their presentation. In addition, we presentand analyze the textbooks used, hands-on exercises including projects and laboratory exercises.The analysis will help us reflect on the design of wireless education in both the electricalengineering and the computer science departments. We believe this information will be useful toour colleagues in other universities and colleges as well.Wireless Communications and Mobile Computing Forman and Zahorjan [3] stated “Mobile computing – the use of a portable computer capable ofwireless communication – will very likely revolutionize the way we use computers.” Mobilecomputing requires the support of wireless communication networks. Wireless networkscommunicate by modulated radio frequency (RF) or infra-red
communication skills forengineers is a part of this program that has been enthusiastically endorsed by the engineeringfaculty.IntroductionRecent literature reiterates the importance of information literacy for engineering students andthe role of librarians in promoting that process 1,2. The challenge is to develop a program thatdelivers the instruction when the students need it, and in a manner that catches their attention,allows them to practice new skills, and appeals to a variety of learning styles. The use of lecturesas the primary instructional vehicle has become increasingly devalued, as reflected in studentevaluations of bibliographic instruction as well as studies by learning theorists 3,4. Successfulcombinations of lecture/demonstrations with
, provide a reflection time for the teaching experience, and acquire feedback from the fellows to improve the program design for future cohorts of fellows. These sessions are designed to give the GTFs assistance in any activity related to the classroom. GTFs are also responsible for preparing and presenting lessons on effective instructional strategies. Some of the topics have included: process skills, constructivism, cooperative learning, learning styles, inquiry, and effective questioning strategies. 4. Evaluation and Assessment: Extensive evaluation tools such as interviews of GTFs, partner teachers, and students, pre and post content assessments of
prerequisite requirements so that they are adequately understood andachieved by all program faculty members. These types of review activities are also in place atother institutions 4.Peer Evaluation reports for each course contain a portfolio typically containing the followinginformation: a current syllabus including student-based outcomes, copies of materials providedto students and examinations, selected examples of graded student work and the student gradedistribution, as well as other material or discussion deemed important by the instructor. Inaddition, student self-evaluation and faculty evaluation of achieving course outcomes arepresented. Faculty often use these report to present reflective criticisms of their ownperformance, and invite other
captures the time domain data of the vibration), the values of low order harmonicfrequencies can be determined via Fourier transformation of the corresponding timedomain data, without the need for any special excitation device. After completing thiskind of experiments, students should be able to convert time-domain data into frequency-domain by means of algorithms such as FFT (Fast Fourier Transform) which can befound in Excel, and be able to interpret the frequency-domain representation for themodes of vibrations.Frequency Analysis Based on Impulse responseIn the field of control system engineering and signal processing, it is a well-known factthat [4] a system output response completely reflects its dynamic properties whensubjected to an impulse
secondary track.Successful completion of course work in either track would provide the same number of collegecredit hours.The 2003 EDGE Program was advertised through posters, mail-outs, press releases, and visits tolocal high school classes. Although a great deal of interest had been consistently expressed inthe program, that interest was not reflected by the number of applications received. For 2004 we Page 10.90.1Proceedings of the 2005 American Society for Engineering Education Annual Conference & Exposition 1Copyright © 2005, American Society for Engineering Educationshifted our marketing emphasis from high school classes, teachers, and
a singlesemester. This reduction, along with more condensed introductory courses (in the case ofelectrical engineering) in areas such as circuit theory and electromagnetism, has taken place inorder to make room for an increasing number of advanced elective courses. The proliferation ofthese higher-level courses reflects the ever-expanding field of engineering4-5.One result of this shortened introduction is that many courses now cover only computerprogramming (C, C++, Fortran, etc.) and perhaps a short introduction to a design tool relevant tothe particular field. The attempt is then made to teach the other subjects mentioned above in acomputer programming context.Iowa State's EE185 ClassFor the past few years, freshmen in electrical
interpreting evidence todetermine how well performance matches established learning expectations [1]. In engineering,learning-outcome assessment usually occurs during the course of teaching, with studentperformance on homework assignments, examinations, and projects providing evidence of thelevel of learning. The instructor interprets this evidence to judge a student’s learning progressand then assigns a course grade that reflects this judgment. Although this assessment processcould act as an incentive for learning, its primary purpose is to measure the level of a student’slearning, not reinforce learning. Page 10.507.1 “Proceedings of the 2005
