The Future of Online Learning: Ten Years On

An MS-Word version of this essay is available at http://www.downes.ca/files/future2008.doc

Spanish Translation, by Diego Leal.

In the summer of 1998, over two frantic weeks in July, I wrote an essay titled The Future of Online Learning. (Downes, 1998) At the time, I was working as a distance education and new media design specialist at Assiniboine Community College, and I wrote the essay to defend the work I was doing at the time. “We want a plan,” said my managers, and so I outlined the future as I thought it would – and should – unfold.

In the ten years that have followed, this vision of the future has proven to be remarkably robust. I have found, on rereading and reworking the essay, that though there may have been some movement in the margins, the overall thrust of the paper was essentially correct. This gives me confidence in my understanding of those forces and trends that are moving education today.

In this essay I offer a renewal of those predictions. I look at each of the points I addressed in 1998, and with the benefit of ten year’s experience, recast and rewrite each prediction. This essay is not an attempt to vindicate the previous paper – time has done that – but to carry on in the same spirit, and to push that vision ten years deeper into the future.


New Technology

The development of new technology continues to have an impact on learning. While on the one hand, new technology allows schools and instructors to offer learning in new ways, educators nonetheless continue to face limitations imposed by technology, and sometimes the lack of technology. While access to the internet has increased greatly over the last decade, some schools continue to experience bandwidth shortages and most schools do not have enough computers for every student. Yet, this is changing, and the pace of this change will continue to accelerate.

Bandwidth

As administrators struggle against the demands video streaming and bit torrent networks place on backbones, it is hard to imagine saying that bandwidth will be unlimited. But from a certain perspective, from the point of view of most users, bandwidth is already unlimited, as they are able to share text, images and video with ease. The limit of 28K from ten years ago now appears laughable to most urban internet users, as broadband access allows downloads almost a hundred times faster. Applets are now commonplace, a video sharing site (YouTube) is the most popular destination on the internet, and video conferencing (through services such as Skype) is mainstream.

And access to bandwidth continues to improve. The employment of data compression technologies has almost been superseded by fibre-optics technology such as lightpath management. (van der Pol, 2007) Companies like Verizon are offering fibre-optics to the home. (Verizon, 2008) And while satellite internet did not revolutionize internet access, the spread of Wi-Fi and other wireless technologies created an essentially mobile internet, with Wi-Max, a long-range broadband wireless internet standard, poised to greatly extend that in the future. Bandwidth is in the process of becoming ubiquitous, and though we may complain about the price, it is already, relatively speaking, cheap.

Despite set-backs – for example, the lobbies by private corporations to prevent the deployment of municipal Wi-Fi – it is not unreasonable to expect that inexpensive wireless broadband will be ubiquitous in most populated areas. We can think of it as a service analogous to the deployment of mobile phone services today (and indeed, the providers of tomorrow’s broadband wireless may well be today’s mobile service providers.

Processing

Computers have as well become more reliable. It is hard to believe that only ten years ago we were upgrading from 75 megahertz processors to 100 or even 130 megahertz machines. The computer this is being typed on, a MacBook Pro, runs a 2.33 gigahertz duo-core processor. And its 3 gigabtye memory dwarfs the 16 (upgradable to 32) megabyte memory we used with our Pentium computers. And while the deployment of these 64 bit computers took rather longer than one would expect, they are beginning to be seen in the home and the office today. (Norr, 2006) Today, 128 bit processors are not really on the horizon, but computer capacity is continuing to increase through the use of multiple processors.

As a result of the use of multiple processors, computers themselves are becoming what might be called ‘platform neutral’. Computer programs are being designed to run in ‘virtual machines’ which can be carried from one hardware platform to another without adaptation. The Java Virtual machine (JVM) is one example of this, but so also are the ‘images’ produced by virtualization software such as VMWare or Parallels. And specialized computer languages, such as Erlang, are designed to operate in multiple processor environments. (Ericsson Computer Science Laboratory, 2008) These systems manage the interface between the operating system – whether it be Apple, Windows or Linux – and the underlying hardware, thus allowing the same system to be run on varying hardware configurations. The operating system, to these systems, is depicted as a disc file (or ‘image’). As a result, it is not unreasonable to imagine people carrying their ‘computers’ around on ten (or hundred) gigabyte Flash memory drives.

Virtualization will occupy increasing attention in the future. Why? "We see a large number of customers spending less than 30 percent of their IT budget on business priorities, and growth initiatives, and 70 percent or more on management and maintenance. With virtualization and with these broader transformational initiatives, you can really flip the ratio around." (Gardner, 2008)

The combination of ubiquitous broadband and the portable operating system will result in the widespread popularity of what is currently being called ‘cloud computing’. The idea is that your computer, as a set of data files, is stored online. As such, it may be access from any hardware environment, including mobile or portable devices. Consequently a person will access their single computing environment from different devices while at home, on the road or in the office. This computer will, in turn, access data and applications provided by remote online services.

Storage

Storage is today widely available and relatively inexpensive. Once almost inconceivable, terabyte hard drives are now available in the local computer store for roughly two hundred dollars.

