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Barbara Lindsey

GUTS-Greater University Tutoring Service - 0 views

guts.studentorg.wisc.edu

tutoring service university peer

shared by Barbara Lindsey on 03 Oct 11 - No Cached
  • Barbara Lindsey on 03 Oct 11
     
    Peer tutoring. Students get scholarship $$ to tutor other students in academic subjects.
Barbara Lindsey

Minds on Fire: Open Education, the Long Tail, and Learning 2.0 (EDUCAUSE Review) | EDUC... - 0 views

connect.educause.edu/...45823

collaboration educause learning2.0 pedagogy beyondwebct

shared by Barbara Lindsey on 07 Jul 08 - Cached
  • But at the same time that the world has become flatter, it has also become “spikier”: the places that are globally competitive are those that have robust local ecosystems of resources supporting innovation and productiveness.2
  • various initiatives launched over the past few years have created a series of building blocks that could provide the means for transforming the ways in which we provide education and support learning. Much of this activity has been enabled and inspired by the growth and evolution of the Internet, which has created a global “platform” that has vastly expanded access to all sorts of resources, including formal and informal educational materials. The Internet has also fostered a new culture of sharing, one in which content is freely contributed and distributed with few restrictions or costs.
  • the most visible impact of the Internet on education to date has been the Open Educational Resources (OER) movement, which has provided free access to a wide range of courses and other educational materials to anyone who wants to use them. The movement began in 2001 when the William and Flora Hewlett and the Andrew W. Mellon foundations jointly funded MIT’s OpenCourseWare (OCW) initiative, which today provides open access to undergraduate- and graduate-level materials and modules from more than 1,700 courses (covering virtually all of MIT’s curriculum). MIT’s initiative has inspired hundreds of other colleges and universities in the United States and abroad to join the movement and contribute their own open educational resources.4 The Internet has also been used to provide students with direct access to high-quality (and therefore scarce and expensive) tools like telescopes, scanning electron microscopes, and supercomputer simulation models, allowing students to engage personally in research.
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  • most profound impact of the Internet, an impact that has yet to be fully realized, is its ability to support and expand the various aspects of social learning. What do we mean by “social learning”? Perhaps the simplest way to explain this concept is to note that social learning is based on the premise that our understanding of content is socially constructed through conversations about that content and through grounded interactions, especially with others, around problems or actions. The focus is not so much on what we are learning but on how we are learning.5
  • This perspective shifts the focus of our attention from the content of a subject to the learning activities and human interactions around which that content is situated. This perspective also helps to explain the effectiveness of study groups. Students in these groups can ask questions to clarify areas of uncertainty or confusion, can improve their grasp of the material by hearing the answers to questions from fellow students, and perhaps most powerfully, can take on the role of teacher to help other group members benefit from their understanding (one of the best ways to learn something is, after all, to teach it to others).
  • This encourages the practice of what John Dewey called “productive inquiry”—that is, the process of seeking the knowledge when it is needed in order to carry out a particular situated task.
  • ecoming a trusted contributor to Wikipedia involves a process of legitimate peripheral participation that is similar to the process in open source software communities. Any reader can modify the text of an entry or contribute new entries. But only more experienced and more trusted individuals are invited to become “administrators” who have access to higher-level editing tools.8
  • by clicking on tabs that appear on every page, a user can easily review the history of any article as well as contributors’ ongoing discussion of and sometimes fierce debates around its content, which offer useful insights into the practices and standards of the community that is responsible for creating that entry in Wikipedia. (In some cases, Wikipedia articles start with initial contributions by passionate amateurs, followed by contributions from professional scholars/researchers who weigh in on the “final” versions. Here is where the contested part of the material becomes most usefully evident.) In this open environment, both the content and the process by which it is created are equally visible, thereby enabling a new kind of critical reading—almost a new form of literacy—that invites the reader to join in the consideration of what information is reliable and/or important.
  • Mastering a field of knowledge involves not only “learning about” the subject matter but also “learning to be” a full participant in the field. This involves acquiring the practices and the norms of established practitioners in that field or acculturating into a community of practice.
  • But viewing learning as the process of joining a community of practice reverses this pattern and allows new students to engage in “learning to be” even as they are mastering the content of a field.
  • Another interesting experiment in Second Life was the Harvard Law School and Harvard Extension School fall 2006 course called “CyberOne: Law in the Court of Public Opinion.” The course was offered at three levels of participation. First, students enrolled in Harvard Law School were able to attend the class in person. Second, non–law school students could enroll in the class through the Harvard Extension School and could attend lectures, participate in discussions, and interact with faculty members during their office hours within Second Life. And at the third level, any participant in Second Life could review the lectures and other course materials online at no cost. This experiment suggests one way that the social life of Internet-based virtual education can coexist with and extend traditional education.
  • Digital StudyHall (DSH), which is designed to improve education for students in schools in rural areas and urban slums in India. The project is described by its developers as “the educational equivalent of Netflix + YouTube + Kazaa.”11 Lectures from model teachers are recorded on video and are then physically distributed via DVD to schools that typically lack well-trained instructors (as well as Internet connections). While the lectures are being played on a monitor (which is often powered by a battery, since many participating schools also lack reliable electricity), a “mediator,” who could be a local teacher or simply a bright student, periodically pauses the video and encourages engagement among the students by asking questions or initiating discussions about the material they are watching.
  • John King, the associate provost of the University of Michigan
  • For the past few years, he points out, incoming students have been bringing along their online social networks, allowing them to stay in touch with their old friends and former classmates through tools like SMS, IM, Facebook, and MySpace. Through these continuing connections, the University of Michigan students can extend the discussions, debates, bull sessions, and study groups that naturally arise on campus to include their broader networks. Even though these extended connections were not developed to serve educational purposes, they amplify the impact that the university is having while also benefiting students on campus.14 If King is right, it makes sense for colleges and universities to consider how they can leverage these new connections through the variety of social software platforms that are being established for other reasons.