thequarter.Starting from the third week, SHDL was used extensively to describe various CPU architectures,memory controllers, bus arbiters, and arithmetic algorithms. It served as an effective tool toillustrate the timing details for various operations and how they can be changed for betterperformance. Although students were improving their SHDL skills throughout the course, thelanguage was never a hindrance in the flow of the course and did not overwhelm the main focus.Overall, the students had a very positive experience with using the language, as reflected in ananonymous survey that was taken on the 9th week. Basically, the students were asked (1) ifSHDL was readily learned, and (2) if SHDL helped them in learning the material. A total of 36students, who
members.While those outside our field may not have a clear conception of what industrial engineering is,our programs show strong consensus about what courses should be included in an industrialengineering program. In fact, my choice to record courses may overemphasize the differencesamong programs. I believe that recording topics covered, however they are packaged amongcourses, would have shown more consensus; such an approach would have involved much morework.Also not reflected in the information I recorded is variation in the year in which students areadvised to take different material. For example, some programs recommend leaving engineeringscience courses (such as thermodynamics) until the senior year, presumably because noindustrial engineering
members.While those outside our field may not have a clear conception of what industrial engineering is,our programs show strong consensus about what courses should be included in an industrialengineering program. In fact, my choice to record courses may overemphasize the differencesamong programs. I believe that recording topics covered, however they are packaged amongcourses, would have shown more consensus; such an approach would have involved much morework.Also not reflected in the information I recorded is variation in the year in which students areadvised to take different material. For example, some programs recommend leaving engineeringscience courses (such as thermodynamics) until the senior year, presumably because noindustrial engineering
used to gauge student’s learningprogress along with other techniques.AQM involves a) Active listening, b) Maintaining a Portfolio that reflect student work in total,c) Interactive learning, d) Intro to concepts through project implementation, d) Cooperativecollaborative learning 4 through team approach, and e) Assessing students at the micro levelusing what we call a “ten minute” quiz that is given at beginning of every lecture hour to keepthe students in a continuous study and inquiry mode.The AQM was initiated in our department back in fall 1994 with stream lining of theprerequisites to our circuit courses. College Algebra was changed to a prerequisite rather than apre/co requisite. This change helped the students in applying algebra to
technical aspects of organizing and composing research papers • Develop sentence structure and writing skills • Practice critical reading • Become familiar with the resources in the libraryThe emergence of the ESL course for TAs helped crystallize three research questionssurrounding the screening exam: 1. How accurately would the first screening-exam administration reflect individual TAs’ abilities to grade technical written English? 2. How much (if any) would TAs’ screening-exam scores improve on the second screening-exam administration? 3. Would the ESL course factor into the scores (improved or not) from the second exam administration?Screening Exam Results and DiscussionThe average
, Bertinoro, Italy, July 3-7, 2002.Clouse, R. W. & Goodin, T. L. (2001-2002). Entrepreneurs in action!: A web case model. Journal of Educational Technology Systems, 30 (3), 311-321.Clouse, R. W. & Goodin, T. L. (2001). Entrepreneurship Education: Reflecting on the Present, Forecasting the Future. Nashville, TN: Forum for Entrepreneurship Education. (Available online at http://entrepreneurship.vanderbilt.edu) Page 10.576.6Proceedings of the 2005 American Society for Engineering Education Annual Conference & Exposition Copyright © 2005, American Society for Engineering EducationClouse, R. W. & Goodin
order to have a self-sustainingbusiness incubator however, some literature suggest that there is a trend for smaller profitableincubators6. The responses from the benchmarked facilities were interesting and varied, but Page 10.580.8tended to reflect the university administration’s view on the specific purpose of the university “Proceedings of the 2005 American Society for Engineering Education Annual Conference & Exposition Copyright © 2005, American Society for Engineering Education”managed business incubator. This point reflects on the importance of having a strategicalignment between the business incubator