The rise of Flash memory – now available at 32 gigabytes and counting – and the minidisc used in some MP3 players will greatly accelerate the trend we have already seen toward specialization we have seen in the last decade. Flash memory is solid state, which means it consumes much less power and is much more compact than disc-based storage. Probably the most notable of the specialized computers, the iPod, has become one of the most popular consumer products of all time. Digital cameras have essentially replaced traditional cameras; Polaroid is ceasing production of instant film in 2009. (Winn, 2008) Other specialized computers, such as personal digital assistants (PDAs), global positioning systems (GPS) and mobile phones, dominate the consumer electronics market.

Software

Software has also become more reliable, even though this has been obscured to some degree by the decade-long dominance of the market by Microsoft’s Windows operating system. As web-based applications become more widely available, however, more specialized and customizable operating environments will be available to users. Online storage and processing represent yet another virtualization of the computing environment, with the result that personal systems are simpler and more stable. Simple devices – from the One Laptop Per Child computer to the Asus Eee to the Nokia internet tablet to Apple’s iPhone now allow people to run complex software with very simple devices. (Arrington, 2008)

Indeed, it is arguable that we have already reached the upper limit of the large single-system software environment. A report from Gartner Consulting, for example, suggests that Windows Vista is collapsing under its own weight. (Dignan, 2008) Microsoft needs to virtualize Windows, to create versions tailored to different devices, simplifying the operating system providing a similar user experience across a wide range of products. Already, Microsoft is reported to be working on an ultralight version of Windows for the OLPC project. (Smith, 2008) Meanwhile, Nintendo is making the Wii gaming system a web application that streams videos from the BBC. (Waters, 2008) The distinction between ‘systems’ that characterized the Linux-Mac-Windows battles of the 90s and 2000s will fade into the background.

The best example of this may be seen at the Flickr website. You use a digital camera – a specialized digital computer with an optical sensing device – to take a photograph. You then upload the photo (often wirelessly) to the internet, storing it in your Flickr account. You then, using the Flickr website, access a separate application called Piknik to edit the photo – your photo data is actually sent from Flickr to Piknik, and you use Piknik servers to perform the manipulations. After returning your photo to Flickr, you employ yet another application that will print the photo and, combined with a shipping service, send you a nicely framed enlargement.

Specialization

Computers are becoming more specialized, and we are beginning to think of them as devices used for specific purposes – gadgets – rather than as computers at all. Pulse-monitoring devices, global positioning systems, toll system tags, e-book readers, writing tablets: all these and more are forming an increasingly large part of our landscape (for many many gadgets see websites such as gizmodo.com). Desktop computers themselves are shrinking as designers make them more portable and more energy-efficient. (Fried, 2008)

Computers – and more specifically, processors, storage devices and wireless communicators – are being embedded into everyday devices. Despite early hiccups, WalMart continues its drive to have RFID wireless transmitters embedded in all products it sells, for example. (Wailgum, 2008) These chips will be used to track inventory and facilitate check-out. Meanwhile, fads such as wearable computing come and go, harkening a day when our clothes will monitor our vital signs, keep track of where we’ve been, and function as camouflage or a computer screen. (Busari, 2008) Digital technology is becoming a part of our lives, embedded in everything, much in the way paper permeated the lives of earlier generations.

Widgets and Webtops

In 1998 I wrote that computer programs of the future will be function based, that they will address specific needs, launching and manipulating task based applications on an as needed basis. For example, I said, the student of the future will not start up an operating system, internet browser, word processor and email program in order to start work on a course. The student will start up the course, which in turn will start up these applications on its own.

The 2008 instantiation of this idea is the widget. A widget is a piece of code – typically written in Flash or Javascript – that resides on a desktop or web page and performs a specific function. (WebProNews, 2008) Thousands of widgets exist and may be found on download pages at places like Yahoo! and Apple or from specialized content sources such as national Geographic. (National Geographic, 2008) A widget obtains content from one website and displays it on another website. Often user interaction is provided – the user might type a term into a search widget, for example – and often some form of processing is requested at the remote website.

Widgets can be combined as a collection of services through web sites called ‘webtops’. These websites, such as PageFlakes and Netvibes, import content and services and arrange them on a page according to user settings and preferences. (Oehlert, 2006) Ands we can see learning management systems such as Desire2Learn adopt the same approach to design, creating personalized course home pages out of a set of associated widgets. (Weiser, 2008) It does not matter what operating system is used to view such pages because they are displayed inside the web browser.

Embedding

Computers – essentially, little processors with wireless access to the ambient internet – will be embedded in everyday products. I have spoken in the past about the fishing rod that teaches you to fish or the jar of strawberry jam that teaches you about jam, as well as the example from Bruce Sterling’s Distraction about the hotel that teaches you how to build it. (Sterling, 1999)


New Technology in Education

While technology changes rapidly, people do not. People want to use tools that look and feel like tools they’ve always used, and will tend to adopt tools only if they see a clear benefit either in productivity or in savings. (Starr, 2003) Since education is a domain that inherently involves people as both practitioners and clients, it seems clear that when we think about the adoption of new technology in education, we need to think as much about what people will want and are likely to do as about the new technologies that will be available.