  • The project’s website includes reports of how students, under the guidance of professional astronomers, are using the Faulkes telescopes to make small but meaningful contributions to astronomy.
  • “This is not education in which people come in and lecture in a classroom. We’re helping students work with real data.”16
  • HOU invites students to request observations from professional observatories and provides them with image-processing software to visualize and analyze their data, encouraging interaction between the students and scientists
  • The site is intended to serve as “an open forum for worldwide discussions on the Decameron and related topics.” Both scholars and students are invited to submit their own contributions as well as to access the existing resources on the site. The site serves as an apprenticeship platform for students by allowing them to observe how scholars in the field argue with each other and also to publish their own contributions, which can be relatively small—an example of the “legitimate peripheral participation” that is characteristic of open source communities. This allows students to “learn to be,” in this instance by participating in the kind of rigorous argumentation that is generated around a particular form of deep scholarship. A community like this, in which students can acculturate into a particular scholarly practice, can be seen as a virtual “spike”: a highly specialized site that can serve as a global resource for its field.
  • I posted a list of links to all the student blogs and mentioned the list on my own blog. I also encouraged the students to start reading one another's writing. The difference in the writing that next week was startling. Each student wrote significantly more than they had previously. Each piece was more thoughtful. Students commented on each other's writing and interlinked their pieces to show related or contradicting thoughts. Then one of the student assignments was commented on and linked to from a very prominent blogger. Many people read the student blogs and subscribed to some of them. When these outside comments showed up, indicating that the students really were plugging into the international community's discourse, the quality of the writing improved again. The power of peer review had been brought to bear on the assignments.17
  • for any topic that a student is passionate about, there is likely to be an online niche community of practice of others who share that passion.
  • Finding and joining a community that ignites a student’s passion can set the stage for the student to acquire both deep knowledge about a subject (“learning about”) and the ability to participate in the practice of a field through productive inquiry and peer-based learning (“learning to be”). These communities are harbingers of the emergence of a new form of technology-enhanced learning—Learning 2.0—which goes beyond providing free access to traditional course materials and educational tools and creates a participatory architecture for supporting communities of learners.
  • We need to construct shared, distributed, reflective practicums in which experiences are collected, vetted, clustered, commented on, and tried out in new contexts.
  • An example of such a practicum is the online Teaching and Learning Commons (http://commons.carnegiefoundation.org/) launched earlier this year by the Carnegie Foundation for the Advancement of Teaching
  • The Commons is an open forum where instructors at all levels (and from around the world) can post their own examples and can participate in an ongoing conversation about effective teaching practices, as a means of supporting a process of “creating/using/re-mixing (or creating/sharing/using).”20
  • The original World Wide Web—the “Web 1.0” that emerged in the mid-1990s—vastly expanded access to information. The Open Educational Resources movement is an example of the impact that the Web 1.0 has had on education.
  • But the Web 2.0, which has emerged in just the past few years, is sparking an even more far-reaching revolution. Tools such as blogs, wikis, social networks, tagging systems, mashups, and content-sharing sites are examples of a new user-centric information infrastructure that emphasizes participation (e.g., creating, re-mixing) over presentation, that encourages focused conversation and short briefs (often written in a less technical, public vernacular) rather than traditional publication, and that facilitates innovative explorations, experimentations, and purposeful tinkerings that often form the basis of a situated understanding emerging from action, not passivity.
  • In the twentieth century, the dominant approach to education focused on helping students to build stocks of knowledge and cognitive skills that could be deployed later in appropriate situations. This approach to education worked well in a relatively stable, slowly changing world in which careers typically lasted a lifetime. But the twenty-first century is quite different.
  • We now need a new approach to learning—one characterized by a demand-pull rather than the traditional supply-push mode of building up an inventory of knowledge in students’ heads. Demand-pull learning shifts the focus to enabling participation in flows of action, where the focus is both on “learning to be” through enculturation into a practice as well as on collateral learning.
  • The demand-pull approach is based on providing students with access to rich (sometimes virtual) learning communities built around a practice. It is passion-based learning, motivated by the student either wanting to become a member of a particular community of practice or just wanting to learn about, make, or perform something. Often the learning that transpires is informal rather than formally conducted in a structured setting. Learning occurs in part through a form of reflective practicum, but in this case the reflection comes from being embedded in a community of practice that may be supported by both a physical and a virtual presence and by collaboration between newcomers and professional practitioners/scholars.
  • The building blocks provided by the OER movement, along with e-Science and e-Humanities and the resources of the Web 2.0, are creating the conditions for the emergence of new kinds of open participatory learning ecosystems23 that will support active, passion-based learning: Learning 2.0.
  • As a graduate student at UC-Berkeley in the late 1970s, Treisman worked on the poor performance of African-Americans and Latinos in undergraduate calculus classes. He discovered the problem was not these students’ lack of motivation or inadequate preparation but rather their approach to studying. In contrast to Asian students, who, Treisman found, naturally formed “academic communities” in which they studied and learned together, African-Americans tended to separate their academic and social lives and studied completely on their own. Treisman developed a program that engaged these students in workshop-style study groups in which they collaborated on solving particularly challenging calculus problems. The program was so successful that it was adopted by many other colleges. See Uri Treisman, “Studying Students Studying Calculus: A Look at the Lives of Minority Mathematics Students in College,” College Mathematics Journal, vol. 23, no. 5 (November 1992), pp. 362–72, http://math.sfsu.edu/hsu/workshops/treisman.html.
  • In the early 1970s, Stanford University Professor James Gibbons developed a similar technique, which he called Tutored Videotape Instruction (TVI). Like DSH, TVI was based on showing recorded classroom lectures to groups of students, accompanied by a “tutor” whose job was to stop the tape periodically and ask questions. Evaluations of TVI showed that students’ learning from TVI was as good as or better than in-classroom learning and that the weakest students academically learned more from participating in TVI instruction than from attending lectures in person. See J. F. Gibbons, W. R. Kincheloe, and S. K. Down, “Tutored Video-tape Instruction: A New Use of Electronics Media in Education,” Science, vol. 195 (1977), pp. 1136–49.
Barbara Lindsey

