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This issue is so prevalent that some experts recommend we teach students “academic language.”

This additional distance between the writer and reader decreases the likelihood that the journals will actually be read. And if the journals are not read by teachers, the research will be slow to influence educational practice, if it does at all.

We are spending time, effort, and sometimes money on research doomed to remain idle because it’s not communicated well. The poor writing prevents worthwhile application.

If understanding depends on translating the language, students who struggle with this prerequisite may lack the motivation or inertia to think beyond, or even through, the interpretation. We’re making understanding more difficult—a seeming antithesis to our role as educators.

Why can’t “academic” journals and textbooks utilize common principles of good writing. Why do we insist on communication complexity when our goals would be better served by simple clarity?

Status? Are we insisting on “academic writing” because it separates journals from the “rags” intended for the masses or textbooks from the unlearned? If so, our goal must be to maintain some perceived elite readership—a readership probably not teaching or sitting in our classrooms.

Do we think that our research and subject matter is complicated, therefore our communicating should also be complex? This is so contrary to logic and sound teaching that it’s an oxymoron.

A complex topic requires simple writing, especially when the reader likely lacks the author’s background knowledge and experience. This is almost always the case when a researcher seeks to address individuals who were not part of the research team or involved in similar research themselves, or when experts in a field seek to articulate concepts for students.

Medina presents ideas simply and in ways known to foster learning. As the brain engages in elaboration, it overlays new data with known experiences, making connections that help construct understanding. Medina relates a new, complex topic to a familiar childhood activity—origami (even though he is not writing for children). By giving us a reference point for understanding DNA, he equips us with the tools needed to construct understanding. Isn’t this what we should be striving for, both in our textbooks and our journals?

So let me make this the number one idea behind a "good IEP": Start by describing all the things the student is good at.

The WATI Student Information Guides (all free downloads) ask you about student abilities in each "area" - the essential first step. But a good IEP goes beyond that. What are the student's interests? What is the best time of the day for the student? What drives this student to succeed? At what? Without this kind of listing, your IEP will fail because you will not be able to leverage student strengths to overcome the things which cause them trouble. The IEP Guidelines start with, "The child's present levels of academic and functional performance." That should be a major bit of writing, not a list of test scores.

What opportunities are available to non-disabled students - clubs, sports, arts, music, physical education, socializing? You cannot claim "least restrictive environment" if you deny students the right to participate in these things because they are spending mandatory "extra time" on tasks or in resource rooms, or even, doing homework.

If your IEP does not give the student a computer or mobile device to type with or dictate to, and thus the student can not write alongside their peers, they are "not participating" and I want you to write an explanation of that. If that student's IEP does not give them a computer or mobile device which reads to them and thus they must read a different book, or have fewer choices, or go to a separate room, they are "not participating" and I want you to write an explanation of that. If that student's IEP does not give them an appropriately sophisticated AAC device which allows them to communicate in "real time," they are "not participating" and I want you to write an explanation of that. If that student's IEP does not include technologies and strategies to be in the band or on a team or a member of a club or the ability to sit with friends during lunch, they are "not participating" and I want you to write an explanation of that.

And remember, "technology" is everything. The chair, the desk, the lighting, and the school itself. And technological solutions can not be restricted by other "educational" policies - such as a "cellphone ban" or a prohibition against iPods or mp3 players.

Students need to learn to use their solutions every day, and they need to use those solutions to demonstrate their capabilities.

In Shirky's terms, teams that embrace social bookmarking decrease the "cost" of  group transactions.  No longer do members resist sharing because it's too time consuming or difficult to be valuable. Instead, with a little bit of thought and careful planning, groups can make sharing resources---a key process that all learning teams have to learn to manage---remarkably easy and instant.

Imagine the collective power of an army of readers engaged in ongoing conversation about provocative ideas, challenging one another's thought, publicly debating, and polishing personal beliefs.  Imagine the cultural understandings that could develop between readers from opposite sides of the earth sharing thought together.  Imagine the potential for brainstorming global solutions, for holding government agencies accountable, or for gathering feedback from disparate stakeholder groups when reading moves from a "fundamentally private activity" to a "community event."

Understanding that there are times when users want their shared reading experiences to be more focused, however, Diigo makes it possible to keep highlights and annotations private or available to members of predetermined and self-selected groups.  For professional learning teams exploring instructional practices or for student research groups exploring content for classroom projects, this provides a measure of targeted exploration between likeminded thinkers.

Diigo takes the idea of collective exploration of content one step further by providing groups with the opportunity to create shared discussion forums

Many of today's teachers make a critical mistake when introducing digital tools by assuming that armed with a username and a password, students will automatically find meaningful ways to learn together.  The results can be disastrous.  Motivation wanes when groups using new services fail to meet reasonable standards of performance.  "Why did I bother to plug my students in for this project?" teachers wonder.  "They could have done better work with a piece of paper and a pencil!"

With shared annotation services like Diigo, powerful learning depends on much more than understanding the technical details behind adding highlights and comments for other members of a group to see.  Instead, powerful learning depends on the quality of the conversation that develops around the content being studied together.  That means teachers must systematically introduce students to a set of collaborative dialogue behaviors that can be easily implemented online.

However, in order for education to work within the larger structure of integrated societal systems, clear outcomes are still needed.

How can we achieve learning targets when the educator is no longer able to control the actions of learners?

I’ve come to view teaching as a critical and needed activity in the chaotic and ambiguous information climate created by networks. In the future, however, the role of the teacher, the educator, will be dramatically different from the current norm. Views of teaching, of learner roles, of literacies, of expertise, of control, and of pedagogy are knotted together. Untying one requires untying the entire model.

Most likely, a teacher will be one of the more prominent nodes in a learner’s network. Thoughts, ideas, or messages that the teacher amplifies will generally have a greater probability of being seen by course participants.

