Helen Gordon, Assistant Clinical Professor, School of Nursing

Project description

This project will develop series of short video lectures taped via a desk-top, Flip-video on a tiny tripod. A “Video Workbook” will be created for the N220: Nursing Care of the Childbearing Family, upon finishing all recordings.

These recordings will be uploaded to Blackboard, iTunes U, or other media for students to view and download to their iPods. Students will receive a designed workbook with objectives, lecture highlights and worksheets and directed to the lectures which will be numbered on Bb, iTunes U, or other media. Students then can load the lecture on a video iPod for mobile studying, or view the lecture online. This will accompany the regular course materials. But instead of the course coordinator lecturing via PP slides, class room time can be spent processing critical nursing content as it relates to nursing care of the childbearing family.

Helen Gordon foresees how the project makes different: “I spend HOURS lecturing on small segments of content that consume valuable class time. Now students will spend this time, hearing me and seeing me via video mini-lectures. They will have the satisfaction of receiving the content they want….and I will have the class time back to focus on nursing actions of the material… This format will appeal to the audio learning styles of many of the students. The organization and creation of the workbook will be a key shift in how I have taught this before.”

By the end of the summer 2008 semester, Helen Gordon will randomly select about 7 representative students from her over 60 students to form a focus group for evaluating the project.

Project start date: 2/1/2008
Funding awarded: $ 500

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Cary A. Moskovitz, Senior Lecturing Fellow and director, Writing in the Disciplines
University Writing Program

Project Description

Cary Moskovitz has been using the concept of “think aloud” responses in his writing courses, getting professionals in various fields at Duke to record comments and feedback on student papers. Students gain valuable insight from a reader familiar with the subject area of the paper and gain a better sense of ownership of their writing in a “real world” situation.

To build on the success of this approach in his own courses, Moskovitz is now cooperating with the Duke Alumni Association to introduce this method into Writing in the Disciplines courses, by locating Duke alumni residing around the United States to serve as readers in three classes in Economics, History and Chemistry in Spring 2008.

During Fall 2007, Moskovitz will use CIT funding to explore the technologies which will be used to implement the full project in Spring 2008. Readers will use a webcam-assisted teleconference to virtually “meet” with their student partners, and web-based audio recording software to record a “think aloud” response on a student paper in the course. Students will be able to use the readers’ feedback to edit and improve their writing based on this professional input. The CIT is consulting on technology approaches, documentation for the volunteer readers and students, and evaluation of the project.

Project Started: 8/15/2007
Funding: $1,000 (Fall 2007)

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Brenda S. Neece, Adjunct Assistant Professor and Curator of the Duke University Musical Instrument Collection
Department of Music

Project Description

For Brenda Neece’s course on Musicology, a requirement of all incoming PhD candidates in the Music Department, Neece and her students experimented with the use of small form factor Ultra Mobile PCs (UMPCs) for field research. Neece, during her own research, used a handheld Psion in her work to take notes, dictation, keep track of sources and even make sketches as she travelled in many locations researching musical instruments. With this project, Neece introduced the students to new methods of integrating technology with field research.

The UMPC is a new form factor computer - essentially a small tablet PC - giving the students access to a full Windows Vista computer in a small package. The project allowed the CIT to gain an understanding of ways that students and faculty might use this novel new portable computer.

The CIT loaned Neece and her two students Sony UMPCs during the Fall semester. The UMPCs have a stylus and could be used much like a tablet to create quick sketches and music notation. The computer includes a built-in webcam and digital still/video camera, as well as wireless capabilities, built-in microphone and other features. The computers were pre-loaded with productivity software, such as MS Office, and Endnote for creating and using citations. The Music Department provided licenses for the music notation software Sibelius for use on the computers during the project.

Neece and her students used the UMPC’s for common tasks, such as web browsing and editing of Word documents, but focused primarily on using the devices for research.  They used library electronic resources using WiFi access, made notes using the writing input-based Windows Journal, created and edited short musical examples with the stylus in Sibelius, and used the built-in camera to take quick images of sheet music or instruments for reference.

