We use the acronym WILD to refer to Wireless Interactive Learning Devices. WILD are powerful and small handheld networked computing devices. The smallest handheld computers fit in one hand easily. The user interacts with the device either by touching the screen with a pen-shaped stylus, or by typing with both thumbs on a small keyboard known as a thumb-pad keyboard. The largest are the size of a paperback book and have a keyboard that is large enough to type on with all ten fingers. Their low price point and high usability has captured the imagination of educators and learning scientists. The
Computer-supported collaborative learning (CSCL) is an emerging branch of the learning sciences concerned with studying how people can learn together with the help of computers. As we will see in this essay, such a simple statement conceals considerable complexity. The interplay of learning with technology turns out to be quite intricate. The inclusion of collaboration, computer mediation, and distance education has problematized the very notion of learning and called into question prevailing assumptions about how to study it.
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TEAM MEMBERS:
Gerry StahlTimothy KoschmannDan Suthers
The days of desktop dominance are over. Mobile has swiftly risen to become the leading digital platform, with total activity on smartphones and tablets accounting for an astounding 60 percent of digital media time spent in the U.S. The fuel driving mobile’s relentless growth is primarily app usage, which alone makes up a majority of total digital media engagement at 52 percent. In this report we let the numbers and charts do most of the talking, as the story of today’s app landscape is told through the visualization of comScore’s mobile data.
Knowledge building, as elaborated in this chapter, represents an attempt to refashion education in a fundamental way, so that it becomes a coherent effort to initiate students into a knowledge creating culture. Accordingly, it involves students not only developing knowledge-building competencies but also coming to see themselves and their work as part of the civilization-wide effort to advance knowledge frontiers. In this context, the Internet becomes more than a desktop library and a rapid mail-delivery system. It becomes the first realistic means for students to connect with civilization
What are our youth using their mobile phones to do? They text message, play games, listen to music, and take pictures, and that's only the beginning. Teenagers are the ones establishing the rules of this new mobile culture ad hoc. To them, the mobile phone is not a device for making phone calls, but rather, a 'lifeline' to the social network and an instrument for coordinating their everyday life. Can this tool, that has seemingly ensconced itself into youth culture, become a tool for informal science learning? This paper will summarize findings that have been collected as part of the Science
In the increasingly fierce competition for leisure time and educational spending, museums are seriously challenged by edutainment, the Internet, CD-ROMs, and 500-channel satellite TV. For example, if a child is interested in dinosaurs, 20 years ago a parent would have been likely to take her to the museum to see some fossils. Today, many parents would probably begin by taking her to the computer to search the World Wide Web, where a quick search reveals thousands of dinosaur web pages. If the family did not find a site among these thousands that satisfied the child's curiosity - or if they
Years before encountering their first formal science lessons in elementary school, children may already be practicing scientific thinking on a weekly, if not daily, basis. In one recent survey, parents reported that their kindergartners engaged, on average, in more than 300 informal science education activities per year - watching science television shows, reading science-oriented books, and visiting museums and zoos (Korpan, Bisanz, Bisanz, Boehme, & Lynch, 1997). This strikes us as a lot, but it is likely to pale in comparison to what young children may experience five years from now
In this article we examine educational assessment in the 21st century. Digital learning environments emphasize learning in action. In such environments, assessments need to focus on performance in context rather than on tests of abstracted and isolated skills and knowledge. Digital learning environments also provide the potential to assess performance in context, because digital tools make it possible to record rich streams of data about learning in progress. But what assessment methods will use this data to measure mastery of complex problem solving -- the kind of thinking in action that
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TEAM MEMBERS:
David Williamson ShafferDavid HatfieldGina Navoa SvarovskyPadraig NashAran NultyElizabeth BagleyKen FrankAndre RuppRobert Mislevy
Technology designers are faced with the challenge of accounting for the breadth of children's experiences in their interactions with technology, even as the field of human-computer interaction has maintained a primary focus on "use" as the main interaction paradigm. To address this challenge, I propose that designers account for children's relationships with technology by considering six facets of interactional constructivist development: embodied, situated, dynamic, intentional, social, and moral. To support this proposal, I first review the intellectual development of interactional
When we think of mobility in technical terms, we think of topics such as bandwidth, resource management, location, and wireless networks. When we think of mobility in social or cultural terms, a different set of topics come into view: pilgrimage and religious practice, globalization and economic disparities, migration and cultural identity, daily commutes and the suburbanization of cities. In this paper, we examine the links between these two aspects of mobility. Drawing on non-technological examples of cultural encounters with space, we argue that mobile information technologies do not just
In 1831 Michael Faraday built a small generator that produced electricity, but a generation passed before an industrial version was built, then another 25 years before all the necessary accoutrements for electrification came into place—power companies, neighborhood wiring, appliances (like light bulbs) that required electricity, and so on. But when that infrastructure finally took hold, everything changed—homes, work places, transportation, entertainment, architecture, what we ate, even when we went to bed. Worldwide, electricity became a transformative medium for social practices. In quite
Virtual communities have been extensively examined -- including their history, how to define them, how to design tools to support them, and how to analyze them. However, most of this research has focused on adult virtual communities, ignoring the unique considerations of virtual communities for children and youth. Young people have personal, social, and cognitive differences from adults. Thus, while some of the existing research into adult virtual communities may be applicable, it lacks a developmental lens. Based on our work of designing and researching virtual worlds for youth, we describe