In particular, education is fundamentally a process of communication (learning, by contrast, is fundamentally a process of growth). (Richter, 1995) As such, educators over the years have attempted to keep the use of tools to a minimum, and as invisible as possible, and to focus on the teaching. How many times have we heard the refrain that pedagogy should not be driven by technology?

When we example the teaching process – one that remains largely unchanged even through the first decade of the internet – we see this emphasis on dialogue and communication. And it should not be surprising that the first major type of technology to be adapted, the learning management system (LMS), was originally named ‘World Wide Web Course Tools’ (or WebCT, as we later came to know) (Goldberg, 1996). Basic technology, such as the book, the notepad, the blackboard, and the teacher were all either emulated or facilitated within WebCT.

The PAD (Personal Access Device)

In 1998 I wrote that ‘The PAD will become the dominant tool for online education, combining the function of book, notebook and pen.” The PAD, I said, would be “a lightweight notebook computer with touch screen functions and high speed wireless internet access.” I also said it would cost around three hundred dollars.

By 2008, the prescience of that prediction has been proven. Early tablet computers produced by QBE won Comdex ‘Best of Show’ awards in 1999 and 2000. (Viherlahti, 1999) In 2002 Microsoft released the Windows XP Tablet PC Edition to support tablet technology. (Thurrott, 2002) It included handwriting recognition and voice commands. Today, arguably, the tablet computer has become so widespread.

Of most significance, tablet computers have in recent years reached the price point predicted in my 1998 article. Probably the most notable of these is the XO Computer, but for the One Laptop Per Child (OLPC) project, which was sold for just under $200. (Bsales & Bsales, 2007) Other computers selling for less than $300 quickly followed, including the Intel Classmate and the Asus EEE. Meanwhile, Apple’s iPod touch, ostensibly a music player but in fact a small wireless computer, was widely popular.

With slim, lightweight technology, truly useful and portable PADs will be widely available within the next ten years. We have already seen significant improvements in screen technology, including slim touch-sensitive screens. Wireless access and cloud computing make bulky storage devices unnecessary; what local memory is needed will be more than adequately managed using tiny flash memory chips. Improvements in battery life and solar power will mean that these low-wattage portable computers will run for days. They will, as I suggested before, come in all shapes and sizes, from a slim pocket version (much like the iPod touch) to a notepad version.

Display Technology

The same technology that makes PAD technology possible will continue to proper improvements in large screen displays (devices I nicknamed WADs (Wide area Displays) ten years ago).

The age of wide area displays has already arrived; with the conversion to high definition digital television in February 2009 (Federal Communications Commission (FCC), 2008) manufacturers have been selling wide-screen plasma and light emitting diode (LED) monitors. These distinct technologies have in common not only the ability to support flat monitors (as compared to the bulky cathode ray tubes used in traditional televisions) they also consume less power and produce less heat.

In the future, it will be common to see these large-area displays hanging on living room and classroom walls. Instead of being the size of small windows, they will be the size of large blackboards. They will be touch sensitive (or if not, connected to a pointer tracking system device similar to the ones being cobbled together for less than $50 by Wii enthusiasts (Lee, 2007)) or included with any of a number of children’s educational webcam games today (such as Camgoo, among many others).

Projection technology is also coming down in price and improving in power and portability. It is now not uncommon for people to build home movie theatres using computers or DVD plays along with a digital projector and wall or screen. And projection technology, combined with mobile phones, is touted in some circles as a wave of the future. (Tran, 2007)

Portable, Personal, and Global

The combination of portable and affordable computing devices, combined with widely available digital presentation tools, will make education genuinely personal and portable.

Imagine having in your hands a device on which you can not only write or type content, but which takes photos and records videos. Imagine further that this device contains easy-to-use but powerful photo and video editing software, and is additionally connected to a massive library of content made available through ambient broadband internet connections.

Moreover, imagine that any environment that contains a flat surface can become a teaching environment, one where your friends’ faces (or your parents’ or your teachers’) can appear life-size on any old wall or on a table surface as you converse with them from the next room or around the world. We have already seen how the availability of mobile telephones has transformed society in less than a generation. (New Media Consortium, 2008) Having much more powerful, much more expressive, communications technology available everywhere will have a similar impact.

It is important to think not simply about how these technologies will operate individually but rather about how they will operate in combination. A person will move content online and offline with ease. Software and multimedia will no longer be associated with hardware or other devices but will rather be associated with individuals and will express their personal preferences. We are already seeing this as people can download and carry their own portable applications around with them. (PortableApps.com, 2008)

Each person will have what may be thought of as a ‘profile’ of their own art, music and other media, which they have created themselves or with friends, along with records of their activities in various games and simulations (we see things like this already with applications like Launchcast) that take place both on and off line. (Breeding, 2005) They will be able to be in constant audio and video contact with family and friends, meaning that families and groups will never really be separated unless one of them chooses to be.

