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Collection
1996 Annual Conference
Authors
Bryan Pfaffenberger; Susan Carlson-Skalak; John P. O'Connell; Timothy P. Scott; Mark A. Shields
they could communi- examined the varied careers that one can pursue cate with a variety of audiences: fellow within engineering, and devoted some thought to technical experts, technicians, users, corporate choosing a major that matches what they have "bean-counters," technical managers, and non- learned about themselves. technical executives. Professional Development in TCC 101: • Small Group Dynamics Students were first Experiences asked to work in groups without guidance, and then to reflect on what went right--and whatTo foster these
Collection
1996 Annual Conference
Authors
Steve Howell; Ken Collier; Debra Larson; Jerry Hatfield
computer controls,delivery height requirements, material flow rate and material characteristics, and pre-sorting. Good communications were facilitated by good planning and scheduling. Toencourage the use of these tools, the students were assigned a scheduling assignment priorto their implementation of the project plan.The Mechanized Sorting System The Engineering Design III interdisciplinary student teams not only worked on thesorting mechanism, but were also responsible for the coordination of effort with theircounterpart Sophomore teams and the communication with the customer. The MRFspecification/proposal document reflects this type of integrative management. Thesophomores provided to their counterpart junior team, a transfer facility
Collection
1996 Annual Conference
Authors
Vijay K. Madisetti; James H. Aylor; David P. Wilsey; Anthony J. Gadient
Prototyping of Application-Specific Signal Processors (RASSP) program, focused onimproving the process by which embedded digital systems are designed. The technologies being developed bythe RASSP program will be instrumental in enabling the cost-effective development of the smart embeddeddigital systems desired today. Page 1.27.1 1996 ASEE Annual Conference Proceedings To ensure the successful transfer of RASSP program technologies in the longer-term, these technologiesneed to be reflected in the curricula of our academic institutions. Today, digital system design education isfocused on a limited
Collection
1996 Annual Conference
Authors
Craig Gunn
places them in career paths that will make them bothsuccessful and happy, the program has been worthwhile. As the scavenger hunt is under way, students are also collecting information on engineering, theirimpressions of it. “The Engineer as Hero” assignment forces participants to look at the real world and seethe engineer’s place in it. Students collect as much data as possible to form as picture of what they see in Page 1.53.3 ?@xti; 1996 ASEE Annual Conference Proceedings ‘O.+,yylllc:the real world that reflects their impressions of how the world looks at
Collection
1996 Annual Conference
Authors
Essaid Bouktache; Chandra R. Sekhar; Omer Farook
since the system uses nonlinear frequency mapping, andmust respond to red-time situations, where, for example, a spoken word into the system must be heard backaltered, but understandable, reflecting the change in its frequency spectrum. The challenge remains in the choice Page 1.55.1 $&”-: } 1996 ASEE Annual Conference Proceedings ‘..+,p+$ .of related parameters such as establishing the optimum time window needed to process the speech signal, and thedegree of spectrum alteration which can be done without severely affecting the
Collection
1996 Annual Conference
Authors
Emil C. Neu
. 3These notes in Word were displayed and annotated on a dry erase board. Word instead of a hypercard facilitywas used for the display to avoid involving another piece of software and to take advantage of the continuousscrolling capability of Word. In addition, Word can be employed to randomly access material in response tostudent reaction. To keep costs down, the display was in black and white, instead of color. In addition, this facilitatedmaking the annotations in color. Students were supplied with copies of the displayed notes, which they wereencouraged to customize with their own comments. This was facilitated by darkening only the part of roomwith the dry erase board. Since a non-reflective board was not available, students were asked
Collection
1996 Annual Conference
Authors
Philip J. Morris; Martin L. Brady; Lyle N. Long; Ali Haghighat
for classroom use; and through the use of high-technology classrooms and laboratories.Course DevelopmentAs an initial undertaking we have developed and taught three new lecture courses and have a offered aseminar series in high performance computing. The courses are described here. The course specification * %lpported by NSF Grant EEC-9420592 Page 1.132.1 $iiia-’ > 1996 ASEE Annual Conference Proceedings ‘..qllllllc..’ .and numbering reflects the department of the instructor who introduced the course and a
Collection
1996 Annual Conference
Authors
James Moller; D. Lee
were quite satisfied when the images they had fashionedon the computer monitor became products. They were keenly interested in seeing their products perform. By going through an entire design-to-production process, the teams were able to reflect on their designs.We focused on a single component product because of the many of detailed analyses which could be done andthe breadth of product/process considerations which could be made. Time constraints did not allow a detailedconsideration of machining of slots in the plate. The clevis shape was treated as given. Among the prima~problems for attaining a good product-to-plate fit was the result of plastic shrinkage and warpage.Compensation for these was beyond the course’ scope. However
