by Greg Crane, Winnick Family Chair of Technology and Entrepreneurship, Tufts University
Originally Posted December 16th, 2007
Institutional repositories were the stated topic for a workshop convened in Phoenix, Arizona earlier this year (April 17-19, 2007) by the National Science Foundation (NSF) and the United Kingdom’s Joint Information Systems Committee (JISC). While in their report on the workshop, The Future of Scholarly Communication: Building the Infrastructure for Cyberscholarship, Bill Arms and Ron Larsen build out a larger landscape of concern, institutional repositories remain a crucial topic, which, without institutional cyberscholarship, will never approach their full potential.
by Janet Murray, Georgia Tech
Originally Posted December 16th, 2007
Professor Janet H. Murray is an internationally recognized interactive designer, the director of Georgia Tech’s Masters Degree Program in Information Design and Technology and Ph.D. in Digital Media, and a member of Georgia Tech’s interdisciplinary GVU Center. She is the author of Hamlet on the Holodeck: The Future of Narrative in Cyberspace (Free Press, 1997; MIT Press 1998), which has been translated into 5 languages, and is widely used as a roadmap to the coming broadband art, information, and entertainment environments. She is currently working on a textbook for MIT Press, Inventing the Medium: A Principled Approach to Interactive Design and on a digital edition of the Warner Brothers classic, Casablanca, funded by NEH and in collaboration with the American Film Institute. In addition, she directs an eTV Prototyping Group, which has worked on interactive television applications for PBS, ABC, and other networks. She is also a member Georgia Tech’s Experimental Game Lab. Murray has played an active role in the development of two new degree programs at Georgia Tech, both 0f which were launched in Fall 2004: the Ph.D. in Digital Media, and the B.S. in Computational Media. In spring 2000 Janet Murray was named a Trustee of the American Film Institute, where she has alsoserved as a mentor in the Enhanced TV Workshop a program of the AFI Digital Content Lab. She holds a Ph.D. in English from Harvard University, and before coming to Georgia Tech in 1999 taught humanities and led advanced interactive design projects at MIT. Murray’s primary fields of interest are digital media curricula, interactive narrative, story/games, interactive television, and large-scale multimedia information spaces. Her projects have been funded by IBM, Apple Computer, the Annenberg-CPB Project, the Andrew W. Mellon Foundation, and the National Endowment for the Humanities.
Information infrastructure is a network of cultural artifacts and practices. A database is not merely a technical construct; it represents a set of values and it also shapes what we see and how we see it. Every time we name something and itemize its attributes, we make some things visible and others invisible. We sometimes think of infrastructure, like computer networks, as outside of culture. But pathways, whether made of stone, optical fiber or radio waves, are built because of cultural connections. How they are built reflects the traditions and values as well as the technical skills of their creators. Infrastructure in turn shapes culture. Making some information hard to obtain creates a need for an expert class. Counting or not counting something changes the way it can be used. Increasingly it is the digital infrastructure that shapes our access to information and we are just beginning to understand how the pathways and containers and practices we build in cyberspace shape knowledge itself.
by John Weber, Skidmore College
John Weber is the Dayton Director of the Frances Young Tang Teaching Museum and Art Gallery at Skidmore College, an interdisciplinary museum opened in 2000 to create links between contemporary art and other disciplines as part of the teaching effort at Skidmore. As director of the museum, he supervises the Tang’s staff and oversees exhibitions, programs, collections, and the Tang website, as well as curating and writing for museum publications. Weber is also a member of the Skidmore faculty and teaches in the art history program. Before coming to Skidmore in 2004, he was the curator of education and public programs at the San Francisco Museum of Modern Art from 1993 to 2004, where he spearheaded the design of the Koret Education Center and founded the museum’s interactive educational technologies program. From 1987 to 1993 Weber served as curator of contemporary art at the Portland Art Museum in Oregon.
Originally Published December 16th, 2007
To begin, let’s take it as a given that the “cyberinfrastructure” we are writing about in this edition ofAcademic Commons is both paradigmatically in place, and yet in some respects technologically immature. The internet and the intertwined web of related technologies that support wired and wireless communication and data storage have already altered our ways of dealing with all manner of textual and audiovisual experience, data, modes of communication, and information searching and retrieval. Higher education is responding, but at a glacial pace, particularly in examining new notions of publishing beyond those which have existed since the printed page. Technologies such as streaming and wireless video remain crude, but digital projectors that handle still image data and video are advancing rapidly, and the gap between still and video cameras continues to close. Soon I suspect there will simply be cameras that shoot in whatever mode one chooses (rather than “camcorders” and “digital cameras”), available in a variety of consumer and professional versions and price points. Already, high definition projectors and HD video are a reality, but they have yet to permeate the market. They will soon, with a jump in image quality that will astonish viewers used to current recording and projection quality.
by Francis Starr, Wesleyan University
Professor Starr is a computational and theoretical physicist at Wesleyan University. In the last 10 years, he has published roughly 70 articles focusing on liquids, glasses, gels, polymers, and biologically inspired nanomaterials. Due to the computational demands of his research, Prof. Starr has been involved in developing computing infrastructure since he was a graduate student. He recently joined with several other faculty and the university ITS to provide a university-wide cluster and a companion educational center.
Originally Published December 16th, 2007
The technical nature of scientific research led to the establishment of early computing infrastructure and today, the sciences are still pushing the envelope with new developments in cyberinfrastructure. Education in the sciences poses different challenges, as faculty must develop new curricula that incorporate and educate students about the use of cyberinfrastructure resources. To be integral to both science research and education, cyberinfrastructure at liberal institutions needs to provide a combination of computing and human resources. Computing resources are a necessary first element, but without the organizational infrastructure to support and educate faculty and students alike, computing facilities will have only a limited impact. A complete local cyberinfrastructure picture, even at a small college, is quite large and includes resources like email, library databases and on-line information sources, to name just a few. Rather than trying to cover such a broad range, this article will focus on the specific hardware and human resources that are key to a successful cyberinfrastructure in the sciences at liberal arts institutions. I will also touch on how groups of institutions might pool resources, since the demands posed by the complete set of hardware and technical staff may be larger than a single institution alone can manage. I should point out that many of these features are applicable to both large and small universities, but I will emphasize those elements that are of particular relevance to liberal arts institutions. Most of this discussion is based on experiences at Wesleyan University over the past several years, as well as plans for the future of our current facilities.
by Michael Roy, Middlebury College
Originally Published September 25th, 2006. A report on the NERCOMP SIG workshop Let No Good Deed Go Unpunished; Setting up Centralized Computational Research Support, 10/25/06
Back to the Future of Research Computing
As Clifford Lynch pointed out at a recent CNI taskforce meeting, the roots of academic computing are in research. The formation of computing centers on our campuses was originally driven by faculty and students who needed access to computer systems in order to tackle research questions. It was only years later that the idea of computers being useful in teaching came into play. And once that idea took hold, it seemed that we forgot about the research origins of academic computing.
Lynch argues that the pendulum is swinging back again, as campuses nationwide report an increased interest in having libraries and computer centers provide meaningful, sustainable and programmatic support for the research enterprise across a wide range of disciplines.