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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Engineering Classrooms Before and After Innovation Jeff Froyd, Texas A&M University froyd@ee.tamu.edu David Cordes, University of Alabama cordes@cs.ua.edu Ron Roedel, Arizona State University r.roedel@asu.edu
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Workshop Overview Introduction (25 min) –What do you want to accomplish? What Other Institutions Have Done (20 min) Classroom Transformation (40 min) –Where are we now? –Where do you want to be? Other Issues and Considerations (30 min) Wrap-up (5 min)
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Part 1: Introduction Team Formation ( 5 minutes) Team Discussion (5 minutes) Team Reports (10 minutes) –Establish Basic Workshop Goals
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Introduction: Team Formation Self-Organize into four-person groups –Emphasize institutional and departmental diversity –No more than one institutional representative per team –Introduce yourselves (name & institution) within the group –Group representative will introduce group to workshop
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Introduction: Team Discussion Within your group: discuss the following questions among yourselves –What do you mean by “technology in the classroom”? –Why do you want to use technology in the classroom? –How can you use technology in the classroom? –What will students gain by using this technology? –What should be the workshop objectives? Appoint a reporter to share group results
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Why use technology? Need something to enhance the classroom experience, add value Have interactive environments (students can see things virtually), expands classroom (communicates with students outside classroom), research & information tool Integration of classroom materials & outside materials (simulation), tap in and see what students are thinking (ask question,see where they are) Engage students in critical thinking activities, use collaborative learning technologies Getting students involved in an active way in their learning, technology can aid overall learning experience, help retention Students learn differently (most stimulus is visual), if you don’t use technology you might not be able to keep them motivated
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC What do you mean by tech.? 70% powerpoint & internet, simulation Wireless laptops Anything interactive (not powerpoint), instant access to information Tools used to engage students and learning, still have some campuses that are introducing powerpoint as a tool, others have internet capabilities at each station Blurring of the definition of laboratory and lecture, use of computing and peripherals, added materials (ball & measuring tape, video tape physics experiment, take data using peripherals, etc.) Software or tools that are dedicated for our course/application (access to this)
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Part 2: What others have done Short (20 minute) information dump Background Information – one-page introduction to technology-enabled learning Representative Foundation Coalition efforts –Arizona State University –Rose-Hulman Institute of Technology –Texas A&M University –University of Alabama –University of Massachusetts-Dartmouth Other initiatives –Drexel’s EE laboratories –RPI’s studio model
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC New Classroom Environments
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Arizona State University Classroom layout & equipment –Designed for 80 students, uses tables –Each table holds four students and two computers –Instructor console with projection system Software & Applications –Maple, Excel, video capture software, etc. Audience –Freshman engineering students
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Rose-Hulman Institute of Tech Classroom layout & equipment –Every student purchases a notebook computer as an entering student (model is specified by institution) –Over 20 classrooms have been equipped with network and power connections to support notebook computers Software & Applications –Maple for calculus and differential equations –Working Model and Maple for dynamics –Physics labs use notebooks for data acquisition and analysis (Excel) Audience –All engineering students and classes
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Texas A&M University Classroom layout & equipment –Remodeled about 10 classrooms for first-year and sophomore engineering courses –One computer per two students –Departments have constructed their own classrooms, more are planned Software & Applications –Microsoft Office, Maple, AutoCAD, Engineering Equation Solver (EES), Internet access –EE has students design, simulate, construct, measure and compare behavior of circuits. Class uses NI hardware and software. Audience –Freshman and sophomore engineering students –Specialized classes in specific disciplines
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Screen CVLB 319: ENGR 112 Team Layout Sections 501 - 503 Screen Windows Podium Doors 4 12 21 3 11 20 2 10 19 9 1 13 141716 2423 8765 1518 22
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC University of Alabama Classroom layout & equipment –Remodeled four different classrooms –Tables for four, one computer per two students –Departments constructing their own classrooms Software & Applications –Microsoft Office, compilers, FORTRAN, Maple Audience –Freshman engineering students –All students in introductory computing sequence
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Alabama Classroom Layout Several classroom formats exist –All have computers at student desks, instructor console, projection system –Primarily used for lower-division classes
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC University of Massachusetts-Dartmouth Classroom layout & equipment –Remodeled three classrooms with tables that seat four students and have two computers. Software & Applications –Maple and Excel –Based on Studio Physics model (RPI), students perform physics and chemistry experiments in the classroom, acquire, display and analyze data. Audience –Freshman & sophomore engineering majors
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC RPI – Studio Classrooms Classroom layout & equipment –Tables with two students (one computer) –Student Using computer faces away from instructor Listens to lecture facing away from computer Philosophy –Integrate classroom (lecture) with laboratory (experiments, acquire/display/anayze data) Audience – Mathematics, sciences, engineering students
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC RPI Classroom Layout Students face instructor during lecture –Away from computers Student away from instructor when using computers –Instructor can see monitors easily
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Drexel Classrooms http://www.educatorscorner.com/education/case_studies/drexel.shtml Laboratory layout & equipment –Laboratory bench for two students (one computer) –Suite of measurement equipment with computer control –First-year and sophomore students Perform experiments and laboratory projects for three hours each week Philosophy –From the start students work with current equipment and explore stimulating physical phenomena Audience –Engineering students