Collection
1996 Annual Conference
Authors
III, Thomas K. Miller; Catherine E. Brawner
the leadership opportunity.Students who were not senior leaders were less positive about their leadership ability with a substantial minority(19%) not agreeing that their senior leader was effective. These results are certainly indicative of the differentskills and abilities that seniors bring into the class and some variation in the skill levels is to be expected andshould not be viewed as a negative reflection on the program’s effectiveness. Students seem to be well prepared for the work that they do after graduation or in co-op programs.Most students do not go onto work for small entrepreneurial companies for their first jobs, but find applicationfor the skills that they learned or honed in Entrepreneurship in their workgroups
Collection
1996 Annual Conference
Authors
Winston F. Erevelles
attack, Gantt chart (old and revised), a brief description ofprocedures, and accurate and complete documentation of work doneGrading: Project work accounts for 25% of the overall course grade. The project grade is based upon thefollowing factors: complexity of the project; overall quality of the work to include all steps pertaining to thedesign, manufacture, and level of systems integration; the planning and implementation of projects; and thequality of the documentation and final presentations. Final presentations and project demonstrations arevideotaped to assist in grading process. Peer grading on a confidential basis is factored into the term projectgrade to help reflect the work (equitable load sharing and the quality of the work
Collection
1996 Annual Conference
Authors
Sheryl A. Sorby; Beverly J. Baartmans
. 1 .— .. .. Reflection of Objects. Cross-Sections of Solids. Surfaces and Solids of Revolution Intersection of Solids. As a part of this curriculum development, computer exercises were developed which utilize I-DEASsoftware as a visualization tool. The exercises were written to adhere closely to the topics covered in the class.PROJECT ASSESSMENT Preliminary assessment of the project indicates promising results. As a part of the final exam for thecourse, the students were given the same PSVT:R exam that they had taken during freshman orientation. Thescores on
Collection
1996 Annual Conference
Authors
Mohamed I. Dessouky; Murali Krishnamurthi
” quadrant allow “converges” to apply the basic facts and concepts to solve simple problems, andproblems from the “What if’ quadrant help “accommodators” reflect on other possible scenarios and synthesizewhat they learned. Along with the homework exercises, the course topics have been augmented with appropriate laboratoryexperiments and design exercises to accommodate different learning styles. The laboratory experiments include:(1) Conceptual Design Exercise, (2) Material Conversion Experiment, (3) Quality Control Experiment, and(4) Human Factors Experiment. After completing each laboratory experiment, students are required to answer anumber of questions related to the laboratory experiment which once again cover the four quadrants of
Collection
1996 Annual Conference
Authors
Kelin Kuhn
1996 ASEE Annual Conference Proceedings Table I - Student projects in EE 488 in chronological order from 1991-6Paul Porath, Optimizing the Collimation of a Diode LaserSuzanne DeBacke and Stephanie La, Transmission and Reflection HolographyScott Karlson and Edward Smith, Characterization of a pulsed Nd:YAGRichard Tolmie, Scattering in Random MediaJeanette Clark, Fiber-optic Communication LinkDeanne McDowall and Jamie Brunner, Characterization of a Carbon Dioxide Laser,Ron Newton, Scott Garat, Dan Nelson, Ken Wong, Jeff Fasen and Thom Johnson, Two-color fiber-optic communication linkWeston Roth, Design and Construction of ND filters, Surface Plasmon ResonanceRob Olsen, Greg Bray, Marc Daoura and Aaron Spangler, A Laser
Collection
1996 Annual Conference
Authors
W. M. Waite; Rommel Simpson
statementsdescribing the strengths of the course and statements describing areas needing improvement. The onlyconstraint was that each group had to unanimously agree on each of the statements they reported. Afterabout half the period, the statements were voted on by the entire class. We show the results of that vote asFigure 6. Although there were 93 students registered for the course, only 51 were present that day. The Page 1.465.9attendance figure was typical, and may reflect a division of labor within study groups. ----- -- $$iii’} 1996 ASEE Annual Conference Proceedings
Collection
1996 Annual Conference
Authors
Harold L. Broberg
resistance is reflected in the coefficient ofthe middle term. The left side of the Matlab commands produce vectors (lists) of the time axis, t, they axis(variables selected are yover, ycrit and yunder to refer to over, critical, and underdamping). The x variable onthe lefl side produces the state response of the transfer fimction which is not of interest here. [yover, xl, t]=step( [le8] , [ 1 5 e 4 le8] ,t) ; [ycrit, x2, t]=step( [le8] , [1 2e4 le8] ,t) ; [yunder, x3, t]=step( [le8] , [1 le4 le8] ,t) ; Next Plot and label the graph for the three outputs: The plot command allows the user to plot as many graphs as needed as
Collection
1996 Annual Conference
Authors
William D. Stanley; Alok Verma