Presentation Software

The term ‘presentation software’ can be used to refer to applications designed to display learning material to students. (TechTarget, 2005) In the past, these learning materials were confined to physical media such as video tapes or CD-ROMS. And a lot of educational material continues to be presented in such formats today; any parent can describe the wide array of children’s titles available at the local software store.

Learning materials are now available online as well. Probably the most representative (and most saturated) market is the language learning market, where providers market audio and video clips, flash cards and memory aids, study guides, and much more. Additionally, numerous applications are marketed to parents of small children; these vary from quiz applications to games to online communities.

That said, the presentation software market has divided itself roughly into two parts. On the one hand, sophisticated tools have been placed into the hands of instructors and non-professionals to facilitate the creation of multimedia presentations. To name just a few, we could point PowerPoint, which allows instructors to create slides; to Audacity, which facilitates audio recording and editing, Adobe Premiere Elements, an inexpensive and accessible video editing tool; Camtasia, a screen-recording and video editing tool; and Second life, which enables people to create three-dimensional objects.

On the other hand, even more sophisticated tools have been placed into the hands of professional designers. In addition to professional versions of the content creation tools, programming studios and integrated development environments enable developers to create sophisticated games, simulations and other educational applications. Thus there is, at any given time, a professional educational content community that creates high-end and custom educational content and a non-professional community that creates (relatively) low-end and more personalized educational content.

This is a trend that is likely to continue, though it is also likely that the line dividing the professional from the non-professional community will become increasingly elusive over time. Generally, as a domain of software design becomes well known, sets of tools for content creation are developed, which in time become widely accessible. Several recent waves in technology are reflective of this trend.

The first of these is the notion of the ‘software object’. (Sun Developer Network, 2008)This concept, which in education became the idea of the ‘learning object’, emerged as a result of the idea that reusable software objects could be created. These objects – a ‘menu’ item, for example, or a ‘task bar’, were made available in drag-and-drop programming environments, such as the Windows .Net environment. (Downes, Learning Objects: Resources for distance education worldwide, 2001) The idea that educators could assemble learning materials out of predefined components has never been abandoned.

The second is the concept of ‘Web 2.0’ that has recently swept the internet. (O'Reilly, 2005) Web 2.0 is actually a cluster of technologies that combine to allow web sites to become interactive. At the heart of these technologies – things like Asynchronous Javascript and XML, for example – are collections of software applications called ‘frameworks’ that automate the way web software handles the storage and retrieval of data and contents. Early frameworks included Cold Fusion, WebObjects and J2EE. Web 2.0 emerged with the release of lightweight open source frameworks such as Ruby on Rails. (Poteet, 2008)

Games and Simulations

A great deal has been written in the last few years about educational games or, as they are sometimes called, ‘serious games’. (Eck, 2006) In 1998 I wrote that “educational software of the future will include every feature present in video games today, and more.” Though this hasn’t proven to be strictly true, it is largely true, and probably no more true than in the domain of games and simulations.

Though there are different types of games, including quiz-games and branching games, the sort of games I felt most appropriate to educational use were learning environments such as were to be found in games like Sim City or Sim Earth. These games, now known as ‘spreadsheet games’, involve the creation of a large body of interacting data sets. Players manipulate both data sets and interactions, and resulting data states create the gameplay. (Aldrich, 2005) (Kapp, 2005)

While the last ten years have seen a fair amount of attention paid to such games, through the development of modification kits for gaming engines such as Civilization, even more attention has been paid to another class of educational software, the simulation. Once used only for high-end training, such as for aircraft or helicopter pilots, simulations have become in recent years cheaper to produce and hence more accessible. These can be built from stand-alone programming libraries, but can also be developed from modified gaming engines. This, for example, is what the Canadian Forces did, modifying the popular SWAT ‘First Person Shooter’ into a collaborative training simulation. (Mahood, 2007)

The tools that we use today were in development in 1998 – multimedia or content engines such as PowerPoint or Director, development environments such as .Net, programming languages such as Java or Ruby, rendering systems such as VRML or SMIL. These now are disappearing into the background, while practitioners are working directly with content creation tools, both on the desktop and on the web.

The World Wide Web today contains millions, and maybe billions, of (what used to be called) presentations, ranging from blog posts to wiki entries to videos posted on YouTube to Flickr photographs to SlideShare slide shows. As complex multimedia presentations become more modular, as they come to be based more on things like objects and frameworks and modification kits, we will see the same phenomenon for game and simulation content, where millions of resources will create complex and rich materials where, formerly, everyone would have to make do with a relatively simple offering from a publishing company. (Downes, Places to Go: Apolyton, 2005)

In 1998, I wrote the following: “To give a student an idea of what the battle of Waterloo was like, for example, it is best to place the student actually in the battle, hearing Napoleon's orders as they become increasingly desperate, feeling the recoil of one's own musket, or slogging through the mud looking for a gap in the British cannons.” (Downes, The Future of Online Learning, 1998) Today we can say that the creation of such simulations will not be simply the domain of large production houses, but will rather be more and more the result of massive collections of small contributions from individual players. And that the creation of content – any content – needs to take this phenomenon into account, or be seen as abstract and sterile.