signal-processing techniques. Oftentimes generalized functions are implemented in a casualway and not reflecting the need to establish results on a mathematical platform. A few ofthe important connections between the applications and mathematical foundations areincluded together with several illustrations.I. IntroductionThe rapid descent test functions with the inclusion of a few very needed principals aregiven in section 2. It also gives a brief introduction of tempered distributions includingsome very important theorems. The paper then moves into section 3 giving thefundamentals of a discrete Fourier transform pair. This is then embedded into a tempereddistribution setting. Section 4 gives an introduction to windowing signal data and
be usedas a tool for evaluating PEO’s but the results do not constitute a proof that the programPEO’s are being achieved. Visitors and recruiters may speak of few graduates, and mayoffer general comments on the program, but their input cannot be regarded as concreteevidence that the educational objectives of the program are be achieved as expected.Small institutions should not abandon using these tools but should realize that input fromthese evaluators is based on limited experience and cannot be generalized. Smallinstitutions may have fewer recruiters than their larger counterpart, and these recruiterscan be local and do not reflect a national opinion of the graduates.Bulletin boards are often not accurate and, at Lafayette’s ECE Department
quality of modern education, increase student interest and participation, andexplore avenues for optimizing distant-learning delivery models.This research focuses on modeling of an interactive online educational infrastructure (OEI) byintroducing four major modules forming this OEI: a) knowledge management (KM) module, b) client/server applications (CSA) module, c) group information sharing and collaboration (GISC) module, and d) an interactive workflow (IW) module.The architectures, processes and procedures in support of each of these modules reflect differentfeatures of the online interactive enterprise and are used for assessment of the OEI outcomes.Proposed model has been tested during the five-year period of offering
that the course could teach teamwork skills. Unfortunately,recent implementations of the course haven’t quite addressed this goal successfully. Certainly,the students work in groups as they complete various lab procedures. However, instructors havenot taught students to organize their teams or perform specific roles in their team. Reflecting theintrinsically interdisciplinary nature of the field of semiconducting polymers, students from themajors of chemistry, physics, materials science, computer engineering and electrical engineeringhave taken the Polymer Electronics Lab course in the last few years. Students from the differentmajors do gain the opportunity to interact, discuss, and learn from each other during the lab.The course does
Copyright 2005, American Society for Engineering Education”ConstructivismConstructivism is a theory of learning founded on the premise that, by reflecting on ourexperiences, we construct our own understanding of the world. Each of us generates our own"rules" and "mental models," that we use to make sense of our experiences. Learning, therefore,is simply the process of adjusting (reconstruct) our mental models to accommodate newexperiences.There are several guiding principles of constructivism: 1. Learning is a search for meaning. Therefore, learning must start with the issues around which students are actively trying to construct meaning. 2. Meaning requires understanding wholes as well as parts. And parts must be understood in the
competitiveness and productivity in manufacturing. Since projects are often unique,engineers from multiple disciplines need to work closely together in order to design, integrate,and develop robust automated manufacturing systems. The success of the system integrationindustry will increase this country’s production efficiency. Needed is a better understanding ofhow engineers develop expertise in system integration and high quality educational curricula thatwill equip students with the necessary skill sets.ACKNOWLEDGEMENTSThis material was supported by a National Science Foundation grant no. 0238269. Anyopinions, findings, and conclusions or recommendations expressed in this material are those ofthe author and do not necessarily reflect the views of the
several enabling technologies that makes manufacturing atthe nanoscale possible today. It is absolutely essential in the manufacture of integratedcircuits as well as a variety of surface coating applications.We benefit from gas plasmas everyday. Gas plasmas produce the visible light in ouruniverse, including our sun. In our offices, fluorescent lighting is based on producing agas plasma within a coated glass tube. We seldom think of the variety of materialscoated by a plasma deposition process, e.g. our eyeglasses with anti-reflective coatings.Gas plasmas are briefly mentioned in chemistry courses, but students enrolling inengineering technology programs lack an understanding of gas plasmas. The laboratoryactivities described in this paper are
engineers.They reflect the need and the opportunity to raise the bar in all three dimensions of thecivil engineering BOK—the what, the how, and the who.Although civil engineering faculty and practitioners must be instrumental in advocatingand teaching the BOK necessary for 21st century professional practice, civil engineeringstudents ultimately have the primary responsibility for their own education. Studentsmust be committed to excellence in their education. Success in the study and eventualpractice of civil engineering is likely to be enhanced if a person’s aptitudes, interests, andaspirations resonate with the unique and special attributes of civil engineering.The Next StepsWhile the First Edition of the BOK is now complete, updates are likely and