Despite some technical problems due to the emerging nature of the UMPC platform, the reaction was positive.  “It is fantastic to have the power of a full computer in one’s pocket,” Neece said at the end of the project.  “This is exactly what I would have loved to have had when I did all of my fieldwork and library research for my doctorate instead of my little Psion.”

Project Started: 8/30/2007
Funding: $5,400

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Gary Gereffi, Sociology, Arts & Sciences

Project Description

In Gereffi’s Marketing and Management capstone course, undergraduate students collect and analyze data involving several key North Carolina industries, helping Gereffi and his team (the Center on Globalization, Governance and Competitiveness) create visualizations like value chains and maps for the public and highly-visible North Carolina and the Global Economy website.

CIT is providing funding and support to help Gereffi and his team develop interactive representations of value chains using tools like Flash, and to explore the use of mapping tools like Google Earth to rethink the way industry data can be presented visually in a more global context. The resulting developments will in turn create more and varied projects for undergraduate students in Gereffi’s capstone course.

Project Started: May 4, 2007
Funding: $11,000

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Trudi Abel, History, Arts & Sciences

Project Description

CIT is providing Trudi Abel with funding and student support to create and integrate several historical maps of Durham into a set of Google Earth files that will increase the integration of real-world research into her courses. Additional development will be done on Google Earth files to prepare them for students to add audio pieces (collected via iPods, many of which have already been created as a result of a DDI project) and create geotagged photography with standard GPS equipment, digital cameras, and geotagging software.

Abel also plans to incorporate the resulting developments into the Digital Durham website/project, Ultimately, Abel would like to see several old maps of Durham (including several fire maps) located in Google Earth and presented in a timeline/tour to illustrate the changes/changing of Durham. For more on Digital Durham, see this Duke article.

Project Started: May 4, 2007
Funding: $1650

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Rochelle Schwartz-Bloom, Professor of Pharmacology and Cancer Biology, Professor of Neurobiology, Professor of Biological Psychiatry Director, Undergraduate Studies in Pharmacology, Director, RISE (Raising Interest in Science Education)
Pharmacology and Cancer Biology, School of Medicine

Project Description

The objective of this project is to develop a 3D virtual model of drug action at the molecular level that can be used in teaching undergraduates in Pharmacology 150. An interdisciplinary team of undergraduate students will work together to develop a molecular model of a basic pharmacologic principle such as drug action at a receptor-gated ion channel (an appropriate example could be alcohol binding at the GABA-gated chloride channel to produce intoxication). They will use the Visualization Lab and DiVE Tank to create a virtual 3D model as well as a 3D web-based version that can be used online.

The interdisciplinary team will also learn how to apply evaluation methodologies to assess the effectiveness of the instructional tool on student learning.

Project start date: 5/4/2007
Funding awarded: $ 6,500

Additional information:

Duke University Visualization Technology Group

DiVE Tank

RISE (Raising Interest in Science Education)

Other projects by Pharmacology 150

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Brenda Berlin, Supervising Attorney, Children’s Education Law Clinic, School of Law
Mark Dorosin, Supervising Attorney, Community Enterprise Clinic, School of Law
Andrew Foster, Director, Community Enterprise Clinic, School of Law
Carolyn McAllaster, Director, AIDS Legal Project, School of Law
Allison Rice, Supervising Attorney, AIDS Legal Project, School of Law
Alan Weinberg, Director, Low-Income Taxpayer Clinic, School of Law
Jane Wettach, Director, Children’s Education Law Clinic, School of Law

Project Description

Faculty in the Law School’s Clinical program sought to use their new facility’s video equipment to enhance clinicals and facilitate student self-evaluation as the students work with actual clients on real cases.

Students in the Law Clinics gain their first experiences with clients under the guidance of faculty. As part of this program, the students are trained in interviewing techniques and given practical legal instruction by the faculty as they work through cases. The faculty were seeking ways to use video recording of these student-client sessions to evaluate student interviewing skills, and to allow students to self-evaluate their performance.