C. M. Rubin: The Global Search for Education: More Technology, Please! - 0 views

www.huffingtonpost.com/...tion-technology_b_1675040.html

blendedlearning

shared by Barbara Lindsey on 19 Jul 12 - No Cached
  • One of the best examples I have seen of the flex model was in Morgan Hill, California. This is a district south of San Jose where about a third of its students are Hispanic and I believe over a third of its students are on free-and-reduced price lunch. The school is called the Silicon Valley Flex Academy - Grades 6 through 12. As you walk into the school there are a couple of huge open spaces on either side where every student has his/her own office. In this space, each student has his/her own computer. The students are encouraged to decorate their own space with things they like (in the same way an adult might decorate an office at work). There are break out classrooms around the perimeter of the building. Here teachers are getting the data on how the kids are doing. Teachers can pull students into these break-out classrooms in very small groups. The teacher is then able to focus on a student's individual issues. The teacher's job is totally different in this arrangement. The fascinating thing was how much ownership the students have over their learning. They all knew exactly what was expected of them the entire year. They knew exactly how they were doing at any point. Their job was to learn the material. If they could get the work done during the school day there was no homework. So it was up to the individual students to make those decisions.
  • The teachers I spoke to explained that they had been trained to do lesson planning, lectures to large groups of students and classroom management -- none of which they were now doing. They explained that the adjustment was difficult. Training has not been built into the formal teacher training system for programs like this, and few are really thinking about it at the moment. Now, the teacher is still doing teaching or tutoring when pulling students out into small groups for project-based work, but instead of this being determined by a pacing guide, this is now being determined by where the students are in their learning. What was so interesting was that in this model, teachers were able to do the tutoring and value enrichment work that teachers really like to do but don't always get time to do in a classroom. One of the challenges the teachers mentioned was staying on top of scheduling. How do you keep track when you have students at different places in the curriculum? Those were tough decisions for teachers to make and they were, as you say, learning on the job.
  • When students own their learning, they feel responsible for it and motivated to do it. What they also appreciated was that the teacher was no longer there to "punish them" or "grade them down". Instead the teacher was there to help them reach their goal. This is much more of an environment built around success and motivation versus failure.
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  • I also think the assessment system that we have in place in schools is a problem for this learning system going forward. Assessment needs to be based on where each individual child started and then grew to and finally ended up in a particular year, versus a snapshot once a year view of an entire school.
  • Barbara Lindsey on 19 Jul 12
     
    fall 2012 syllabus
Barbara Lindsey

Education Week: Science Grows on Acquiring New Language - 0 views

www.edweek.org/...09window_ep.h30.html

language learning brain research

shared by Barbara Lindsey on 26 Oct 10 - No Cached
  • For example, when babies born to native-English-speaking parents played three times a week during that window with a native-Mandarin-speaking tutor, at 12 months, they had progressed in their ability to recognize both English and Mandarin sounds, rather than starting to retrench in the non-native language. By contrast, children exposed only to audio or video recordings of native speakers showed no change in their language trajectory. Brain-imaging of the same children backed up the results of test-based measures of language specialization.
  • The research may not immediately translate into a new language arts curriculum, but it has already deepened the evidence for something most educators believe instinctively: Social engagement, particularly with speakers of multiple languages, is critical to language learning.
  • “The key to that series of studies is exposure and live interactions with native speakers,” Ms. Lebedeva said. “The interactions need to be naturalistic: eye contact, gestures, exaggerated phonemes.”
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  • “Human brains are wired to learn best in social interactions, whether that learning is about language or problem-solving or emotion,” Ms. Lebedeva said, “but language is such a ubiquitous human behavior that studying it gives us an example of how more general learning takes place.”
  • at the science-oriented Ultimate Block Party held in New York City this month, children of different backgrounds played games in which they were required to sort toys either by shape or color, based on a rule indicated by changing flashcards. A child sorting blue and yellow ducks and trucks by shape, say, might suddenly have to switch to sorting them by color. The field games exemplified research findings that bilingual children have greater cognitive flexibility than monolingual children. That is, they can adapt better than monolingual children to changes in rules—What criteria do I use to sort?—and close out mental distractions—It doesn’t matter that some blue items are ducks and some are trucks.
  • Barbara Lindsey on 26 Oct 10
     
    researchers long thought the window for learning a new language shrinks rapidly after age 7 and closes almost entirely after puberty. Yet interdisciplinary research conducted over the past five years at the University of Washington, Pennsylvania State University, and other colleges suggest that the time frame may be more flexible than first thought and that students who learn additional languages become more adaptable in other types of learning, too.
Barbara Lindsey

Pontydysgu - Bridge to Learning » Blog Archive » Learners can use technologie... - 0 views

www.pontydysgu.org/...he-problem-is-the-institutions

assessment charges facebook groups homework misconduct university

shared by Barbara Lindsey on 16 Mar 08 - Cached
  • “First-year student Chris Avenir is fighting charges of academic misconduct for helping run an online chemistry study group via Facebook last term, where 146 classmates swapped tips on homework questions that counted for 10 per cent of their mark.
  • using Facebook to talk about schoolwork, when actually it’s no different than any study group working together on homework in a library,” said Neale.
  • if I post a question about physics homework on my friend’s wall (a Facebook bulletin board) and ask if anyone has any ideas how to approach this – and my prof sees this, am I cheating?” said Neale, who has used Facebook study groups herself.”
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  • if this kind of help is cheating, then so is tutoring and all the mentoring programs the university runs and the discussions we do in tutorials.
  • every survey of employers suggests that the ability to work as part of a team is both one of the most sought after competencies and one which they feel is not being taught by the education system.
Barbara Lindsey