within their chosen concentration.From 1997 through 1999, the retention rate for the ET Department at MTSU dropped a total of18%, while recruitment into the department dropped 20%, reflecting a nationwide trend in ETenrollment. In 2000, the first Solar Vehicle team was formed at MTSU. The project receivedconsiderable attention from ET students at the time, and after the competition, the vehicle wasused as a recruitment tool for the department. In 2003, a Moon Buggy project was added toaccommodate the growing interest in student engineering projects, followed by a Formula SAEproject in 2004.Since the formation of these projects, the enrollment rates for the ET department have improveddramatically as shown in Figure 2. Exposing prospective
American Society for Engineering Educations Annual Conference & Exposition Copyright 2005, American Society for Engineering Education”References1. R.M. Felder, “The Intellectual Development of Science and Engineering Students. Part 1: Models and Changes,” Journal of Engineering Education, 93(4), 269-277 (Oct 2004).2. B.M. Kroll, Teaching Hearts and Minds: College Students Reflect on the Vietnam War in Literature, Carbondale, IL: Southern Illinois University Press (1992).3. D. Vernier, “Data Collection with Computers and Handhelds,” Catalog for Vernier Software & Technology, 2- 5 (2004).4. National Science Education Standards, National Research Council, National Academy Press, Washington DC
May 2003 resulted in not a reduction of nine “pit” musicians, as the theaters hadproposed, but a slash of six. To fill in the void of the missing pit musicians, virtualmusicians are used.There is overwhelming empirical evidence that link engineering and music, but this is thefirst time in history where engineering innovations may render musicians obsolete. Infact, “virtual orchestras” may be the wave of the future. A pit musician costs around$88,000 a year. The small reduction mentioned above, substituting six pit musicians withvirtual musicians, will save a theater over $500,000 a year. That figure reflects merelythe monetary amount saved; not included are other intangibles, such as the stress ofhuman problems that may occur with the
infaculty-mentored research projects for six or eight weeks on each campus and preparedoral or poster presentations for the end of the program and at the annual NC-LSAMPUndergraduate Research Conference.The North Carolina Louis Stokes Alliance was awarded the Bridge to the Doctoratesupplemental grant to support graduate students in their pursuit of a Masters degree in aSTEM field. North Carolina A&T State University has been designated as the leadinstitution for Cohort 1 of this project. Ten students have been awarded for 2003 through2005.Project OutcomesTotal minority STEM enrollment has grown since the baseline year from 4,632 in fall1994 to 6,230 students in fall 2000, reflecting an increase of approximately 35%.Since the baseline year
journals and conferences using online reviewinclude IEEE Transactions, IEEE conferences, ASME Journals, ASME conferences, ASEEconferences, IMAPS conferences, and NSF Fastlane System. The percentage of facultymembers who conduct online reviews for journals reflects the number of journals that provideweb-based review services and require the reviewers to do online reviews. As more journalsswitch from traditional hardcopy-based submission and review practice to more efficient onlinereview practice, faculty members who conduct online reviews will grow rapidly.The survey results show that the use of online tools for research is not as common as that forteaching. While many factors may have attributed to this result, one relevant factor may be
, teaching was done with more confidence and thought, much attributable to the practice classes during ETW. Video tapes of classes were also made to allow after class assessment and reflection of what the students saw during class. There is ongoing thought of how much of the ExCEEd model to adopt and how will it work out for the particular instance of each class now being taught. Class and the job of being a professor are all considered in the realm that focus is on student learning. Thus, at different times, for different classes, different aspects of ExCEEd have been used in class. The general opinion is that teaching and student learning has improved significantly due to ETW attendance. The reaction of students has been positive
a written status report, everytwo weeks: 1. What issues are you having with the technical aspects of the project? 2. What logistical issues (ordering problems, scheduling, software issues, etc.) are you facing? 3. What issues in team dynamics have arisen since our last meeting and how are you dealing with them? 4. What do you think the highest priority task is during the next two weeks? 5. What is the largest barrier to accomplishing that task?These questions resemble the journaling activities used at Clemson University [24] andthe University of Texas at Austin [25] in which students write reflective piecessummarizing key concepts, discuss concerns, and (at UT Austin) create an analogy forthe