Through a year-long Faculty Fellows program, faculty learned about using the classroom video systems in their facility, and practical ways to integrate video technologies into the student interaction observations. The Fellows met with other faculty from Duke who had used video for student performance evaluation, and had a campus visit from Larry Farmer, a Law faculty member at Brigham Young University, who has considerable experience in the use of digital video in student observations.

During the Fellowship year, faculty developed a rubric to evaluate student performance in interviews and logistics for recording material, including processes for obtaining releases from clients and access and disposal of video recordings to protect client privacy. In addition, the faculty, using local multimedia support staff, developed video examples of model client interviews used in training students in the orientation to the Clinical program.

Faculty noted improvement in interviewing skills of the students who used the rubric, and surveys of students showed that many students found the rubric helpful to examine and improve their own performance. The model video encounters created for training were helpful, allowing the faculty to use excerpts to make key points about interviewing and make the training more focused, improving on “live” model interviews done during student training in the past.

As the technology changes, the Fellows continue to explore the best ways to improve video for student performance evaluation, examining new technologies such as DVD recording and portable video recording on laptops, in addition to methods for easily marking and retrieving video segments for student discussion.

Project start date: 12/2005
Funding awarded: $19,000 (includes $2,500 stipend for each faculty member)

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Jonathan Goodall, Assistant Professor of the Practice of Geospatial Analysis, Environmental Sciences and Policy, Nicholas School of the Environment and Earth Sciences

Project description

In Advanced Geospatial Analysis (ENVIRON 359), students used Geographic Information Systems (GIS) to understand environmental processes and how to protect and manage environmental resources. Students were required to work with large, complex databases and satellite images.

In support of these goals, students used iPods as portable storage to complete labs and projects with datasets too large for the classroom server. They also subscribed to podcasts from commercial GIS companies (e.g. Environmental Systems Research Institute) and from GIS practitioners to add these perspectives on cutting edge GIS technologies not yet documented in their textbooks.

Project start date: August 1,  2006

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Jeffrey Forbes, Assistant Professor of the Practice, Computer Sciences, Arts & Sciences

Project description

This project adapted AudioScrobbler to build a Duke Scrobbler site and associated Java client. This site enables to users to track their music listening habits and to find other users with similar tastes and habits. Users will be able to see neighbors, experiment with different collaborative filtering algorithms, and view statistics on listening history.

DukeScrobbler was used to conduct a workshop on social networks and computer science as part of an outreach program to high school teachers. It is part of a developing project that will use social networks and the science of networks in general as a lever to introduce computer science. DukeScrobbler is used in Computer Science 1 (Principles of Computer Science).

Project start date: 6/15/2006
Funding awarded: $1,000

Center for Instructional Technology Poster

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Peter Malin, Professor, Earth & Ocean Sciences, Nicholas School of the Environment & Earth Sciences

Project description

EOS223S is an open, interdisciplinary elective in Nicholas School which satisfies a seminar requirement of Trinity undergrads; it includes topics in geology, engineering, energy, environment, and policy. The course focused on the actual conditions and plans for a US national high-level nuclear waste deposit in Yucca Mountain, Nevada, through a guided field trip to the Yucca Mountain site. Pre-field trip classes included lectures on Yucca Mountain geology and student-prepared seminars/posters on specific aspects of Yucca Mountain and nuclear waste disposal. Geology requires students to visualize both scales and complex three dimensional relationships from 2 dimensional maps, which is particularly difficult for non-majors. The Duke Immersive Virtual Environment (DiVE Tank) provided three dimensional visualization of the geology and subsurface engineering, and an interactive way to explore the scale of the field site.

By the end of the course, students stated that the use of the 3-D Visualization before the field trip helped to frame the spatial relationships between sediment layers, faults, and topography. The students were asked write a position paper on the integrated geological, economic, and social aspects of the proposed site and state their position on its licensing using the graphical evidence. Their papers showed that they achieved most of the following goals: they referenced appropriate data bases of existing documents, and related these materials to the actual scales lengths, including time, space, economic, social, and political dimensions associated with the potential site and its use.

Project start date: May 26, 2006
Funding awarded: $5,000

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