Interaction and Online Conferencing

In recent years educators have come more and more to believe that the presentation of educational content is but a small part of the learning process. To paraphrase the Cluetrain Manifesto, which came out roughly the same time as the Future of Online Learning, “all classrooms are conversations.” (Levine, Locke, Searls, & Weinberger, 1999) To that end, online conferencing in education has become important, not simply as a means to advance our knowledge of the subject area, but as a means to advance our understanding of communication using online technologies.

That said, online conferencing technology has become, for the most part, cheap and ubiquitous. The purchase of large-scale interactive television suites is largely a thing of the past, and while enterprise conferencing technology remains at a relatively high price point, effective and inexpensive technologies are bringing conferencing to the masses. The future will see a continuation of this trend, to the point where there will be little difference between taking part in an online conference and being in the same room.

Synchronous Conferencing

Though I stated in 1998 that interactive television “will be obsolete within five years” there is still a great deal of love bestowed on the technology at the corporate and governmental levels. The World Bank spent millions of dollars building ITV labs in developing nations, while companies invested additional millions in Polycom units. (Veldanda, 2003) Even as I write, development of high-bandwidth videoconferencing technology continues; we have an ‘Advanced Collaborative Environments’ in our own building. (National Research Council Canada, 2005)

These are slowly being replaced by desktop videoconferencing. Probably the most important aspect of this is the deployment of web cameras (or computer interfaces to video cameras, such as provided by Pinnacle) of suitable quality for large screen images. As well, software, such as XMeeting for the Macintosh, has been developed to allow computers to access the H.323 standard used by videoconferencing units.

We have also seen in the field of education the development of conferencing suites such as Elluminate or Centra Symposium. As I noted in 1998, people will want a system that transfers data as well as video signals. These applications do that, providing audio and video communication while also allowing application and desktop sharing, whiteboards and notes, polling, text messaging, and more.

While the systems typically used in an educational environment are commercial applications involving some cost, similar applications are rapidly becoming available for free to the average user. Launched in 2003 (and acquired by eBay in 2005), Skype provides free audio communication (and as of 2006, free video communication) to users around the world. (Skype, 2005) Moreover, open source conferencing suites, such as Dim Dim and WiZiQ, are emulating the function of commercial applications.

However promising it may be, the field of synchronous conferencing remains fraught with tensions between the conferencing community and the commercial providers of conferencing services. Telecom companies, especially, are concerned about losing toll traffic to free alternatives. Companies continue to offer proprietary (and non-interoperable) conferencing protocols. Even something as simple as an instant messaging standard has eluded the domain for many years.

Asynchronous Conferencing

If there is a contrast with the synchronous mode of communication, it is the asynchronous, which has blossomed in recent years. There is today almost no end to the conferencing options available to web users, with the result that the web is now an unparalleled richness of content.

Two major trends have characterized the last ten years of asynchronous conferencing.

First, as was easy to predict in 1998, the dominance of text-based content has given way to a much wider range of formats. Audio content became popular with file sharing and music content services, as well as with the rise of podcasting in 2003. Video content became widely available following the development of Flash video services and of sites like YouTube, which allowed users to upload and convert their videos. (Knowledge@Wharton , 2006) Flash has also been instrumental in the provision of other forms of content, such as slide shows, games, animations, and more. (Lamb & Johnson, 2006)

Second, and less obvious, was the evolution of asynchronous communication. In 1998 most people were still using traditional web conferencing systems such as the email mailing list or Usenet news systems. Early web conferencing systems followed the same format, taking the form of threaded conversations on web bulletin boards. This system was followed in just a few years by blogging. Messages were sorted chronologically by author, instead of by subject, and each person managed his or her own blog. Groups of people, meanwhile, congregated on content management systems such as Drupal or Plone. But as people drifted back to centralized sites, and as linking to other people became more important, sites that support social networks rose to prominence and people began to spend less time on places like Blogger and LiveJournal and more time on places like MySpace and Facebook.

There is clearly a role for hosted conferencing systems in the future, if only because people do not want to take the time and trouble to set up media processing software. But there will continue to be an evolution of the model as developers search for the right balance between social function and individual identity, between the common software platform and individual control. (White, 2006)

Conferencing Standards and Protocols

In conferencing we see a trend that has been resisted as must as it has been inevitable: that once content standards have been widely adopted for some type of medium, content expressed in that medium has become commoditized (that is to say, widely available at prices that approximate zero).

