateconcepts and skills requires students to both develop an understanding of concepts and to testthat understanding by applying the concepts and skills. Application serves as formative Page 11.1424.2 1 This work is funded by the National Science Foundation under grants: 0230695 & 0311257.evaluation. VECTOR is a project-based approach to EM in which student teams develop andevaluate their grasp of concepts through application in a complete project design-build-test cycle.The introductory EM

Conference Session

Technology in the ECE Classroom

Collection

2011 ASEE Annual Conference & Exposition

Authors

David Jakob Fritz, Oklahoma State University; Wira Mulia, Oklahoma State University; Sohum Sohoni, Oklahoma State University; Kerri S. Kearney, Oklahoma State University; Mwarumba Mwavita, Oklahoma State University

Tagged Divisions

Electrical and Computer

generally implemented with students working on team or class wide projects. Thesecourses, especially engineering capstone design courses, are used by universities to satisfy ABETcriteria [1]. All but one of the ABET outcomes can be satisfied with design courses, including: 1. An ability to apply knowledge of mathematics, science, and engineering 2. An ability to design and conduct experiments, as well as to analyze and interpret data 3. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability. 4. An ability to function on multidisciplinary teams 5. An

Conference Session

Improvements in ECE Signals and Systems

Collection

2014 ASEE Annual Conference & Exposition

Authors

Cory J. Prust, Milwaukee School of Engineering; Steven Holland, Milwaukee School of Engineering; Richard W. Kelnhofer, Milwaukee School of Engineering

Tagged Divisions

Electrical and Computer

the scope of the studio project or the educational discipline, the design studiomodel may only be found in capstone courses. For example, the instrumentation anddevelopment suites found in electrical engineering laboratories can be costly. This fact placesconstraints on the number of laboratory classrooms that are equipped and hence limits the abilityto provide the studio design based model across a broader range of courses in an electricalengineering curriculum. In the past, this may have not been a significant problem as manystudents entering an electrical engineering program had previous hands-on experience.However, this has changed and the latest generation of students entering electrical programs havea wide variety of experiences and

Conference Session

ECE Poster Session

Collection

2007 Annual Conference & Exposition

Authors

Doug Sterk, Virginia Tech; Tim Thacker, Virginia Tech; Elizabeth Tranter, Virginia Tech; Richard Goff, Virginia Tech; Janis Terpenny, Virginia Tech

Tagged Divisions

Electrical and Computer

unique in their integration intothe Center’s diversity strategic plan, which specifies the goals, commitments, and results for eachpartner campus in the areas of student recruitment and undergraduate program development.Through the CPES Education Program, REU and LSAMP REU participants have theopportunity to apply for short-term travel scholarships, which enable their continuedparticipation in Center-related research during the academic year. This has proved an effectivemechanism for continued engagement of undergraduates in Center programs, and occasionally,for integration of summer research into the student’s undergraduate capstone design project(s).The Center’s consortium format also allows participants from partner universities to establish

Conference Session

Active Learning in ECE

Collection

2014 ASEE Annual Conference & Exposition

Authors

Jay A. Weitzen, University of Massachusetts Lowell; Alan Rux, University of Massachusetts, Lowell; Erin Isabel Webster, University of Massachusetts Lowell

Tagged Divisions

Electrical and Computer

through 3 laboratorywork. Because students can and probably would prefer to work at home, we will change from 2hours of formal lab with the TA to an open laboratory format in which the students bring in theirwork to show their TA and get help if they need it. This addresses the space issues and reducesTA cost issues. We are also experimenting with access via Instant Messenger or Skype sostudents can ask questions of a TA.Goal Number 3: Enhance Open Ended Design and Innovation Experience: Our industrialadvisory board has for years been concerned about both the lack of student exposure to state ofthe art test equipment and test procedures, and the lack of open ended design experiences prior totheir senior capstone project. As the University

Conference Session

Electrical and Computer Division Technical Session 11

Collection

2017 ASEE Annual Conference & Exposition

Authors

Pong P. Chu, Cleveland State University

Tagged Divisions

Electrical and Computer

framework to connect and integrate the individual courses.This goal of the lab framework is to make students aware of the big picture, help them to connectthe individual subjects, and apply and integrate the previous learning in a new context. The labs cover the entire computer engineering curriculum, including freshman engineering,introductory digital systems, advanced digital systems, computer organization, embeddedsystems, hardware-software co-design, and senior capstone design. The complexities andabstraction levels of the experiments and projects gradually grow. The key concepts are repeatedin different courses with increasing sophistication and studied from different aspects andcontexts, such as hardware implementation versus software

