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Carlos Quintero

Innovate: Future Learning Landscapes: Transforming Pedagogy through Social Software - 0 views

  • Web 2.0 has inspired intense and growing interest, particularly as wikis, weblogs (blogs), really simple syndication (RSS) feeds, social networking sites, tag-based folksonomies, and peer-to-peer media-sharing applications have gained traction in all sectors of the education industry (Allen 2004; Alexander 2006)
  • Web 2.0 allows customization, personalization, and rich opportunities for networking and collaboration, all of which offer considerable potential for addressing the needs of today's diverse student body (Bryant 2006).
  • In contrast to earlier e-learning approaches that simply replicated traditional models, the Web 2.0 movement with its associated array of social software tools offers opportunities to move away from the last century's highly centralized, industrial model of learning and toward individual learner empowerment through designs that focus on collaborative, networked interaction (Rogers et al. 2007; Sims 2006; Sheely 2006)
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  • learning management systems (Exhibit 1).
  • The reality, however, is that today's students demand greater control of their own learning and the inclusion of technologies in ways that meet their needs and preferences (Prensky 2005)
  • Tools like blogs, wikis, media-sharing applications, and social networking sites can support and encourage informal conversation, dialogue, collaborative content generation, and knowledge sharing, giving learners access to a wide range of ideas and representations. Used appropriately, they promise to make truly learner-centered education a reality by promoting learner agency, autonomy, and engagement in social networks that straddle multiple real and virtual communities by reaching across physical, geographic, institutional, and organizational boundaries.
  • "I have always imagined the information space as something to which everyone has immediate and intuitive access, and not just to browse, but to create” (2000, 216). Social software tools make it easy to contribute ideas and content, placing the power of media creation and distribution into the hands of "the people formerly known as the audience" (Rosen 2006).
  • the most promising settings for a pedagogy that capitalizes on the capabilities of these tools are fully online or blended so that students can engage with peers, instructors, and the community in creating and sharing ideas. In this model, some learners engage in creative authorship, producing and manipulating digital images and video clips, tagging them with chosen keywords, and making this content available to peers worldwide through Flickr, MySpace, and YouTube
  • Student-centered tasks designed by constructivist teachers reach toward this ideal, but they too often lack the dimension of real-world interactivity and community engagement that social software can contribute.
  • Pedagogy 2.0: Teaching and Learning for the Knowledge Age In striving to achieve these goals, educators need to revisit their conceptualization of teaching and learning (Exhibit 2).
  • Pedagogy 2.0: Teaching and Learning for the Knowledge Age In striving to achieve these goals, educators need to revisit their conceptualization of teaching and learning
  • Pedagogy 2.0 is defined by: Content: Microunits that augment thinking and cognition by offering diverse perspectives and representations to learners and learner-generated resources that accrue from students creating, sharing, and revising ideas; Curriculum: Syllabi that are not fixed but dynamic, open to negotiation and learner input, consisting of bite-sized modules that are interdisciplinary in focus and that blend formal and informal learning;Communication: Open, peer-to-peer, multifaceted communication using multiple media types to achieve relevance and clarity;Process: Situated, reflective, integrated thinking processes that are iterative, dynamic, and performance and inquiry based;Resources: Multiple informal and formal sources that are rich in media and global in reach;Scaffolds: Support for students from a network of peers, teachers, experts, and communities; andLearning tasks: Authentic, personalized, learner-driven and learner-designed, experiential tasks that enable learners to create content.
  • Instructors implementing Pedagogy 2.0 principles will need to work collaboratively with learners to review, edit, and apply quality assurance mechanisms to student work while also drawing on input from the wider community outside the classroom or institution (making use of the "wisdom of crowds” [Surowiecki 2004]).
  • A small portion of student performance content—if it is new knowledge—will be useful to keep. Most of the student performance content will be generated, then used, and will become stored in places that will never again see the light of day. Yet . . . it is still important to understand that the role of this student content in learning is critical.
  • This understanding of student-generated content is also consistent with the constructivist view that acknowledges the learner as the chief architect of knowledge building. From this perspective, learners build or negotiate meaning for a concept by being exposed to, analyzing, and critiquing multiple perspectives and by interpreting these perspectives in one or more observed or experienced contexts
  • This understanding of student-generated content is also consistent with the constructivist view that acknowledges the learner as the chief architect of knowledge building. From this perspective, learners build or negotiate meaning for a concept by being exposed to, analyzing, and critiquing multiple perspectives and by interpreting these perspectives in one or more observed or experienced contexts. In so doing, learners generate their own personal rules and knowledge structures, using them to make sense of their experiences and refining them through interaction and dialogue with others.
  • Other divides are evident. For example, the social networking site Facebook is now the most heavily trafficked Web site in the United States with over 8 million university students connected across academic communities and institutions worldwide. The majority of Facebook participants are students, and teachers may not feel welcome in these communities. Moreover, recent research has shown that many students perceive teaching staff who use Facebook as lacking credibility as they may present different self-images online than they do in face-to-face situations (Mazer, Murphy, and Simonds 2007). Further, students may perceive instructors' attempts to coopt such social technologies for educational purposes as intrusions into their space. Innovative teachers who wish to adopt social software tools must do so with these attitudes in mind.
  • "students want to be able to take content from other people. They want to mix it, in new creative ways—to produce it, to publish it, and to distribute it"
  • Furthermore, although the advent of Web 2.0 and the open-content movement significantly increase the volume of information available to students, many higher education students lack the competencies necessary to navigate and use the overabundance of information available, including the skills required to locate quality sources and assess them for objectivity, reliability, and currency
  • In combination with appropriate learning strategies, Pedagogy 2.0 can assist students in developing such critical thinking and metacognitive skills (Sener 2007; McLoughlin, Lee, and Chan 2006).
  • We envision that social technologies coupled with a paradigm of learning focused on knowledge creation and community participation offer the potential for radical and transformational shifts in teaching and learning practices, allowing learners to access peers, experts, and the wider community in ways that enable reflective, self-directed learning.
  • . By capitalizing on personalization, participation, and content creation, existing and future Pedagogy 2.0 practices can result in educational experiences that are productive, engaging, and community based and that extend the learning landscape far beyond the boundaries of classrooms and educational institutions.
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    About pedagogic 2.0
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    Future Learning Landscapes: Transforming Pedagogy through Social Software Catherine McLoughlin and Mark J. W. Lee
Ruth Howard