Planning for Neomillennial Learning Styles: Implications for Investments in Technology ... - 0 views

www.educause.edu/...6069

learning students styles

shared by Barbara Lindsey on 30 Oct 07 - Cached
  • Research indicates that each of these media, when designed for education, fosters particular types of interactions that enable—and undercut—various learning styles.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      How much do we know about our students' learning styles? How do we know this?
  • Over the next decade, three complementary interfaces will shape how people learn
  • But what is so special about the egocentric perspectives and situated learning now enabled by emerging media? After all, each of us lives with an egocentric perspective in the real world and has many opportunities for situated learning without using technology. One attribute that makes mediated immersion different and powerful is the ability to access information resources and psychosocial community distributed across distance and time, broadening and deepening experience. A second important attribute is the ability to create interactions and activities in mediated experience not possible in the real world, such as teleporting within a virtual environment, enabling a distant person to see a real-time image of your local environment, or interacting with a (simulated) chemical spill in a busy public setting. Both of these attributes are actualized in the Alice-in-Wonderland interface.
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  • This immersion in virtual environments and augmented realities shapes participants' learning styles beyond what using sophisticated computers and telecommunications has fostered thus far, with multiple implications for higher education.
  • Beyond actional and symbolic immersion, advances in interface technology are now creating virtual environments and augmented realities that induce a psychological sense of sensory and physical immersion.
  • The research on virtual reality Salzman and I conducted on frames of reference found that the exocentric and the egocentric FORs have different strengths for learning. Our studies established that learning ideally involves a "bicentric" perspective alternating between egocentric and exocentric FORs.
    • Barbara Lindsey
      Barbara Lindsey on 10 Nov 08
       