Conference Session

Laboratory Development in ECE I

Collection

2012 ASEE Annual Conference & Exposition

Authors

K. Joseph Hass, Bucknell University; Juliana Su, University of Virginia

Tagged Divisions

Electrical and Computer

Page 25.947.3 used to develop applications on a wide variety of microcontrollers, so that student projects could scale upward into research or capstone requirements. • Similarly, the IDE should be portable from small projects to large projects. The tool set should be easily scalable to more ambitious projects than we would encounter in this course. • The IDE should be portable across host operating systems. Our campus laboratories use both Windows and Linux platforms, and student laptops often run Apple’s OS X. Tools that can be used on any of these platforms will be more accessible to students.Our final goal is to teach microcontroller system design using a modern microcontrollerarchitecture. While there is certainly a

Conference Session

ECE Pedagogy and Assessment II

Collection

2008 Annual Conference & Exposition

Authors

Dale Buechler, University of Wisconsin-Platteville

Tagged Divisions

Electrical and Computer

Pedagogical and Andragogical Validity of Capstone Projects,” http://www.asee.org/acPapers/20476.pdf. 4. S. Brookfiel, “Understanding and Facilitating Adult Learning,” San Francisco, CA. Jossey-Bass, 1986. 5. R. Zemke, “In Search of Self-Directed Learners” Training, May 1998. 6. J.E. Stice, “A First Step Toward Improved Teaching,” Engineering Education, 1976 7. W. Ibrahim, R. Morsi, “Online Engineering Education: A Comprehensive Review,” Proceedings of the 2005 ASEE Annual Conference 8. L.D. Feisel, A. J. Rosa, “The role of the laboratory in undergraduate engineering education,” Journal of Engineering Education, vol. 94, No. 1, January 2005. 9. N.Y. Bengiamin, A. Johnson, M. Zidon, D. Moen, D., and D.K. Ludlow, “The

Conference Session

Digital Communications Systems

Collection

2006 Annual Conference & Exposition

Authors

Sven Bilen, Pennsylvania State University

Tagged Divisions

Electrical and Computer

Radio1. Introduction This paper discusses the implementation of a course in software-defined radio (SDR)technology and systems. The course contains significant computer and hands-on project work inorder to implement working SDR systems. Focusing on SDRs provides a method to tie togethermany of the classes in a typical electrical engineering undergraduate’s curriculum: core coursessuch as Circuits and Devices, Signals and Systems, Embedded Microcontrollers, andEngineering Electromagnetics; as well as many of the popular elective courses such asCommunications, Controls, and Signal Processing. Building a functioning SDR system requiressome understanding of all of these topic areas. SDR is an emerging technology that promises to have a

Conference Session

Innovative Instructional Strategies and Curricula in ECE I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Cordelia M. Brown, Purdue University, West Lafayette; Yung-Hsiang Lu, Purdue University

Tagged Divisions

Electrical and Computer

Page 22.1412.1 c American Society for Engineering Education, 2011 Teaming in an Engineering Programming CourseAbstractVarious formats of teaming have been explored in engineering courses. Engineeringcourses with teaming have varied from project oriented to capstone design to courses thattarget first year students. Laboratory oriented courses have also extensively utilizedteaming. The formation of teams has also varied from self-selected to instructor selectedto computer software team formation tool selected. Outside of pair programming, verylittle has been studied or reported on the benefits of students working on programmingassignments together. In an earlier study, a model for integrating teaming in

Conference Session

New ECE Courses

Collection

2014 ASEE Annual Conference & Exposition

Authors

Constance D. Hendrix, USAF Academy; Danial J. Neebel PE, US Air Force Academy; Ryan Jay Silva, U.S. Air Force Academy