Social Media Classroom - 0 views

  • The Social Media Classroom is a set of free and open source social media
  • It was initially created by Howard Rheingold and Sam Rose
  • Colab was created specifically to teach social media theory by the use of social media, a
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  • Although the Colab was created specifically to teach social media theory by the use of social media, and the Social Media Classroom includes resource lists, syllabi, and , lesson plans focused on that specific subject, it was intended from the beginning to serve as an all-purpose tool for educators who seek to use social media in pursuit of a more participative pedagogy. That’s where the community of practice comes in. We’re devoting an instance of the Colab to converations among educational practitioners that we hope to grow into a self-sustaining community around the use of social software in pedagogy in the broadest sense—any subject, any age level, any institution. We welcome participants who want to learn more, share best practices, meet others who share an interest in social media in education. The hope of those who created the initial Colab and accompanying curricular and support material is that this effort, and the tools we provide, will inspire others to vastly expand and deepen our resource repository, add their syllabi and lesson plans, discuss with and learn from others. We’ll start with Forums, where the early participants can meet and discuss what we’d like to do together, and the wiki, where we’ve seeded some fundamental resources and invite others to add new ones. If there is interest, we can add blogs, chat, RSS, social bookmarking, microblogging and video. The Colab is based on Drupal, a free and open source Content Management System, and we hope to grow ties with others in that community who are interested in working with educators to co-develop new tools and improve existing ones. To join the community click here
  • it was intended from the beginning to serve as an all-purpose tool for educators who seek to use social media in pursuit of a more participative pedagogy. That’s where the community of practice comes in.
  • a self-sustaining community around the use of social software in pedagogy in the broadest sense—any subject, any age level, any institution. We welcome participants who want to learn more, share best practices, meet others who share an interest in social media in education.
  • We’ll start with Forums, where the early participants can meet and discuss what we’d like to do together, and the wiki, where we’ve seeded some fundamental resources and invite others to add new ones. If there is interest, we can add blogs, chat, RSS, social bookmarking, microblogging and video.
  • we hope to grow ties with others in that community who are interested in working with educators to co-develop new tools and improve existing ones. To join the community click here
Tero Toivanen