purpose. The ODU engineering technology salaries and the EMC salaries are compared on a year-by-year basis inFigure 1. As most national studies show, engineering technology graduates tend to start at lower salaries than theirengineering colleagues, and this effect is definitely evident. One qualifier here is that most ODU ET graduates tendto stay in the Southeast where salaries are generally lower, while the EMC data reflect values from many highersalaried areas, e.g. California. 80000 - 70000 60000 50000 40000 30000 Years of Employment
Collection
1996 Annual Conference
Authors
Ph.D., Robert D. Borchelt
other on several specificperformance factors, and they know this from the beginning of the class, so team participation is often higherthan in typical project work. Nonetheless, despite the best efforts of the team leadership and peers, there arealways some students who don’t “pull their own load.” There are also always some students who carry morethan their “fair share” of the load. This is realistic though, and not unexpected. The student peer evaluationstend to reflect this well, and it is a component of the grading policy. The PLC topics (Figure 2) are presented in this class in order to form the basis for the control structurethat is normally used in the project. The students are exposed to PLC’s in earlier required classes, but
Collection
1996 Annual Conference
Authors
Major (Dr.) Robert F. Mills; Major (Dr.) Gerald C. Gerace; Dr. Byron M. Welsh; Dr. Bruce W. Suter; Dr. Andrew J. Terzuoli; Captain (Dr.) Richard A. Raines
, the US Air Force imposes extremely high standards and expectations on our programs. Thus most of our masters degree programs are approximately 72 quarter hours long of which 12 hours are devoted solely to thesis research. This gives our students much more breadth and depth than is normally expected for a masters degree. This will become apparent in section III where we discuss curriculum details. The instructional system development (ISD) model shown in figure 1 is the basis for ensuring our curricula is responsive to the needs of the Air Force and other employers of our graduates. (See references [1], [2], [3] for more details.) Formal and informal procedures are in place to ensure our curricula is continually updated to reflect
Collection
1996 Annual Conference
Authors
Roman Z. Morawski; Jerzy Woznicki; Andrzej Krasniewski
engineering);+ adaptability, which means that adjustments in curricula, reflecting advances in science and technology, and trends on the labor market, can easily be performed;+ existence of mechanisms that promote good teaching and good learning; + compatibility of the degrees and curricula with international standards.It should be observed that, to reach some of these characteristics, a significant investment is needed. Advances in some disciplines,such as information technology, are so rapid that just adapting the student laboratories to these changes requires tremendousamount of work and huge expenses. Other kinds of problems are associated with an extension of flexibility of the system. Forexample, with a large course offer, a significant
Collection
1996 Annual Conference
Authors
John A. Fillo
had only a bachelor’s degree with very littlescience beyond the sophomore year. To create the needed advanced technology to wage the war, Ph.D’s inscience were enlisted to work on undersea warfare technology, radar and nuclear weapons. Then there wasSputnik. Both World War II and Sputnik served as wake-up-calls to the universities to do something aboutengineering education, that is, a shift in the education of the engineering student to emphasize the scienceunderlying engineering. Not only courses, but research as well, reflected this change. Beginning in the 1970s through to the present, there was the realization or perception that America wasfalling behind Japan and other nations in manufacturing and in general, in relating science
Collection
1996 Annual Conference
Authors
W.E. Bair; P. Ng; D.M. Halsmer
;, :4 } 1996 ASEE Annual Conference Proceedings ‘..qllllc,? . General Spacecraft Model In order to investigate the general principles which govern the motion of an arbitrarily shaped spinningspacecraft under thrust, it is advantageous to design a spacecraft model which can be easily modified to reflect awide range of inertia characteristics. The current design is based on the principle that the inertias of any arbi-trarily shaped body can be duplicated by the appropriate placement of eight specified corner masses of a rectan-gular parallelepipeds. Figure 1 illustrates this concept, and shows that these
Collection
1996 Annual Conference
Authors
Mario G. Beruvides
? -.Implications on Engineering Management The implications on engineering management of what was covered in the previous section are profound.We as a profession have noted the identity crisis engineering management is faced with. This is reflected in ourmearch and in our instruction. We may debate the values of different educational techniques, but ultimately it is,our mearch that drives our knowledge base. If we wish to influence our students (by our teaching) we mustexcite them (make them think) with our research Page 1.394.3
Collection
1996 Annual Conference
Authors
Ingrid H. Soudek
their research or design projects, they are introduced to thelarger context of science and technology through readings and discussions in the course. They are required toconsider that broader view when choosing the kind of project and specific topic on which they will focus theirwork. They learn to be more reflective about their chosen profession and senior project by asking questions abouttheunderlying assumption in our culture that all science and technology is progress in and of itself. The courseencourages the students to view engineering from different perspectives, for example, from history, sociology,anthropology, psychology, comparative literature and philosophy. The concept of “progress” is examined in thecontext of western culture