A curatorial teacher acknowledges the autonomy of learners, yet understands the frustration of exploring unknown territories without a map. A curator is an expert learner. Instead of dispensing knowledge, he creates spaces in which knowledge can be created, explored, and connected.

The curator, in a learning context, arranges key elements of a subject in such a manner that learners will “bump into” them throughout the course. Instead of explicitly stating “you must know this”, the curator includes critical course concepts in her dialogue with learners, her comments on blog posts, her in-class discussions, and in her personal reflections. As learners grow their own networks of understanding, frequent encounters with conceptual artifacts shared by the teacher will begin to resonate.

When I first started learning about the internet (pre-web days), I felt like I had stepped into a alternate realm with its own norms of behaviour and conduct. Bulletin boards and chat rooms presented a challenging mix of navigating social protocols while developing technical skills. By engaging with these conversation spaces – and forming a few tentative connections with others – I was able to find a precarious foothold in the online medium.

Today’s social web is no different – we find our way through active exploration. Designers can aid the wayfinding process through consistency of design and functionality across various tools, but ultimately, it is the responsibility of the individual to click/fail/recoup and continue.

Social structures are filters. As a learner grows (and prunes) her personal networks, she also develops an effective means to filter abundance. The network becomes a cognitive agent in this instance – helping the learner to make sense of complex subject areas by relying not only on her own reading and resource exploration, but by permitting her social network to filter resources and draw attention to important topics. In order for these networks to work effectively, learners must be conscious of the need for diversity and should include nodes that offer critical or antagonistic perspectives on all topic areas. Sensemaking in complex environments is a social process.

Imagine a course where the fragmented conversations and content are analyzed (monitored) through a similar service. Instead of creating a structure of the course in advance of the students starting (the current model), course structure emerges through numerous fragmented interactions. “Intelligence” is applied after the content and interactions start, not before. This is basically what Google did for the web – instead of fully defined and meta-described resources in a database, organized according to subject areas (i.e. Yahoo at the time), intelligence was applied at the point of search. Aggregation should do the same – reveal the content and conversation structure of the course as it unfolds, rather than defining it in advance.

Educators often have years or decades of experience in a field. As such, they are familiar with many of the concepts, pitfalls, confusions, and distractions that learners are likely to encounter. As should be evident by now, the educator is an important agent in networked learning. Instead of being the sole or dominant filter of information, he now shares this task with other methods and individuals.

Filtering can be done in explicit ways – such as selecting readings around course topics – or in less obvious ways – such as writing summary blog posts around topics. Learning is an eliminative process. By determining what doesn’t belong, a learner develops and focuses his understanding of a topic. The teacher assists in the process by providing one stream of filtered information. The student is then faced with making nuanced selections based on the multiple information streams he encounters. The singular filter of the teacher has morphed into numerous information streams, each filtered according to different perspectives and world views.

During CCK08/09, one of Stephen’s statements that resonated with many learners centers on modelling as a teaching practice: “To teach is to model and to demonstrate. To learn is to practice and to reflect.”

Apprenticeship learning models are among the most effective in attending to the full breadth of learning. Apprenticeship is concerned with more than cognition and knowledge (to know about) – it also addresses the process of becoming a carpenter, plumber, or physician.

Without an online identity, you can’t connect with others – to know and be known. I don’t think I’m overstating the importance of have a presence in order to participate in networks. To teach well in networks – to weave a narrative of coherence with learners – requires a point of presence.

In CCK08/09, we used The Daily, the connectivism blog, elearnspace, OLDaily, Twitter, Facebook, Ning, Second Life, and numerous other tools to connect with learners. Persistent presence in the learning network is needed for the teacher to amplify, curate, aggregate, and filter content and to model critical thinking and cognitive attributes that reflect the needs of a discipline.

We’re

We’re still early in many of these trends. Many questions remain unanswered about privacy, ethics in networks, and assessment. My view is that change in education needs to be systemic and substantial. Education is concerned with content and conversations. The tools for controlling both content and conversation have shifted from the educator to the learner. We require a system that acknowledges this reality.

Aggregation had so much potential. And yet has delivered relatively little over the last decade.

Perhaps we need to spend more time in information abundant environments before we turn to aggregation as a means of making sense of the landscape.

I’d like a learning system that functions along the lines of RescueTime – actively monitoring what I’m doing – but then offers suggestions of what I should (or could) be doing additionally. Or a system that is aware of my email exchanges over the last several years and can provide relevant information based on the development of my thinking and work.

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.

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.

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.

To Orange, I will show an actual example of a map in my next full post and explain more about the parameters that are given and what the students fill in themselves. You raise a much more important question though, about the necessity of simplifying in order for the simulation to work. This aspect of the simulation almost led me to abandon the whole thing as I started to think it through and plan for it. Instead I found two ways to deal with it: 1. I challenge my students to tell me where the simulation is oversimplified and make their own case for how the simulation should change for the next time it is performed. This way they are not simply accepting our imaginary world “as is” and are instead actively thinking about how the real world works and how we may have misrepresented it in our simulation. (Even if the simulation fails miserably, it has succeeded in getting students to think about how the world works!) 2. I encourage the students to use the simplification as a canvas on which they can build and/or interpret complexity. In a lecture format I only have so much time to cover the effects of colonization – perhaps 50 minutes – not enough to really explore all of the different facets. In the World Simulation I can encourage each student to think about how colonization would affect their culture in multiple ways and at multiple levels (e.g. infrastructure, social structure, superstructure). Sometimes this is to complex to be incorporated into the simulation, but they are asked to do a reflection paper immediately following the simulation in which they write their own “cultural history.” This written format allows them to explore some complexities they might not have had the time or means to express in the simulation.