Study on the Effective Use of Social Software by UK FE & HE to Support Student Learning & Engagement : JISC - 0 views

  • This study provides insights about
  • educational goals of using social software tools; enablers or drivers within the institution, or from external sources which positively influence the adoption of social software; benefits to the students, educators and institutions; challenges that may influence a social software initiative; and issues that need to be considered in a social software initiative.
  • social software tools support a variety of ways of learning: sharing of resources (eg bookmarks, photographs), collaborative learning, problem-based and inquiry-based learning, reflective learning, and peer-to-peer learning.
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  • The educator’s role is changing from being a provider of information to a facilitator or moderator
  • adjusting to a ‘new’ way of teaching.
  • The results highlight the different pedagogical roles of social software: communication, nurturing creativity and innovation, and collaborative learning.
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    Study on the Effective Use of Social Software by UK FE & HE to Support Student Learning & Engagement
Steve Ransom

Anti-Social - Mac/OS X Social Networking Block Software - 8 views

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    Anti-Social is a neat little productivity application for Macs that turns off the social parts of the internet. When Anti-Social is running, you're locked away from hundreds of distracting social media sites, including Facebook, Twitter and other sites you specify. With Anti-Social, you'll be amazed how much work you get done when you turn off your friends.
J Black

Web 2.0 Tools - Web 2.0 That Works: Marzano & Web 2.0 - 4 views

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    Web 2.0 Tools From Web 2.0 That Works: Marzano & Web 2.0 Jump to: navigation, search Master List of Web 2.0 Tools "Y" Under each category indicates that this tool can be used with this strategy. "Free +" Indicates that the tool is free at the basic level, but that more advanced versions are available at a cost. Category Key: SD = Identifying Similarities and Differences CL = Cooperative Learning SNT = Summarizing and Note-Taking ER = Reinforcing Effort and Providing Recognition HP = Homework and Practice NR = Nonlinguistic Representation OF = Setting Objectives and Providing Feedback HYP = Generating and Testing Hypotheses QCO = Questions, Cues, and Advance Organizers Tool Link Desc Cost SD CL SNT ER HP NR OF HYP QCO Notes Ajax13 [[1]] Online Graphic Editor Free Y Y Y Y Y Y Y Requires Firefox 1.5 (or higher) Browser Backpack [[2]] Online Personal Organizer Free + Y Y Y Y Y Y Y Basecamp [[3]] Online Project Collaboration Free + Y Y Y Y Y Y Y Y Blogger [[4]] Blog Hosting Website Free Y Y Y Y Y Y bubbl.us [[5]] Online Brainstorming Free Y Y Y Y del.icio.us [[6]] Online Social Bookmarks Free Y Y Y Y Diigo [[7]] Online Social Annotation Free Y Y Y Y Y Y EditGrid [[8]] Online Spreadsheets Free + Y Y Y Y Y Integrates with Facebook and iPhone EduBlogs [[9]] Blog Hosting Website Free Y Y Y Y Y Y Exploratree [[10]] Online Graphic Organizer Free Y Y Y Y Y Y Interactive, pre-made graphic organizers that can be edited online Flickr [[11]] Photo Hosting Website Free + Y Y Y Y Part of Zoho Suite of Online Apps Gliffy [[12]] Online Diagramming Software Free + Y Y Y Google Documents [[13]] Online Word Processor Free Y Y Y Y Y Y Also contains Spreadsheets & Presentations Google Earth [[14]] Dynamic Global Geographic App Free Y Y Downloads to computer Google Maps [[15]] Online Ma
Jeff Johnson

Social Networking: Learning Theory in Action - 0 views

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    There has been a lot of recent debate on the benefits of social networking tools and software in education. While there are good points on either side of the debate, there remains the essential difference in theoretical positioning. Most conventional educational environments are "Objectivist" in nature and highly structured in terms of students progress and choice. Social networking essentially requires a less controlled, user-generated environment, which challenges conventional views of the effective "management" of teaching and learning. Therefore, can social networking both as an instructional concept and user skill be integrated into the conventional approaches to teaching and learning? Do the skills developed within a social networking environment have value in the more conventional environments of learning?
Jeff Johnson

Crossroads in Education: Issues for Web 2.0, Social Software, and Digital Tools - 1 views