      Could we make the argument that this is one of the main goals of language programs?
  • The familiar "world to the desktop." Provides access to distant experts and archives and enables collaborations, mentoring relationships, and virtual communities of practice. This interface is evolving through initiatives such as Internet2. "Alice in Wonderland" multiuser virtual environments (MUVEs). Participants' avatars (self-created digital characters) interact with computer-based agents and digital artifacts in virtual contexts. The initial stages of studies on shared virtual environments are characterized by advances in Internet games and work in virtual reality. Ubiquitous computing. Mobile wireless devices infuse virtual resources as we move through the real world. The early stages of "augmented reality" interfaces are characterized by research on the role of "smart objects" and "intelligent contexts" in learning and doing.
  • Notion of place is layered/blended/multiple; mobility and nomadicity prevalent among dispersed, fragmented, fluctuating habitats (for example, coffeehouses near campus)
  • Guided social constructivism and situated learning as major forms of pedagogy
  • he defining quality of a learning community is that there is a culture of learning, in which everyone is involved in a collective effort of understanding. There are four characteristics that such a culture must have: (1) diversity of expertise among its members, who are valued for their contributions and given support to develop, (2) a shared objective of continually advancing the collective knowledge and skills, (3) an emphasis on learning how to learn, and (4) mechanisms for sharing what is learned. If a learning community is presented with a problem, then the learning community can bring its collective knowledge to bear on the problem. It is not necessary that each member assimilate everything that the community knows, but each should know who within the community has relevant expertise to address any problem. This is a radical departure from the traditional view of schooling, with its emphasis on individual knowledge and performance, and the expectation that students will acquire the same body of knowledge at the same time.26
  • Peer-developed and peer-rated forms of assessment complement faculty grading, which is often based on individual accomplishment in a team performance context  Assessments provide formative feedback on instructional effectiveness
  • Multipurpose habitats—creating layered/blended/personalizable places rather than specialized locations (such as computer labs)
  • o the extent that some of these ideas about neomillennial learning styles are accurate, campuses that make strategic investments in physical plant, technical infrastructure, and professional development along the dimensions suggested will gain a considerable competitive advantage in both recruiting top students and teaching them effectively.
  • Net Generation learning styles stem primarily from the world-to-the-desktop interface; however, the growing prevalence of interfaces to virtual environments and augmented realities is beginning to foster so-called neomillennial learning styles in users of all ages.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      What is the timeline?
  • Immersion is the subjective impression that one is participating in a comprehensive, realistic experience.
  • Inducing a participant's symbolic immersion involves triggering powerful semantic associations via the content of an experience.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      Felice's Utopian City
  • The capability of computer interfaces to foster psychological immersion enables technology-intensive educational experiences that draw on a powerful pedagogy: situated learning.
  • The major schools of thought cited are behaviorist theories of learning (presentational instruction), cognitivist theories of learning (tutoring and guided learning by doing), and situated theories of learning (mentoring and apprenticeships in communities of practice).
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      What kinds of learning environments do you prefer and what kinds do you create for your students?
  • Situated learning requires authentic contexts, activities, and assessment coupled with guidance from expert modeling, mentoring, and "legitimate peripheral participation."8 As an example of legitimate peripheral participation, graduate students work within the laboratories of expert researchers, who model the practice of scholarship. These students interact with experts in research as well as with other members of the research team who understand the complex processes of scholarship to varying degrees. While in these laboratories, students gradually move from novice researchers to more advanced roles, with the skills and expectations for them evolving.
  • Potentially quite powerful, situated learning is much less used for instruction than behaviorist or cognitivist approaches. This is largely because creating tacit, relatively unstructured learning in complex real-world settings is difficult.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      Not too far in the future!
  • However, virtual environments and ubiquitous computing can draw on the power of situated learning by creating immersive, extended experiences with problems and contexts similar to the real world.9 In particular, MUVEs and real-world settings augmented with virtual information provide the capability to create problem-solving communities in which participants can gain knowledge and skills through interacting with other participants who have varied levels of skills, enabling legitimate peripheral participation driven by intrinsic sociocultural forces.
  • Situated learning is important in part because of the crucial issue of transfer. Transfer is defined as the application of knowledge learned in one situation to another situation and is demonstrated if instruction on a learning task leads to improved performance on a transfer task, typically a skilled performance in a real-world setting
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      One of the most difficult skills to master.
  • Moreover, the evolution of an individual's or group's identity is an important type of learning for which simulated experiences situated in virtual environments or augmented realities are well suited. Reflecting on and refining an individual identity is often a significant issue for higher education students of all ages, and learning to evolve group and organizational identity is a crucial skill in enabling innovation and in adapting to shifting contexts.
  • Immersion is important in this process of identity exploration because virtual identity is unfettered by physical attributes such as gender, race, and disabilities.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      Don't agree with this. We come to any environment with our own baggage and we do not interact in a neutral social context.
  • Thanks to out-of-game trading of in-game items, Norrath, the virtual setting of the MMOG EverQuest, is the seventy-seventh largest economy in the real world, with a GNP per capita between that of Russia and Bulgaria. One platinum piece, the unit of currency in Norrath, trades on real world exchange markets higher than both the Yen and the Lira (Castronova, 2001).14
  • Multiple teams of students can access the MUVE simultaneously, each individual manipulating an avatar which is "sent back in time" to this virtual environment. Students must collaborate to share the data each team collects. Beyond textual conversation, students can project to each other "snapshots" of their current individual point of view (when someone has discovered an item of general interest) and also can "teleport" to join anyone on their team for joint investigation. Each time a team reenters the world, several months of time have passed in River City, so learners can track the dynamic evolution of local problems.
  • In our research on this educational MUVE based on situated learning, we are studying usability, student motivation, student learning, and classroom implementation issues. The results thus far are promising: All learners are highly motivated, including students typically unengaged in classroom settings. All students build fluency in distributed modes of communication and expression and value using multiple media because each empowers different types of communication, activities, experiences, and expressions. Even typically low-performing students can master complex inquiry skills and sophisticated content. Shifts in the pedagogy within the MUVE alter the pattern of student performance.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      Would like to see research on this.
  • Research shows that many participants value this functionality and choose to access the Web page after leaving the museum.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      More could be done with this.
  • Participants in these distributed simulations use location-aware handheld computers (with GPS technology), allowing users to physically move throughout a real-world location while collecting place-dependent simulated field data, interviewing virtual characters, and collaboratively investigating simulated scenarios.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      Much better
  • Initial research on Environmental Detectives and other AR-based educational simulations demonstrates that this type of immersive, situated learning can effectively engage students in critical thinking about authentic scenarios.
  • Students were most effective in learning and problem-solving when they collectively sought, sieved, and synthesized experiences rather than individually locating and absorbing information from some single best source.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      How does this 'fit' learning goals and teaching styles in our program?
  • Rheingold's forecasts draw on lifestyles seen at present among young people who are high-end users of new media
  • Rather than having core identities defined through a primarily local set of roles and relationships, people would express varied aspects of their multifaceted identities through alternate extended experiences in distributed virtual environments and augmented realities.
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      How is this different from current experiences for individuals working within/across different social groups and boundaries?
  • one-third of U.S. households now have broadband access to the Internet. In the past three years, 14 million U.S. families have linked their computers with wireless home networks. Some 55 percent of Americans now carry cell phones
  • Mitchell's forecasts25 are similar to Rheingold's in many respects. He too envisions largely tribal lifestyles distributed across dispersed, fragmented, fluctuating habitats: electronic nomads wandering among virtual campfires. People's senses and physical agency are extended outward and into the intangible, at considerable cost to individual privacy. Individual identity is continuously reformed via an ever-shifting series of networking with others and with tools. People express themselves through nonlinear, associational webs of representations rather than linear "stories" and co-design services rather than selecting a precustomized variant from a menu of possibilities.
  • More and more, though, people of all ages will have lifestyles involving frequent immersion in both virtual and augmented reality. How might distributed, immersive media be designed specifically for education, and what neomillennial learning styles might they induce?
  • Mediated immersion creates distributed learning communities, which have different strengths and limits than location-bound learning communities confined to classroom settings and centered on the teacher and archival materials.27
  • Neomillenial Versus Millennial Learning Styles
  • Emphasis is placed on implications for strategic investments in physical plant, technology infrastructure, and professional development.
  • such as textbooks linked to course ratings by students)
  • Mirroring": Immersive virtual environments provide replicas of distant physical settings
  • Middleware, interoperability, open content, and open source
  • Finding information Sequential assimilation of linear information stream
  • Student products generally tests or papers Grading centers on individual performance
  • These ideas are admittedly speculative rather than based on detailed evidence and are presented to stimulate reaction and dialogue about these trends.
  • f we accept much of the analysis above
    • Barbara Lindsey
      Barbara Lindsey on 30 Oct 07
       
      But have they made the case for its educational value?
  • students of all ages with increasingly neomillennial learning styles will be drawn to colleges and universities that have these capabilities. Four implications for investments in professional development also are apparent. Faculty will increasingly need capabilities in:
  • Some of these shifts are controversial for many faculty; all involve "unlearning" almost unconscious beliefs, assumptions, and values about the nature of teaching, learning, and the academy. Professional development that requires unlearning necessitates high levels of emotional/social support in addition to mastering the intellectual/technical dimensions involved. The ideal form for this type of professional development is distributed learning communities so that the learning process is consistent with the knowledge and culture to be acquired. In other words, faculty must themselves experience mediated immersion and develop neomillennial learning styles to continue teaching effectively as the nature of students alters.
  • Differences among individuals are greater than dissimilarities between groups, so students in any age cohort will present a mixture of neomillennial, millennial, and traditional learning styles
  • The technologies discussed are emerging rather than mature, so their final form and influences on users are not fully understood. A substantial number of faculty and administrators will likely dismiss and resist some of the ideas and recommendations presented here.
Barbara Lindsey