The first clear example of this is what we not think of as ‘plain text’ – the ASCII character code. It rapidly became the standard medium of communication online, in both email and message boards. In very few cases was ‘ASCII content’ marketable. Subsequently, HTML content was also widely (and freely) available. More recently, with the widespread adoption of the MP3 audio format, file sharing became widespread and the value of audio recordings online became negligible. (Przywara, 2008)

Efforts to monetize content have, in turn, typically involved the creation of proprietary content formats. Thus we saw, in the earlier days of the internet, the creation of locked PDF files. Or the development of Real Audio’s Proprietary Real Media format (backed by the Real Media store). Or the proprietary Skype audio format. Or, more recently, proprietary iTunes audio formats, and iPhone applications. Or even the proprietary text format used by Amazon in the Kindle, a device it intends to use to sell electronic books. (Gruber, 2007)

These two tensions come to a head in the domain of computer conferencing. The very act of communication requires a set of communication standards that anyone can use – a language, like English, or a medium, like paper. For people who wish their message to be heard (or read, or seen) these need to be widely available and easily accessible, to be (for all practical purposes) open standards. Thus, the push toward online conferencing is at the same time a push toward commoditized content. (Rossi, 2003)

In the end, the standards win, because, in the end, the people win. Societies – or groups, or communities – that sustain effective communication are more robust than societies that control it. There is a significant loss of efficiency in environments of closed, controlled communication. Thus, although artificial constraints will continue to be used maintain proprietary communications formats, the standards will win out.


Personalized Learning

We now have powerful and inexpensive computers we can sling over our shoulder or carry in our shirt pocket. (Yamamoto, 2006) These computers are connected wirelessly to the internet at bandwidths sufficient to allow instant multimedia communication anywhere on the planet. These computers will only improve in the years ahead, becoming faster, slimmer, and more affordable. And we are not at the point where we are seeing the possibility that education may be deeply personalized.

To date, much of our attention, even in the field of online learning, has been focused on a system of learning centered on the class or cohort: groups of students studying the same curriculum pace through the same set of learning activities. (Fenning, 2004) We continue to organize classes in grades, sorted, especially in the earlier years, by age. Time continues to be the dominant metaphor for units of learning, and learning continues to be constrained by time. As it was ten years ago, the model is that of a group of people starting at the same time, studying the same materials at the same pace, and ending at the same time.

And as I noted ten years ago, this model of education was adopted because it was the most efficient. (Hejmadi, 2006) While we want to provide personalized attention, especially to submitted work, testing and grading, learning is still heavily dependent on the teacher. But because the teacher in turn is responsible for assembling, and often presenting, the materials to be learned, customization and personalization have not been practical. So we have adopted a model where small groups of people form a cohort, thus allowing the teacher to present the same material to more than one person at a time, while offering individualized interaction and assessment.

What we have begun to notice with online learning, however, is a decreasing emphasis on this formal style of learning, and an increasing emphasis on what has come to be called informal learning. (Chivers, 2006) In the case of informal learning, students are not constrained by the limits of the classroom model. They can set their own curriculum and proceed at their own pace. (Moore, 1986) Learning can thus be based on a student’s individual needs, rather than as predefined in a formal class, and based on a student’s schedule, rather than that set by the institution.

Groups Versus Networks

The continuing trend in formal learning to structure learning opportunities as classes and cohorts requires explanation. Underlying the transition from formal, structured learning to more informal and more unstructured learning is not simply a technological change but also a social change. It is this change I have attempted in recent years to capture under the heading of ‘groups versus networks’. (Downes, Groups Vs Networks: The Class Struggle Continues, 2006)

Traditionally, people have been seen to learn either as individuals or in groups. This characterization of organization is not unique to education; it is very common to talk of (say) the needs of the individual versus the needs of the state. This characterization, however, glosses over the possibility that there may be more or less cohesive ways of organizing people, thus allowing for a middle point between the individual and the group: the network.

Though networks have always existed, modern communications technologies highlight their existence and given them a new robustness. Networks are distinct from groups in that they preserve individual autonomy and promote diversity of belief, purpose and methodology. In a network, however, people do not act as disassociated individuals, but rather, cooperate in a series of exchanges that can produce, not merely individual goods, but also social goods.

Traditional learning composed of classes and cohorts operates more as a group than as a network. (Davis, 1993) Students pursue the same objectives employing the same methodologies. This is especially evident in corporate learning, where they are expected to share the same vision and to be pursuing the same outcomes. Learning in such classes is frequently collaborative, as students work in small groups to produce a common project or outcome. (Mohn & Nault, 2004) Interaction is structured and led by an instructor. Classes are closed; there is a clear barrier between members and non-members.

In the case of informal learning, however, the structure is much looser. People pursue their own objectives in their own way, while at the same time initiating and sustaining an ongoing dialogue with others pursuing similar objectives. Learning and discussion is not structured, but rather, is determined by the needs and interests of the participants. There is no leader; each person participates as they deem appropriate. There are no boundaries; people drift into and out of the conversation as their knowledge and interests change.