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    We are at a crossroads in educating our youth. Since public schools became the norm for education, we've identified curriculum based on the social, political, and economic need. We've classified what counts into tight packages of content in subject areas as math, science, social studies, and so on. Echoing Owen, Grant, Sayers, and Facer (2006), our approach to teaching and learning, including the order and how information is presented to students, the stages of assessment and what constitutes appropriate discussion on those subjects have also been tightly defined (p. 31). Advancements in technology, principally Web 2.0, social software, and digital tools, have challenged what it means to be educated and how we proceed to educate our youth in a culture where innovation and creativity, lifelong learning, personalization (my own learning space), and knowledge from and with the collective vie for a rightful place.
Brevity Software Solutions Pvt Ltd

Request for Quote - Event Management System Development - 0 views

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    Get a quote within 24 hours of contacting Brevity Software Solutions Pvt Ltd for your website designing and development, mobile apps development, travel portal development, transport & logistics Software, enterprise mobility solutions, event management systems, web application, social media app, CRM software eCommerce & m commerce application development. Having any queries regarding our products or services? Just fill out our simple form to request a quote, information or advice and we will get back to you.
Maggie Verster

Online Learning In The Social Web: social media, web2.0, elearning, education - 25 views

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    "Great presentation about social software in education! With case-study and data form students opinons! "
Maggie Verster

Study on the Effective Use of Social Software to Support Student Learning & Engagement - 0 views

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    "Our investigations have shown that social software tools support a variety of ways of learning: sharing of resources (eg bookmarks, photographs), collaborative learning, problem-based and inquiry-based learning, reflective learning, and peer-to-peer learning. Students gain transferable skills of team working, online collaboration, negotiation, and communication, individual and group reflection, and managing digital identities."
David Jonathan Riddle

The Connections Blog - 0 views

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    All things Lotus Connections, social networking, social software and web2.0
Russell D. Jones

Putting Technology in Its Place - Lesson Plans Blog - NYTimes.com - 0 views

  • I rarely grade alone. The students rarely do their homework in isolation. The same chatting software that, when mismanaged, give us fits in our classrooms, enables us to collaborate in dynamic ways. Students now continue fiery classroom debates when they get home from school. They now walk each other through difficult readings of “The Odyssey” and “Hamlet” and return to class with stronger understandings
    • Russell D. Jones
       
      Social Learning
  • it is more crucial that they learn how to sift thoughtfully through increasing amounts of information.
  • The issue now is distinguishing between rich resources and the online collection of surface facts, misinformation, and inexcusable lies that masquerade as the truth. It will be hard for our students to be thoughtful citizens without this ability to discern the useful from the irrelevant. This is especially clear during this election season. If they are never asked to practice dealing with this new onslaught of information, they will have to practice when the stakes are much higher.
    • Russell D. Jones
       
      Another comment about information literacy and the value of information literacy.
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    Using Technology in the classroom and the social learning environment
anonymous