2010 Horizon Report » One Year or Less: Open Content - 0 views

wp.nmc.org/...open-content

HorizonReport opencontent

shared by Barbara Lindsey on 28 Jan 10 - Cached
  • The movement toward open content reflects a growing shift in the way academics in many parts of the world are conceptualizing education to a view that is more about the process of learning than the information conveyed in their courses. Information is everywhere; the challenge is to make effective use of it.
  • As customizable educational content is made increasingly available for free over the Internet, students are learning not only the material, but also skills related to finding, evaluating, interpreting, and repurposing the resources they are studying in partnership with their teachers.
  • collective knowledge and the sharing and reuse of learning and scholarly content,
  • ...16 more annotations...
  • the notion of open content is to take advantage of the Internet as a global dissemination platform for collective knowledge and wisdom, and to design learning experiences that maximize the use of it.
  • The role of open content producers has evolved as well, away from the idea of authoritative repositories of content and towards the broader notion of content being both free and ubiquitous.
  • schools like Tufts University (and many others) now consider making their course materials available to the public a social responsibility.
  • Many believe that reward structures that support the sharing of work in progress, ongoing research, highly collaborative projects, and a broad view of what constitutes scholarly publication are key challenges that institutions need to solve.
  • learning to find useful resources within a given discipline, assess the quality of content available, and repurpose them in support of a learning or research objective are in and of themselves valuable skills for any emerging scholar, and many adherents of open content list that aspect among the reasons they support the use of shareable materials.
  • Open content shifts the learning equation in a number of interesting ways; the most important is that its use promotes a set of skills that are critical in maintaining currency in any discipline — the ability to find, evaluate, and put new information to use.
  • Communities of practice and learning communities have formed around open content in a great many disciplines, and provide practitioners and independent learners alike an avenue for continuing education.
  • Art History. Smarthistory, an open educational resource dedicated to the study of art, seeks to replace traditional art history textbooks with an interactive, well-organized website. Search by time period, style, or artist (http://smarthistory.org).
  • American Literature before 1860 http://enh241.wetpaint.com Students in this course, held at Mesa Community College, contribute to the open course material as part of their research. MCC also features a number of lectures on YouTube (see http://www.youtube.com/user/mesacc#p/p).
  • Carnegie Mellon University’s Open Learning Initiative http://oli.web.cmu.edu/openlearning/ The Open Learning Initiative offers instructor-led and self-paced courses; any instructor may teach with the materials, regardless of affiliation. In addition, the courses include student assessment and intelligent tutoring capability.
  • Connexions http://cnx.org Connexions offers small modules of information and encourages users to piece together these chunks to meet their individual needs.
  • eScholarship: University of California http://escholarship.org/about_escholarship.html eScholarship provides peer review and publishing for scholarly articles, books, and papers, using an open content model. The service also includes tools for dissemination and research.
  • MIT OpenCourseWare http://ocw.mit.edu The Massachusetts Institute of Technology publishes lectures and materials from most of its undergraduate and graduate courses online, where they are freely available for self-study.
  • Open.Michigan’s dScribe Project https://open.umich.edu/projects/oer.php The University of Michigan’s Open.Michigan initiative houses several open content projects. One, dScribe, is a student-centered approach to creating open content. Students work with faculty to select and vet resources, easing the staffing and cost burden of content creation while involving the students in developing materials for themselves and their peers.
  • Center for Social Media Publishes New Code of Best Practices in OCW http://criticalcommons.org/blog/content/center-for-social-media-publishes-new-code-of-best-practices-in-ocw (Critical Commons, 25 October 2009.) The advocacy group Critical Commons seeks to promote the use of media in open educational resources. Their Code of Best Practices in Fair Use for OpenCourseWare is a guide for content developers who want to include fair-use material in their offerings.
  • Flat World Knowledge: A Disruptive Business Model http://industry.bnet.com/media/10003790/flat-world-knowledge-a-disruptive-business-model/ (David Weir, BNET, 20 August 2009.) Flat World Knowledge is enjoying rapid growth, from 1,000 students in the spring of 2009 to 40,000 in the fall semester using their materials. The company’s business model pays a higher royalty percentage to textbook authors and charges students a great deal less than traditional publishers.
Barbara Lindsey

Learning Spaces | EDUCAUSE - 0 views

www.educause.edu/...6072

shared by Barbara Lindsey on 05 Apr 10 - Cached
  • Net Gen students are facile at multitasking
    • Barbara Lindsey
      Barbara Lindsey on 05 Apr 10
       
      The research shows that no one can multitask effectively... See John Medina and Brain Rules, for example.
  • Workers anticipated having a single profession for the duration of their working lives. Education was based on a factory-like, "one size fits all" model. Talent was developed by weeding out those who could not do well in a monochromatic learning environment.
    • Barbara Lindsey
      Barbara Lindsey on 05 Apr 10
       