Learning Management and Competences

The ‘educational delivery’ (ED) system I postulated in 1998 became what we now know as the learning management system (LMS). However, unlike what was projected then, the LMS was not based on personalized learning, but rather, preserved the course management structure that prevailed in schools and universities. (Jarche, 2006) Indeed, early incarnations of the LMS were seen as extensions to the classroom, as evidenced by the name ‘web course tools’ (Web CT). That said, even in traditional educational institutions, the trend is shifting away from courses and toward topics. This is seen in the development of competence-based learning designs, such as in the TenCompetence project. (Kraan, 2006)

The idea of competences is that they are based on identifiable skills or capacities, and hence are not rooted in a body of content but rather in a student’s personal growth. (Karampiperis, Demetrios, & Demetrios, 2006) As such, students are able to select their own track or achievement path through a competence domain, as informed by their own interests, employer needs, or in the case of younger students, parental guidance. Each competence, meanwhile, corresponds to a selection of learning resources (and specifically, learning objects). (de-Marcos, Pages, Martinez, & Gutierrez, 2007)

It is not clear that such a system will meet the needs of learners. Insofar as this is a form of autonomous learning, it is not clear that it supports collaboration or cooperation. Moreover, it is not clear that an outcomes driven system is what students require; many valuable skills and aptitudes – art appreciation, for example – are not identifiable as an outcome. This becomes evident when we consider how learning is to be measured. In traditional learning, success is achieved not merely by passing the test but in some way being recognized as having achieved expertise. A test-only system is a coarse system of measurement for a complex achievement.

Personal Learning Environments

In the future, competences will be just one way (and an unusually employer-centered way) to select learning opportunities. What we will see, rather, is that the selection of learning opportunities will not be a stand-alone activity, but instead will be embedded in other activities. (e-Lead, 2008) One can imagine how players learn in the course of a game, for example. They do not first learn how to play the game, and then play it. Rather, they begin playing the game, and as they attempt to achieve goals or perform tasks, the learning they need is provided in that context. (Wagner, 2008)

The ‘personal learning environment’ (PLE) is a collection of concepts intended to express this idea. (Liber, 2006) The PLE is not an application, but rather, a description of the process of learning in situ from a variety of courses and according to one’s personal, context-situated, needs. The process, simply, is that learners will be presented with learning resources according to their interests, aptitudes, educational levels, and other factors (including employer factor and social factors) while they are in the process of working at their job, engaging in a hobby, or playing a game.

The environment that they happen to be in, whether it be a productivity tool, hobbyist web page, or online game, constitutes (at that time) the personal learning environment. Resources from across the internet are accessed from that environment: resources that conform to the student’s needs and interests, that have been in some way pre-selected or favorably filtered, and that may have been created by production studios, teachers, other students, or the student him or herself. Content – interaction, media, data – flows back and forth between the learning environment and the external resources, held together by the single identity being employed by the learner in this context.

In time, the learning management systems deployed by educational institutions will evolve into educational delivery systems usable by personal learning environments. They will, in essence, be the ‘remote resource’ accessed from a given context. Educational delivery systems will recognize the identity of the student making the request and will coordinate with other online applications (which may include commercial brokers, open resource repositories, or additional student records) to facilitate the student’s learning activity.

We might think that these educational delivery systems will be delivering learning objects. This is not entirely incorrect, although a learning object today has come to be seen as more like a unit of text in a textbook or a lesson in a programmed learning workbook. It will be more accurate in the future to say ‘learning resource’, since many such resources will be available that do not conform to the traditional picture of a learning object – and may be as simply as a single image, or as complex as a simulation or training module.

Content Versus Conversation

Our picture of learning technology today – whether it be an LMS like Blackboard or Desire2Learn, an authoring system such as Connexions, or a resource such as OpenCourseWare – is that learning systems are essentially content delivery systems. Hence, they are typically based on a publication model of storage and distribution, are institutionally based, and tend to focus on mass deliveries of common materials to classes or cohorts. We see this in the design of the system, the technical specifications (such as ‘content packaging’) and in their deployment.

The personal learning environment, however, is not based on the principle of access to resources. It should more accurately be viewed as a mechanism to interact with multiple services. (Milligan, 2006) The personal learning environment is more of a conferencing tool than it is a content tool. The focus of a personal learning environment is more on creation and communication than it is consumption and completion. It is best to think of the interfaces facilitated by a personal learning environment as ways to create and manipulate content, as applications rather than resources.

In particular, that the various channels created by the PLE enable is for a student to form a set of connections with a collection of individuals at any given point. In 1998, I referred to this as the Quest Model, based on the idea of ad hoc collections of people grouping together to solve puzzles in online multi-user environments such as Multi User Dungeons (MUDs). This model has become much more widespread, but no less ad hoc, as people today connect with each other to have distributed conversations, to create wiki entries, to collect resources in discussion threads, and like activities.

In the Quest Model, each achievement would become a part of a personal profile, a part of a learning record that would in turn inform future challenges. This idea is reflected today in the concept of the e-portfolio, where the products created through the process of engagement and interaction are stored and (digitally) mounted for display. We see today the idea of an e-portfolio taking hold outside traditional learning – people have their own blogs, their own Flickr photo portfolios, art projects on Deviant Art, game modifications, fan fiction, open source software, and much more.

The products of our conversations are as concrete as test scores and grades. (Ryan, 2007) But, as the result of a complex and interactive process, they are much more complex, allowing not only for the measurement of learning, but also for the recognition of learning. As it becomes easier to simply see what a student can accomplish, the idea of a coarse-grained proxy, such as grades, will fade to the background.