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Other Innovations? Open forum with all participants –What schools are doing innovative activities? Ohio State, $1million to renovate classrooms Each room holds 36 to 72 students 1200 entering engineering students each year
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Part 3: Transformation What is the status quo at your institutions? –Team discussion, then report to entire group –15 minutes Where do you want to be? –Team discussion, then report to entire group –25 minutes
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC The Status Quo As a team, define the “typical” engineering classroom at your institutions –Be as specific as possible –Select a different reporter from last time Did not do, lack of time
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Where do you want to be? As a team, list things you would like to be able to do in your classes that you currently cannot (what is your ideal classroom for the Fall of 2002)? –Describe how your new activities would benefit students and their learning –Describe the resources (besides $$$) that would be required to realize your visions –Select a different reporter from last time
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #1 Computer on every desk, instructor has ability to bring up student’s monitor, “green kill button” Good content, don’t have the resources to develop content on our own, need access to this content Access to lab demonstration materials, instructor can demonstrate
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #2 Computers in room for every student, display video, access to network, linked to central server to ensure uniformity, video-conferencing is available Not a “testing” model, but a more “hands-on” approach to learning – using teaming and cooperative learning, video-conferencing to work with different sites for enhanced learning Make groups dependent on each other Dynamic process in the classroom, not a static situation
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #3 Integrate all the software through the web (integrated into a single user interface) “Seamless” Faculty need support, should get more than “brownie points” for doing this, need time to learn and absorb this material, need infrastructure to support faculty learning
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #4 Converting “old” facilities into the current concept (increase size of tables, etc.) Lots of interest in wireless laptops Experimental classrooms that would allow testing and development of new ideas (best of breed) Notion that we are moving faster (faculty), not enough good materials in upper division to utilize this technology (situation might be improving, especially in certain areas)
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #5 Look for a system that has good flexibility to create the appropriate learning environment (leads – Utah State model) Learning should be an enjoyable feature of the new technology Northwestern would like to see this new technology blend with upper- level courses, give students a real tool for developing research skills and give them tools needed for upper division. Would like to see a system of connectivity between institutions (for dissemination) Virginia Tech wants the new lab to be “convenient” to the faculty, walk in and set up the class any way you would like (flexibility) Fairfield wants faculty using this for authentic assessment Clemson is using “IMMEX” software (originally for medical schools), want to look at how students do problem solving, if you design a problem in this environment, the software tracks how the students “solve” this problem – can see different types of problem solvers, can monitor their progress and intervene in a timely manner as needed
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Ideal Classroom report #6 Want to provide an environment for active, collaborative learning that is technological enhanced. Should allow students to be active participants, and tailor environment to their use Would demand the existence of an IT staff, plus an “education” staff, plus a “content” staff to develop materials. Will cause staffing increases on campus. Saw need for tools/resources in course design Saw need to get this information out to faculty (all the faculty)
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Part 4: Other Critical Issues Classroom Design (10 minutes) –Layout, cost, etc. Classroom Utilization (10 minutes) –Classroom control, faculty training, etc. Administrative concerns (10 minutes) –Hardware acquisitions, software licensing, etc. Goal: Help you identify potential roadblocks before they occur
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Classroom Design Issues Potential Classroom Design Issues –Rooms available for renovation –Physical layout considerations –Equipment (cost, size, location, power, HV/AC) –Time (takes more than one summer to build) Identify “the top 5” issues from your team Report out
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Classroom Utilization Issues Effective Classroom Utilization Issues –Faculty support and education and development –Scheduling –Monitoring & after-hours access –Maintenance & upgrade time availability Identify “the top 5” issues from your team Report out
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC Administrative Issues Potential factors to consider –Institution’s computing policies –Software licensing (share electronic resources) –Purchase, replacement & upgrade costs –Support staffing –Clear plan for what they are doing with technology –Impact on T&P process –Assess the results (is better learning taking place?) –How to get financial support from State or outside sources? Identify “the top 5” issues from your team Report out
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Share the Future II: A Working Conference, March 18-20, 2001, Clemson, SC List of Participants Roxanne Jacoby, jacoby@cooper.edu Lorcan Folan, folan@poly.edu San Aung, sha99@tulane.edu Phillip Thompson, thompson@seattleu.edu John Carpinelli, carpinelli@njit.edu Laurie Sherrod, laurie@clemson.edu Melanie Cooper, cmelani@clemson.edu Glenda Scales, gscales@vt.edu John Minor, jminor@clemson.edu Anuj Chauhan, chauhan@che.ufl.edu Paul Fortier, pfortier@umassd.edu Robert Gustafson, gustafson.4@osu.edu Raj Mutharasan, raj.mutharasan@coe.drexel.edu Rob Linsenmeier, r-linsenmeier@northwestern.edu Dyke Stiles, dyke.stiles@ece.usu.edu Richard Weber, rweber@fair1.fairfield.edu Mesut Muslu, muslu@uwplatt.edu Thomas Harris, thomas.r.harris@vanderbilt.edu Kuei-wu Tsai, kutsai@email.sjsu.edu Dave Edwards, edwardsdc@flo.tec.sc.us Brian Storey, brian.storey@olin.edu Derome Dunn, derome@ncat.edu Suku Sengupta, ssengupta@umassd.edu Gayle Ermer, germer@calvin.edu Stephen Myers, scmyers@uncc.edu Babu Joseph, joseph@che.wustl.edu
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