      Also part and parcel of hegemonic educational practices which served to reinforce the existing social and economic paradigm.
  • Knowing now means using a well-organized set of facts to find new information and to solve novel problems. In 1900, learning consisted largely of memorization; today it relies chiefly on understanding.
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  • learners construct knowledge by understanding new information building on their current understanding and expertise. Constructivism contradicts the idea that learning is the transmission of content to a passive receiver. Instead, it views learning as an active process, always based on the learner's current understanding or intellectual paradigm. Knowledge is constructed by assimilating new information into the learner's knowledge paradigm. A learner does not come to a classroom or a course Web site with a mind that is a tabula rasa, a blank slate. Each learner arrives at a learning "site" with some preexisting level of understanding.
  • Learning science research also highlights the importance of learner engagement, or as the American Psychological Association describes it, intentional learning.1 This means that learners must have a "metaperspective" from which to view and assess their own learning, which is often referred to as metacognition.2 An active learning environment provides the opportunity to assess one's own learning, enabling learners to make decisions about the course, as well as reflect on and assess their progress. In the past, the measure of learning was the final grade (a summative measure). But a final grade is merely a measure of the student's performance on tests. It does not measure the learning that did—or did not—take place. To encourage learning, summative testing or assessments must be combined with formative assessments. Formative assessment is not directly associated with the final grade; it helps learners understand their learning and make decisions about next steps based on that understanding.
  • research indicating that learning is encouraged when it includes social components such as debate or direct engagement with peers and experts. Learning is strengthened through social interactions, interpersonal relations, and communication with others.
  • Research indicates that learners need to be active with respect to their own learning process and assessment. Net Gen students' goal and achievement orientation comes into play here: that achievement focus can be directed toward quizzes and exercises that assist learners in evaluating their progress toward learning goals.
  • Obviously not all forms of learning must be social or team-based. In a variety of learning contexts, individual work is important. It may well be that Net Gen students' strengths are also their weaknesses. The expectation for fast-paced, rapidly shifting interaction coupled with a relatively short attention span may be counterproductive in many learning contexts. Repetition and steady, patient practice—key to some forms of mastery—may prove difficult for Net Gen students. Designing courses for them necessitates balancing these strengths and weaknesses.
  • We should not neglect the informal for the formal, or assume that Net Gen students somehow will figure out the virtual space on their own. We should connect what happens in the classroom with what happens in informal and virtual spaces.
  • Simply installing wireless access points and fresh carpeting isn't enough if done in isolation; such improvements pay real dividends only if they are in concert with the institution's overall teaching and learning objectives. It is the vision that generates the design principles that will, in turn, be used to make key decisions about how learning spaces are configured.
  • The vision and design principles should emphasize the options students have as active participants in the learning process. Design principles should include terms such as analyze, create, criticize, debate, present, and classify—all directed at what the space enables the students to do. For example, students should be able to present materials to the class. Outside class, they should have access to applications and materials that directly support analysis of data, text, and other media. Forums for discussion and critical debate, both real and virtual, are key to encouraging learning and will be looked for by Net Gen students.
  • Learning spaces should accommodate the use of as many kinds of materials as possible and enable the display of and access to those materials by all participants. Learning space needs to provide the participants—instructors and students alike—with interactive tools that enable exploration, probing, and examination. This might include a robust set of applications installed on the computer that controls the room's displays, as well as a set of communication tools. Since the process of examination and debate leads to discovery and the construction of new knowledge, it could be important to equip spaces with devices that can capture classroom discussion and debate, which can be distributed to all participants for future reference and study.
  • the end of the class meeting marks a transition from one learning mode to another.
  • This lecture hall is of relatively recent vintage; its seats and paired tables make it much easier to deploy and use her "tools," which include printouts of the day's reading, as well as a small laptop computer. Her fellow students are doing likewise. Each of them is using some device to access the course's Web site—some with laptops, others with tablet computers, still others with handheld computers. Using wireless connections, they all access the course's Web site and navigate to the site's "voting" page.
  • a "magic wand," a radio-frequency controller that enables her to operate her computer—as well as many of the classroom's functions—wirelessly, from any point in the room. She can capture anything she writes on the blackboard and make it available to her students on the course Web site. Freed from needing to take extensive notes, the students are able to participate more fully in the class discussion. Finally, the professor is carrying a small recorder that captures her lecture, digitizes the audio, and uploads it to the course Web site for the students to review when they prepare for finals.
  • Sandra launches the classroom's screen sharing application. Within a few seconds, her computer's screen is projected on the room's main screen. The class discussion focuses on this diagram, and the professor, using a virtual pencil, is able to make notes on the diagram. The diagram and notes are captured and placed on the class Web site for review.
  • Soon the debate gets stuck; the students can't resolve the issue. The professor goes to the podium, types briefly, and then asks the students to go to a URL to see a question and to choose the answer they feel is correct. The students access the Web page from laptops, handhelds, or wireless IP-based phones. In two minutes they have completed the poll and submitted their responses. The results are quickly tabulated and displayed. The wide diversity of opinion surprises everyone. The professor reframes the issue, without giving the answer, and the students continue to discuss it. She repeats the poll; this time there is more agreement among the students, enabling her to move the discussion forward.
    • Barbara Lindsey
      Barbara Lindsey on 05 Apr 10
       
      Could you see being able to do this? Would this work for you?
  • She goes to the podium computer and clicks on a few links, and soon a videoconferencing session is displayed on the right-hand screen. She has arranged to have a colleague of hers "drop in" on the class to discuss a point that is in the colleague's particular area of expertise. The class has a conversation with the expert, who is at large research institution more than 500 miles away. Students listen to the expert's comments and are able to pose questions using one of the three cordless microphones available to the class. On the left-hand screen, the visiting professor shows some images and charts that help explain the concepts under discussion.
  • the other students in her class have signed up for most of the slots, conferring with friends using chat programs to ensure that they sign up for the same lab slots.
  • The discussion pocket is the college's term for a small, curved space with a table and bench to accommodate a meeting of four or five people. Found outside the newer classrooms, they are handy for informal, spontaneous discussions. Sandra's group moves into the pocket and for the next 15 minutes continue their "spill over" discussion of the class.
    • Barbara Lindsey
      Barbara Lindsey on 05 Apr 10
       