Collection
1996 Annual Conference
Authors
David F. Ollis; Ann Brown
writers often do better work when their readings reflect their special interests. Yet anthologies of such readings are rare for students in the natural sciences.(2) The second reason arises from our desire to minimize the “two cultures” mentality, so evident in both engineering and humanities Page 1.435.2 ?@2&~ 1996 ASEE Annual Conference Proceedings ‘JHJ3: Icurricula. In Writing About Science(3), Elizabeth C
Collection
1996 Annual Conference
Authors
Stephen J. Ressler; Thomas Lenox
homework called the Special Problem (SP), which was assigned to the students every two to four lessons. He also changed the character of the design projects, making them more open-ended and more conceptually challenging. The impact of this change is reflected in the abrupt upward shift of the curve for Term 96-1. Though this result is preliminary (the term is in still progress, as of this writing), it clearly suggests that the course director’s changes have had the desired effect. Student preparation for class is once again at an appropriate level. The interim time survey graph for Term 96-1 is shown in Figure 5. CONCLUSION The EM364A case study illustrates the effective use of the time survey as a course development
Collection
1996 Annual Conference
Authors
T.C. Young; S.E. Powers; Norbert L. Ackermann; Anthony G. Collins
ago1. Accompanying and reflecting this growth of interest and evolution of concern hasbeen a parallel development of the scope of the discipline called environmental engineering. As Ray2 noted,"In the not so distant past, engineering students interested in the environment studied 'sanitary engineering'"and their proficiency was likely to be restricted to water and wastewater treatment. The Association ofEnvironmental Engineering Professors, however, has for some time considered environmental engineering toencompass a broader range of disciplines, including: water and wastewater engineering, air pollution controlengineering, solid waste engineering, industrial hygiene engineering, radiological health engineering,environmental impact assessment
Collection
1996 Annual Conference
Authors
Narciso F. Macia
beginning of the lab. This motivates the students to dosome preparatory/reflective work before they come to the lab. Often, they do not have all theanswers. This approach serves several purposes. Students develop an appreciation for the manycomponents necessary for a closed-loop control; they also recognize that closing a loop is not aseasy as they may have thought. Often students need to recognize that they do not know all of thefactors that affect the current problem. Many questions are open-ended. The first lab in this second category is presented as a problem given to a controlsengineer: an animation/special effects company wants a drive system that will move the jaw of aplastic figure proportionally to an electrical command signal. The
Collection
1996 Annual Conference
Authors
Yung-Nien Yang; Julius P. Wong; Anup Kumar; William G. Sullivan; Herman R Leep; Hamid R. Parsaei; Gerald J. Thuesen
protocol stack, e-mailprogram, FTP client, Telnet terminal emuiator, Archie client, Gopher client, WWW browser, news reader,and client and server of TALK protocol. I’his three-disk package is known as the ULNET, which alsoincludes an audio file player, viewer for GE and WE(3 files, movie player, and movie viewer. ‘“~he LJLNEI’collection will be revised periodically to reflect the current status of the Internet connection and usage. The study supporting materials include a detailed course syllabus and study plan, personalinformation manager, and package on how to contact the instructor. The personal information manager willinclude a calendar, address book, and “to do” Iist. The caiendar wili be used to remind the student of itemssuch as due
Collection
1996 Annual Conference
Authors
Virendra K. Varma; Mohammad Najafi
technology during the last 10-15 years have contributed significantly to thesophistication of the contemporary construction industry. This affects undergraduate education significantly.The thrust of education must be to provide engineers and construction managers with a strong knowledge-baseof both conventional and non-conventional methods of construction. Owners and engineers should feelcomfortable in trying out the newer methods of construction, and their willingness to utilize the latest advancesin technology should be reflected in the project specifications. Contractors should be encouraged to submit bidsthat utilize conventional and non-conventional approaches for underground infrastructure construction. This canall be feasible only if the
Collection
1996 Annual Conference
Authors
Ph.D., Richard H. Turpin
aperfect teacher; but the laws themselves, when fully observed in use, will produce their effects with the samecertainty that chemical laws generate the compounds of chemical elements, .." As we seek to make use of newtechnologies and to alter our teaching styles to reflect student motivation and interests, we will do well to keepthe seven laws in mind. In the following we present each law and make application of each to engineeringeducation.II. The Law of the Teacher "The teacher must know that which he would teach." Sounds simple; but think about it. Have you everhad a teacher who didn't seem to know what he or she was supposed to be teaching? Have you ever been thatteacher? On many occasions we are called upon to teach a course which is