Tagged Divisions

Electrical and Computer

(ECE) Department at the United States Air Force Academy created a breadth-first introductory course to give students this view as a starting point in their education. A thorough review of the curriculum revealed primary knowledge areas that the students need early in their education in order to better prepare them for the depth of a rigorous ECE curriculum. This knowledge includes, but is not limited to, Radio Frequency (RF) communications, RADAR and electronic warfare, analog circuits including power generation and distribution and digital circuits and systems. These topics were selected due to their extensive use in senior capstone projects and needs the industry of the program constituents? The solution proposed here is to

Conference Session

ECE Poster Session

Collection

2008 Annual Conference & Exposition

Authors

Thomas Cavicchi, Grove City College

Tagged Divisions

Electrical and Computer

AC 2008-3: INTEGRATION OF PROGRAMMABLE LOGIC CONTROLLERPROGRAMMING EXPERIENCE INTO CONTROL SYSTEMS COURSESThomas Cavicchi, Grove City College Thomas J. Cavicchi received the B. S. degree in electrical engineering from the Massachusetts Institute of Technology, Cambridge, in 1982, and the M. S. and Ph. D. degrees in electrical engineering from University of Illinois, Urbana, in 1984 and 1988, respectively. He is a Professor of Electrical Engineering at Grove City College, Grove City, PA, where he teaches year-long courses on digital communication systems, digital and analog control systems, and the senior labs (including co-teaching the senior capstone design projects). He also has recently taught

Conference Session

ECE Pedagogy and Assessment

Collection

2007 Annual Conference & Exposition

Authors

Fadi Kurdahi, University of California, Irvine; Judy Shoemaker, University of California, Irvine; John LaRue, University of California-Irvine

Tagged Divisions

Electrical and Computer

described in this paper: (1)course-embedded assessment which makes use of assessment results already being collected aspart of regular coursework, and (2) a scoring rubric for assessing program outcomes related tothe required senior design project. Assessment results from 2004-05 indicated that a relativelysmall percentage of students achieve some of the program outcomes. After making adjustmentsto the curriculum, assessment results from 2005-06 indicated that the vast majority of studentsachieved all the program outcomes.BackgroundThe Computer Engineering program resides in the department of Electrical Engineering andComputer Science (EECS) in The Henry Samueli School of Engineering at the University ofCalifornia, Irvine. As of Fall Quarter 2005

Conference Session

Labs & Hands-on Instruction II

Collection

2016 ASEE Annual Conference & Exposition

Authors

Pong P. Chu, Cleveland State University

Tagged Topics

Diversity

Tagged Divisions

Electrical and Computer

themas a cohesive framework to connect and integrate the individual courses. The lab framework willkeep the lecture content intact but update the experiments and projects to make students aware ofthe big picture, help them to relate the individual subjects, and apply and integrate the previouslearning in a new context. The labs spread over all hardware related courses, including freshman engineering,introductory digital systems, advanced digital systems, computer organization, embeddedsystems, hardware-software co-design, and senior capstone design. The complexities andabstraction levels of the experiments and projects gradually grow as students progress throughthe curriculum. The key concepts are repeated in different courses with increasing

Conference Session

Insights for Teaching ECE Courses - Session II

Collection

2019 ASEE Annual Conference & Exposition

Authors

David J. Cheney, University of Florida; Pamela L. Dickrell, University of Florida; Lilianny Virguez, University of Florida

Tagged Divisions

Electrical and Computer

spring semester of 2018,although an on-line version had been available for several semesters prior. Students in theflipped classroom attended a weekly two-hour session on campus where they would have accessto an instructor to answer questions about material presented in the videos, work problems andoffer hands-on learning[11].To facilitate the hands-on learning, each student was required to purchase an Arduino kit[12].The students throughout the course of the semester built the circuits described in the kit’stutorials. At the end of the semester, the students were required to complete a project based onthe Arduino. As a result, they became acquainted with micro-controller hardware and software,as well as, many different peripherals such as LEDs

Conference Session

ECE Curriculum Improvement

Collection

2012 ASEE Annual Conference & Exposition

Authors

Phillip A. Mlsna, Northern Arizona University; Niranjan Venkatraman, Northern Arizona University; Sheryl L. Howard, Northern Arizona University

Tagged Divisions

Electrical and Computer

Engineering and Computer Science at Northern Arizona University, Flagstaff, Ariz.. His areas of interest are systems and control, global learning, and engineering pedagogy.Dr. Sheryl L. Howard, Northern Arizona University Page 25.486.1 c American Society for Engineering Education, 2012 ECE Curriculum Improvement to Incorporate Global LearningI. introductionTraditional Electrical Engineering curricula include courses in the fundamentals of electrical engi-neering, senior elective courses in specialized topics, and a capstone senior project. Labs providestudents with experience in hardware and software