Critical Issue: Using Technology to Improve Student Achievement - 0 views

shared by anonymous on 23 Feb 10 - Cached
  • Technologies available in classrooms today range from simple tool-based applications (such as word processors) to online repositories of scientific data and primary historical documents, to handheld computers, closed-circuit television channels, and two-way distance learning classrooms. Even the cell phones that many students now carry with them can be used to learn (Prensky, 2005).
  • Bruce and Levin (1997), for example, look at ways in which the tools, techniques, and applications of technology can support integrated, inquiry-based learning to "engage children in exploring, thinking, reading, writing, researching, inventing, problem-solving, and experiencing the world." They developed the idea of technology as media with four different focuses: media for inquiry (such as data modeling, spreadsheets, access to online databases, access to online observatories and microscopes, and hypertext), media for communication (such as word processing, e-mail, synchronous conferencing, graphics software, simulations, and tutorials), media for construction (such as robotics, computer-aided design, and control systems), and media for expression (such as interactive video, animation software, and music composition). In a review of existing evidence of technology's impact on learning, Marshall (2002) found strong evidence that educational technology "complements what a great teacher does naturally," extending their reach and broadening their students' experience beyond the classroom. "With ever-expanding content and technology choices, from video to multimedia to the Internet," Marshall suggests "there's an unprecedented need to understand the recipe for success, which involves the learner, the teacher, the content, and the environment in which technology is used."
  • In examining large-scale state and national studies, as well as some innovative smaller studies on newer educational technologies, Schacter (1999) found that students with access to any of a number of technologies (such as computer assisted instruction, integrated learning systems, simulations and software that teaches higher order thinking, collaborative networked technologies, or design and programming technologies) show positive gains in achievement on researcher constructed tests, standardized tests, and national tests.
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  • Boster, Meyer, Roberto, & Inge (2002) examined the integration of standards-based video clips into lessons developed by classroom teachers and found increases student achievement. The study of more than 1,400 elementary and middle school students in three Virginia school districts showed an average increase in learning for students exposed to the video clip application compared to students who received traditional instruction alone.
  • Wenglinsky (1998) noted that for fourth- and eighth-graders technology has "positive benefits" on achievement as measured in NAEP's mathematics test. Interestingly, Wenglinsky found that using computers to teach low order thinking skills, such as drill and practice, had a negative impact on academic achievement, while using computers to solve simulations saw their students' math scores increase significantly. Hiebert (1999) raised a similar point. When students over-practice procedures before they understand them, they have more difficulty making sense of them later; however, they can learn new concepts and skills while they are solving problems. In a study that examined relationship between computer use and students' science achievement based on data from a standardized assessment, Papanastasiou, Zemblyas, & Vrasidas (2003) found it is not the computer use itself that has a positive or negative effect on achievement of students, but the way in which computers are used.
  • Another factor influencing the impact of technology on student achievement is that changes in classroom technologies correlate to changes in other educational factors as well. Originally the determination of student achievement was based on traditional methods of social scientific investigation: it asked whether there was a specific, causal relationship between one thing—technology—and another—student achievement. Because schools are complex social environments, however, it is impossible to change just one thing at a time (Glennan & Melmed, 1996; Hawkins, Panush, & Spielvogel, 1996; Newman, 1990). If a new technology is introduced into a classroom, other things also change. For example, teachers' perceptions of their students' capabilities can shift dramatically when technology is integrated into the classroom (Honey, Chang, Light, Moeller, in press). Also, teachers frequently find themselves acting more as coaches and less as lecturers (Henriquez & Riconscente, 1998). Another example is that use of technology tends to foster collaboration among students, which in turn may have a positive effect on student achievement (Tinzmann, 1998). Because the technology becomes part of a complex network of changes, its impact cannot be reduced to a simple cause-and-effect model that would provide a definitive answer to how it has improved student achievement.
  • When new technologies are adopted, learning how to use the technology may take precedence over learning through the technology. "The technology learning curve tends to eclipse content learning temporarily; both kids and teachers seem to orient to technology until they become comfortable," note Goldman, Cole, and Syer (1999). Effective content integration takes time, and new technologies may have glitches. As a result, "teachers' first technology projects generate excitement but often little content learning. Often it takes a few years until teachers can use technology effectively in core subject areas" (Goldman, Cole, & Syer, 1999). Educators may find impediments to evaluating the impact of technology. Such impediments include lack of measures to assess higher-order thinking skills, difficulty in separating technology from the entire instructional process, and the outdating of technologies used by the school. To address these impediments, educators may need to develop new strategies for student assessment, ensure that all aspects of the instructional process—including technology, instructional design, content, teaching strategies, and classroom environment—are conducive to student learning, and conduct ongoing evaluation studies to determine the effectiveness of learning with technology (Kosakowski, 1998).
Tero Toivanen