      How does this change perceptions of when and where learning begins and ends?
  • hey are able to have an audio chat; Sandra's friend is in her dorm room, and Sandra is in a remote corner of the library where conversation will not disturb others. As their discussion progresses, they go to the course's Web site and launch the virtual whiteboard to diagram some concepts. They develop a conceptual diagram—drawing, erasing, and revising it until they agree the diagram is correct. They both download a copy. Sandra volunteers to work on polishing the diagram and will leave a copy of the final diagram in her share folder in her online portfolio "locker
  • The underlying theme remains the same, however: cultivating learning practices consistent with learning theory and aligned with the habits and expectations of Net Gen students
  • For most higher education institutions, the lecture hall will not disappear; the challenge is to develop a new generation of lecture hall, one that enables Net Gen students and faculty to engage in enlivened, more interactive experiences. If the lecture hall is integrated with other spaces—physically as well as virtually—it will enable participants to sustain the momentum from the class session into other learning contexts. The goal is not to do away with the traditional classroom, but rather to reinvent and to integrate it with the other learning spaces, moving toward a single learning environment.
  • Learning theory is central to any consideration of learning spaces; colleges and universities cannot afford to invest in "fads" tailored to the Net Gen student that might not meet the needs of the next generation.
  • For example, start with the Net Gen students' focus on goals and achievement. That achievement orientation ties to learning theory's emphasis on metacognition, where learners assess their progress and make active decisions to achieve learning goals. Learning space design could support this by providing contact with people who can provide feedback: tutors, consultants, and faculty. This could, in turn, be supported in the IT environment by making formative self-tests available, as well as an online portfolio, which would afford students the opportunity to assess their overall academic progress.
  • As institutions create an anywhere, anytime IT infrastructure, opportunities arise to tear down silos and replace them with a more ubiquitous learning environment. Using laptops and other networked devices, students and faculty are increasingly able to carry their entire working environment with them. To capitalize on this, campus organizations must work collaboratively to create a more integrated work environment for the students and faculty, one that better serves the mobile Net Gen students as well as a faculty faced with the initial influx of these students into their ranks
  • One of the key variables is the institution itself. Learning spaces are institutional in scope—their implementation involves the institution's culture, tradition, and mission.
  • The starting point for rethinking learning spaces to support Net Gen students begins with an underlying vision for the learning activities these spaces should support. This vision should be informed by learning theory, as well as by recognition of the characteristics of the students and faculty who use these spaces.
Barbara Lindsey

Can Higher Education Be Fixed? The Innovative University - Forbes - 0 views

www.forbes.com/...ixed-the-innovative-university

highered innovation interview Q&A

shared by Barbara Lindsey on 25 Sep 11 - No Cached
  • Harvard has invested heavily in a system of residential housing and high-quality tutoring.  This means that even students who pay the tuition sticker price aren’t covering the full cost of their education.  Thus, growing the size of its “customer” base, which is how businesses achieve scale economies and greater profitability, is financially problematic for Harvard and for other universities with similar operating models. 
  • What is the purpose of a university as depicted in this book? Is it: A. A university is an institution that provides a degree, which is a credential or screening device for the economy and for society? Or B.  A university is an institution in which people acquire the knowledge they need for a particular job? Or C.  A university is an institution in which people acquire the knowledge they need to be a citizen? Or D.  A university is an experience where you acquire a capacity to be a lifelong learner (because most of the knowledge you acquire will be obsolete within a few years and the jobs of tomorrow will not be the jobs of today)? Or E. Something else?
  • One of the best ways to learn to learn is to be an active learner and a teacher of one’s fellow students in college. This instructional philosophy isn’t yet widespread, but its effectiveness has been proven, and it doesn’t require additional financial investment, only a change in the attitudes of faculty members and students.  Broader adoption seems likely, with time.
    • Barbara Lindsey
      Barbara Lindsey on 25 Sep 11
       
      Would you agree that this is true for learning to occur? Is this all that is necessary?
  • ...5 more annotations...
  • All three require talented faculty members with scholarly training.  These things are (1) discovering and disseminating new knowledge, (2) preserving the discoveries of the past, and (3) personally mentoring students in ways that allow them to participate in (1) and (2).  Doing these things well takes special training.  It is inherently expensive, because the processes involved are hard to automate or even systematize very much. 
  • Harvard and BYU-Idaho involve their students in teaching one another.  They also have general education courses, created in the last five years, that cut across academic disciplines and engage students in applying principles and theories to real-world problems.  These instructional approaches challenge students to frame inquiries, rather than merely respond to questions posed by their professors.
  • Harvard and other elite institutions are in a paradoxical position.  Their students and alumni are satisfied with their current offerings; in fact, they have a huge surplus of qualified applicants.
  • We’re likely to significant change in the next decade, the net effect of which will be more students served at a lower average cost.  However, the nature of the evolution will differ among institutions.  The elite schools will hybridize their courses not primarily to reduce cost or grow enrollments, but to better serve the rising generation of “digital natives” and to make the most of learning-enhancing computer-adaptive technology.  By contrast, schools without the benefit of high prestige and large endowments will hybridize and offer fully online courses mainly so that they can keep tuition affordable, admit more students, and use the incremental revenues to plug the hole left by rising operating costs and declining state support.  In all cases, students will benefit.
    • Barbara Lindsey
      Barbara Lindsey on 25 Sep 11
       
      Do you agree that all students will benefit?
  • Most professors will need to spend the majority of their time teaching.  A school that generates the bulk of its revenues via tuition will be able to afford some time for faculty research.  However, that research will need to have relevance to the student learning experience, and it won’t be the driving factor in tenure decisions; teaching quality will be.  Tenure based primarily on publications isn’t a sustainable model for most institutions.
  • Barbara Lindsey on 25 Sep 11
     
    Q&A w/authors of Innovative University
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