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E-classroom Videoconferencing in MC. Summary report for UCIST 12 September 2008 Presented by Andrea Chappell with contributions by Koorus Bookan , Donna Ellis, Professor Paul Marriott. Overview. Background of vc installation What’s installed Comments on teaching design (from Ellis)
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E-classroomVideoconferencing in MC Summary report for UCIST 12 September 2008 Presented by Andrea Chappell with contributions by KoorusBookan, Donna Ellis, Professor Paul Marriott
Overview • Background of vc installation • What’s installed • Comments on teaching design (from Ellis) • Experiences (from Professor Marriott) • Feedback from students (compiled by Ellis) • What’s next • Recommendations
Background (began early 2008) • Paul Marriott (Stats & ActSci) needed larger classroom for increasing # of large classes • Videoconferencing to join MC2065, MC2066 as solution (tiered, 192 seats in each) • Groups involved: • Stats & ActSci – requester • Scheduling – obtaining room for Stats & ActSci courses • CTE – advising on pedagogy, teaching design • ITMS – selecting the technology
What’s installed in MC2065/66 • Little flexibility given room design, pre-existing equipment, continued use as typical e-classroom • Standard e-class equipment, data projector in booth at back • VC equipment for the room • Tandberg “codecs”, the main vc components (secured in front storage rooms ) • Two Tandberg HD cameras in each room, one at front to capture students, one in the back booth to capture professor • Existing main screen for “content” (e.g., PPt slides). • Second screen to show prof/blackboard to students in “non-prof” room; in prof room, shows remote students • Second 19” screen on podium to show remote students to prof, or vc controls to the TA
Additional support equipment • Capturing the lecture • Tandberg Content Server to capture the slides and video of the lecture, for streaming or for “on demand” viewing later • Scheduling lectures and events; remote admin • Tandberg Management Server to set up vc events, monitor remotely, administer remotely • Both considered now as “required” (need vs want!) infrastructure to support these and future courses • (Note: Need a multimedia server … another project!)
Example of captured session http://uw-tcs.uwaterloo.ca Look at July 29th, as example (random!) and move cursor to middle of video.
Equipment for pilot • Tandberg “Try and Buy” program • Obtained pilot equipment, for free, from Tandberg. • Having access to and installation of actual equipment intended to fit needs of project is a great benefit. • Installation • Edcom, a local audio visual company known to UW, was asked to install equipment. • Not entirely satisfied with the process and results. • UW Procurement Services will handle solicitation of quotes to purchase the equipment.
Teaching Design (Ellis) • CTE observers attended Prof Marriott’s class before and after vc implementation. Recommendations: • Use only one blackboard to limit amount of movement to be captured on camera. • Use large printing on the board and say what is written so students receive visual and audio cues. • Repeat all student questions and comments so students in both rooms can hear them. • Use inclusive pronouns to help engage the remote class. • Look at camera periodically so remote class feels seen. • Handling questions in remote room is challenging!
Experiences (Marriott) • Experience very satisfactory; Stats &ActSci will carry on • Recorded lectures reviewed to see if changes required to equip or style. • “Tweaks”: • Lighting: Uses ‘PPt’ style presentation and blackboard. Compromised lighting in order that both equally well seen in second room. Could still be improved. • Sound: Headset captures sound evenly. Dependence on batteries with power enough for a complete lecture! • Movement: Keeping to well-defined area during lecture improves quality of the recorded and transmitted lecture. • Projection: 53” screens replaced with projectors, creating a larger, much better image of prof at blackboard.
Student Feedback (Ellis) VC Initial Open-Ended Data Analysis from class on July 24, 2008 What could be done to improve the learning experience in the video-link classroom? • Asking questions – asking them is hard and intimidating, there needs to be a better system (e.g., a TA to interrupt class). • Volume/Audio Quality – sound from professor’s mic not always good; very hard to hear student comments (professor needs to repeat them). • Interaction – find ways for more communication between rooms. • Video/Visual Quality – lighting on professor wasn’t always very good (can’t see his eyes to make “eye contact”); professor can’t see students in the remote room; have camera follow professor; use bigger screens. • Focus – easier to focus in the live room because the professor is there. • Recording – unsure how often recordings might be used – maybe only if they don’t understand the material in class.
Student comments Selected highlights from comments: • “In [the] live class, tend to pay more attention since there is a possibility professor may ask you a question.” • “I felt more focused in the other room (video room) because I felt I needed to concentrate more to understand (I still didn’t entirely understand).” • “In the live room I found it difficult when someone in the other room asked a question because I found it difficult to focus on just the voice and understand what is being said.” • “It’d be better if the video room was provided as an ‘extra’ classroom rather than as a method to take more students per classroom per lecture. I feel my tuition is less valuable (like DE).” • “It’s fine, especially for people (like myself) who don’t intend to ask questions.”
What’s next • F08 usage: Stats & ActSci Don McLeish and IlhamAkhundov; similar to Marriott’s use, but tablet for slides with mark-up. • Determine “tweaks” and other equipment needed. • E.g., room control system with programming for different scenarios; alternatives for math notation and freehand drawings. • Develop guidelines for use of the rooms for teaching • What expected of instructor and TA, what support available, what instructor training required, limitations or impact on teaching styles, and so on. • Develop guidelines (similar to above) for use for other events. • Determine how to obtain feedback. Track usage and support. Determine impacts of rooms, positive and negative.
Breaking news (good, and bad) • For F08, Stats&ActSci grad course, co-taught with Western, to use IST’s MC2009 presentation room, set up with vc equipment in April • Considered a pilot for running a smaller class via vc, not as a permanent “home” in MC2009 • Pharmacy looking at a video-link set up in their new building (may not be IP vc) • Bad news: One HD camera vandalized from MC2066 over the weekend of Sept. 6/7 • Need more than 10 minutes between classes!
Recommendations • Proceed to purchase the equipment for MC2065/66. Build into IST budget funds to maintain and roll-over equipment. • Require that professors who use the rooms engage in technology and pedagogy consultations. • Must engage in at least one microteaching consultation with CTE staff to view a taped lecture and debrief on what works well with the lecturer’s delivery style and what could be changed to better fit the technology. • Professors/TAs must attend a technology walk-through and training session with ITMS in advance of the term in which they will teach. • Consider developing distance education (fully online) versions of courses that incorporate limited student interaction. By providing an online offering of these courses, students have an alternative to being in a large class meet (videoconferencing or otherwise). These alternatives may help to alleviate some of the classroom congestion. (This recommendation is intended to align with the UW Online Learning Taskforce proposals.)