How To Define Web 3.0 | How To Split An Atom - 1 views

  • I think I have managed to explain Web 3.0 quite nicely, so without further ado. Definition: Highly specialized information silos, moderated by a cult of personality, validated by the community, and put into context with the inclusion of meta-data through widgets.
  • Web 3.0 will take this one step further. If you are searching for information on Cars, for example, you would use the search engine as you normally would, but your results would be more specialized subengines.
  • Web 2.0 brought us a change in the basic way that we search, tagging.
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  • The strong algorithms that are currently used would be kept, but in addition some weight would be given to items that the community has flagged as interesting or voted on. Meme: Community built around search results.
  • You could type in what you were looking for, “conservative viewpoint on Darwin” for example and it would pull up results ordered by relevance (algorithms), tagging, and validation through user voting.
  • Seeking Validation
  • Seeking Entertainment
  • StumbleUpon may be the closest analogy to how we will be entertained in Web 3.0. You fill out a profile, define your tags and then flip the channel.
  • Meme: Relevance through user interaction.
  • Imagine a world where you could search a name and bring up that person, all the social networks they belong to, and produce a feed around them.
  • If I put a proper name into the search engine of Web 3.0 it would provide the running profile of my presence on the web; it would show everything in the webosphere that has been tagged as belonging to me, ordered by community validation and relevance.
  • In this Wikiality my page would contain both information that I have written about myself and information that has been written about me.
  • Meme: Everyone will have Page Rank.
  • Web 3.0 will see a more complete integration between devices like cell phones and the world wide web (does anything still use that term?) Posting pictures, videos and text from anywhere, anytime with as little hassle as possible.
  • Our pages will be little more than our personal interpretations of all the data available on the web, plugged into these pages through a growing array of widgets and shared with the world. Meme: The Widget Web
  • Summary Specialized Subengines for Search Social Networks replaced by People Search Your Online Presence Searchable, Taggable and Ordered by Relevance through Voting and Algorithms Increased Microblogging and more Powerful Widgets to allow you to place any of your feeds anywhere. Increased Integration between devices like cell phones and the web.
  • In ten years RSS and its related technologies will be seen as the single most important internet technology since Tim Berners-Lee and Robert Cailliau created the World Wide Web at CERN around 17 years ago.
  • If Web 3.0 is the Semantic Web, where computer agents read content like human beings do — then RSS will be its eyes (or at least its corrective lenses).
  • In this future, RSS will be extended to include a host of data-points it currently does not. Each blog post (or microblogging feed), every picture, every video clip will have searchable, taggable, XML based syndication around it.
  • Finally, RSS enables users to define their own contexts for information. Imagine a word where creating a mashup between Google maps and your Twitter account was no more difficult than sticking a few widgets together.
  • If you used a search engine, your results would be weighted based not only on the standard Web 3.0 metrics, but also on “what you care about” as defined by all your previous interactions with this particular search engine and all of this would be completely transparent.
  • Programs that surf the web for you will become more and more powerful. In a world where your personal profile containing your likes, dislikes and search history is as easy to upload as it is to add a feed to your RSS reader, it is no surprise that a major industry will be software that does your searching for you.
  • Microblogging will be the critical change in the way we write in Web 3.0. Imagine a world where your mobile phone, your email, and you television could all produce feedback that could easily be pushed to any or all blogging platforms. If you take a picture from your smart-phone, it would be automatically tagged, bagged and forwarded to your “lifestream”. If you rated a television show that you were watching, your review would be forwarded into the stream.
  • Fortunately, microblogging also opens up the world to new opportunities. Live blogging, a technique usually reserved for important events, would become common. If you can’t actually be at a conference, pictures, video and commentary could be pushed to you in real time. The entire world would become an Op-Ed piece.
  • In Web 3.0 search engines will need to have a better understanding of “context”. One way to accomplish this is to take a nod from directories and allow results to be tagged. These tags can be voted on by the community and would only be an addition to, not a replacement for, traditional sorting algorithms.
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    How To Define Web 3.0 | How To Split An Atom
J Black

The 21st Century Centurion: 21st Century Questions - 0 views

  • The report extended literacy to “Five New Basics” - English, mathematics, science, social studies, and computer science. A Nation At Risk specified that all high school graduates should be able to “understand the computer as an information, computation and communication device; students should be able to use the computer in the study of the other Basics and for personal and work-related purposes; and students should understand the world of computers, electronics, and related technologies."That was 1983 - twenty- six years ago. I ask you, Ben: Has education produced students with basic knowledge in the core disciplines and computer science TODAY? Are we there yet? OR - are we still at risk for not producing students with the essential skills for success in 1983?
    • J Black
       
      I had never really considered this before...how computer science has been totally left out of the equaltion....why is that? Cost of really delivering this would be enormous -- think how much money the districts would have to pour into the school systems.
  • On June 29, 1996, the U. S. Department of Education released Getting America's Students Ready for the 21st Century; Meeting the Technology Literacy Challenge, A Report to the Nation on Technology and Education. Recognizing the rapid changes in workplace needs and the vast challenges facing education, the Technology Literacy Challenge launched programs in the states that focused on a vision of the 21st century where all students are “technologically literate.” Four goals, relating primarily to technology skills, were advanced that focused specifically on: 1.) Training and support for teachers; 2.) Acquisition of multimedia computers in classrooms; 3.) Connection to the Internet for every classroom; and 4.) Acquiring effective software and online learning resources integral to teaching the school's curriculum.
    • J Black
       
      we are really stuck here....the training and support -- the acquisition of hardware, connectivity etc.
  • Our profession is failing miserably to respond to twenty-six years of policy, programs and even statutory requirements designed to improve the ability of students to perform and contribute in a high performance workplace. Our students are losing while we are debating.
    • J Black
       