Conference Session

ECE Poster Session

Collection

2006 Annual Conference & Exposition

Authors

Ravel Ammerman, Colorado School of Mines; Pankaj Sen, Colorado School of Mines

Tagged Divisions

Electrical and Computer

engineering undergraduate students are required to take atwo-semester (6-credits) capstone design course sequence. The course sequence represents theculmination of the students’ undergraduate engineering training and education. Student teamsinterested in the power engineering field have the opportunity to select a design project thatcomplements their interest in the energy sector. For example, last year eight students from theelectrical and mechanical specialties investigated the CSM campus energy needs for the year2020 and beyond. Working closely with the campus architect, CSM plant facilities, XcelEnergy, NREL, and the group of power faculty, the students developed a detailed technicalengineering study focusing on the reliability and sustainability

Conference Session

Recruitment, Retention and First-year Programs in ECE

Collection

2013 ASEE Annual Conference & Exposition

Authors

Hector A. Ochoa, The University of Texas at Tyler; Mukul Shirvaikar, University of Texas at Tyler

Tagged Divisions

Electrical and Computer

then significant changes have been made to this course in order to make itmore enjoyable and effective in retaining students. Some of these changes include theestablishment of a departmental template used to prepare the materials that are distributed to thestudents, the inclusion of virtual instruments such as the NI myDAQ and Labview, and thereplacement of PSpice with NI Multisim and Ultiboard. The last two software utilities have madethe fabrication of PCBs easier for the students and faculty. Furthermore, the students are requiredto use the NI myDAQ in some of their laboratories and in the final project which some of themalso include the use of Labview. This paper will present the data collected as a part of the courseoffering over four

Conference Session

New ECE laboratories

Collection

2019 ASEE Annual Conference & Exposition

Authors

Cory J. Prust, Milwaukee School of Engineering

Tagged Divisions

Electrical and Computer

networking courses, elective courses focusing on SDR technology itself, asan enabling technology in senior capstone or research projects, and as a demonstration andmotivational tool supplementing existing courses or laboratories.This paper presents an introductory physical-layer analog and digital communication systemscourse which has been designed to use modern SDR hardware and supporting software tools asan integral part of the course. Because the course prerequisites include only signals and systemsanalysis, Fourier Transform theory, and probability, it is a true first course in communicationsystems. Course topics include fundamental topics such as amplitude and angle modulation aswell as modern communication topics such as orthogonal frequency

Conference Session

Innovations in ECE Education III

Collection

2009 Annual Conference & Exposition

Authors

Suryaprasad Jayadevappa, PES School of Engineering; Ravi Shankar, Florida Atlantic University

Tagged Divisions

Electrical and Computer

students with implementation capability. Courses can be offered from level L3 under the 4 different categories with an option to include courses left out from the previous level L2. Additionally, the first part of the capstone project can be started. We have considered a 2 year capstone project work. The objective of the courses at Level3 is to emphasize on “implementation” of various components in a computer system. Though computer languages will be necessary, we hope that in the near future there will necessary tools that will provide the code once the appropriate design is provided at high level. For example, in a course (L2 level) on OOAD, if we capture the design (functionality

Conference Session

ABET Accreditation, Assessment, and Program Improvement in ECE

Collection

2011 ASEE Annual Conference & Exposition

Authors

Tammie Lea Cumming, New York City College of Technology, CUNY; Iem Heng, New York City College of Technology; Rachel Tsang, New York City College of Technology, CUNY

Tagged Divisions

Electrical and Computer

activities to include a mid-stage level assessment within the CET full assessment cycle of activities; and 9. Continuing to consult with the Advisory Board members and inviting them to view student capstone project presentation. This invitation was well-received during Fall 2009, and the insight provided by Advisory Committee members was helpful to the program.The CET department and CET faculty are confident that coordination with the Assessment andInstitutional Research (AIR) office, and feedback from our program constituents, will make theprogram more effective and efficient resulting in a superior learning experience for our students.6. AcknowledgementThe authors appreciate greatly the support from the faculty in the