      This is really, really well said here...bravo
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  • In 2007, The Report of the NEW Commission on the Skills of the American Workforce: Tough Choices or Tough Times made our nation hyperaware that "World market professionals are available in a wide range of fields for a fraction of what U.S. professionals charge." Guess what? While U.S. educators stuck learned heads in the sand, the world's citizens gained 21st century skills! Tough Choices spares no hard truth: "Our young adults score at “mediocre” levels on the best international measure of performance." Do you think it is an accident that the word "mediocre" is used? Let's see, I believe we saw it w-a-a-a-y back in 1983 when A Nation At Risk warned of a "tide of mediocrity." Tough Choices asks the hard question: "Will the world’s employers pick U.S. graduates when workers in Asia will work for much less? Then the question is answered. Our graduates will be chosen for global work "only if the U.S. worker can compete academically, exceed in creativity, learn quickly, and demonstrate a capacity to innovate." There they are
    • J Black
       
      This is exactly what dawns on students when they realize what globalization means for them..the incredibly stiff competition that it is posed to bring about.
  • “Learning is what most adults will do for a living in the 21st century."
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    The report extended literacy to "Five New Basics" - English, mathematics, science, social studies, and computer science. A Nation At Risk specified that all high school graduates should be able to "understand the computer as an information, computation and communication device; students should be able to use the computer in the study of the other Basics and for personal and work-related purposes; and students should understand the world of computers, electronics, and related technologies." That was 1983 - twenty- six years ago. I ask you, Ben: Has education produced students with basic knowledge in the core disciplines and computer science TODAY? Are we there yet? OR - are we still at risk for not producing students with the essential skills for success in 1983?
Dennis OConnor

Emerging Asynchronous Conversation Models : eLearning Technology - 15 views

  • The standard model for asynchronous conversations is discussion forum software like vBulletin.  I've talked before about the significant value that can be obtained as part of Discussion Forums for Knowledge Sharing at Capital City Bank and how that translates in a Success Formula for Discussion Forums in Financial Services.  I also looked at Making Intranet Discussion Groups Effective.
  • However, I've struggled with the problem of destinations vs. social networks and the spread of conversation (see Forums vs. Social Networks). 
  • Talkwheel  is made to handle real-time group conversations and asynchronous ones.  It can act as an instant messaging service a bit like Yammer, HipChat for companies and other groups, but the layout is designed to make these discussions easier to see, archive, and work asynchronously.
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  • Talkwheel’s design makes class conversations easier to follow, more interactive, and more effectively organized. It eliminates the problem of navigating multithreaded conversations, enables real-time group conversation, and makes referencing asynchronous conversations much easier. Talkwheel’s dashboard organization allows teachers to organize all their classes and projects in one centralized location, while Talkwheel's analytics helps teachers and administrators quantitatively monitor their students’ progress throughout the year.
  • Quora is a Q&A site nicely integrated with Facebook that has done a good job providing a means to ask questions and get answers.
  • Quora has been able to form quite an elite network of VCs, entrepreneurs, and other experts to answer questions.  They've also created topic pages such as: Learning Management System. 
  • Finally, Namesake, is a tool for real-time and asynchronous conversations.  It's a bit like Quora but more focused on conversation as compared to Q&A and it allows real-time conversation a bit like twitter.  You can see an example of a conversation around phones below.
  • All of these point to new types of conversation models that are emerging in tools.
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    Threaded discussion is an old technology. It's inspiring to think of new ways we can talk together at a distance that allow integration of both synchronous and asynchronous technology. I often thing we'll look back on the course management systems we use today and think of them as something like a 300 baud modem. Eyes Front! What's over the horizon line?
Morgan the Fay

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    Make your own internet audio & voice for web sites, blogs, or social networks with AudioPal, a free web site audio software
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