Connectivism

The educational institution is unlikely to disappear, but it is unlikely also to remain the sole locus of student learning. Educational institutions will need more and more to think of themselves as part of a larger system, and as their offerings as entities that will become a part of, and interact with, the larger environment. Consider, for example, the photo editor that connects to Flickr, described above. Now imagine what an art appreciation resource would look like, how it would interact with Flickr photos. (Unattributed, 2006)

Educational technologists should additionally not only think of themselves as building systems that contribute to the network of resources, but also of systems that draw from that network to create value-added resources. For example, a recent TED demonstration saw an application that created a three-dimensional composite image of Notre Dame Cathedral composed from thousands of Flickr photos. (Arcas, 2007) Educational institutions can in the same way create pictures of our understanding of other – less concrete – concepts that can be found in the thousands and millions of bits of content created by people around the world.

This is the fundamental understanding behind a learning theory developed to describe learning in networks, connectivism. (Siemens, 2004) The theory proposes that knowledge is contained, not merely in the bits of information transmitted to and fro as content and creations, but in the way these contents, and the people that create them, link together. Just as the activation of the pixels on a television screen form an image of a person, so also the bits of information we create and we consume form patterns constituting the basis of our knowledge, and learning is consequently the training our own individualized neural networks – our brains – to recognize these patterns.

The purpose of educational institutions, therefore, is not merely to create and distribute learning opportunities and resources, but also to facilitate a student’s participation in a learning environment – a game, a community, a profession – through the provision of the materials that will assist him or her to, in a sense, see the world in the same way as an accomplished expert; and this is accomplished not merely by presenting learning materials to the learner, but by facilitating the engagement of the learner in conversations with members of that community of experts.

Learning Resources

As discussed above, educational institutions will need to see themselves as providers of learning resources (and not merely learning objects). These resources will be online services that connect students with: learning content; games, simulations, and other activities; ad hoc communities of learners; and experts and other practitioners. They will be specialized multimedia content consumption, editing and authoring systems designed to facilitate a student’s ability to perceive and perform as modeled by experts in a community of practice.

These resources will not be inert content objects, but rather, will need to be able to learn about the environment they are being offered in, be able to learn about the student, and to get this information not just locally but from wherever it may be on the internet. Thus, such resources must be able to communicate state and other information to and from other (authorized) systems and services. They may, therefore, be fully-fledged web services, but they are just as likely to be lightweight applications depending on other simple services to do much of this work for them.

Today, institutions do not yet know how to deliver information to other systems. Beyond interlibrary loans, we have (at best) identity federation systems such as Shibboleth. Learning resource sharing networks, such as Globe, are small, ineffective, and exclusive. However, institutions are beginning to learn to prepare content for distribution through remote systems, such as the provision of lectures for delivery through iTunes University. Such systems will evolve over time into a mature system of open content distribution, facilitated through open access mandates, repository and other server software, and content and interaction standards.

Flow and Syndication

Understanding learning as ‘conversation’ (Sharples, 2005) also allows us to look at the management and distribution of learning resources a bit differently.

Today, as noted above, we tend to think of such resources as static and bibliographical, like books in a library, where contents are ‘published’ and then ‘stored’. This view is evident in much of the discussion that surrounds learning technology today. We think of work as being stored in a research repository, indexed and archived, in such a way that we can search for them, typically through a catalogue (or metadata) system, and retrieve them. (Barker, 2007) The major concerns of educators in this environment are things like persistence and provenance, copyright and reproduction. (Jantz & Giarlo, 2005)

In the networked learning environment, however, learning resources are best thought of not as content objects about a discipline that are retrieved and studied, but rather as words in a multimedia vocabulary that is used by students and teachers in an ongoing conversation within a discipline to engage in projects and activities. (Downes, The New Literacy, 2002) Content and learning resources, rather than being thought of as static objects, ought to be thought of as a dynamic flow. They are more like water or electricity and they are like books and artifacts.
The technology of learning – and of the web generally – is evolving to accommodate flow. (Jarche, Learning is Conversation, 2005)

Probably the most significant development in the last ten years has been the deployment of the Rich Site Summary standard – RSS – that allowed content creators to syndicate their writings and other creations. Using RSS feed readers, web users do not go to web pages or search for content, but rather, subscribe to RSS feeds and let the content come to them. (Downes, An Introduction to RSS for Educational Designers, 2003)

Most educators, and most educational institutions, have not yet embraced the idea of flow and syndication in learning. They will – reluctantly – because it provides the learner with the means to manage and control his or her learning. They can keep unwanted content to a minimum (and this includes unwanted content from an institution). And they can manage many more sources – or content streams – using feed reader technology.

RSS and related specifications will be one of the primary ways Personal Learning Environments connect with remote systems. To use a PLE will be essentially to immerse oneself in the flow of communications that constitutes a community of practice in some discipline or domain on the internet.

What It Isn’t

When people think of personalized online learning, they frequently think of adaptive systems, learning programs powered by artificial intelligences that test a student’s competence, formulate customized lesson plans based on those pre-tests, and then measure a student’s performance though a series of online activities. (Boticario & Santos, 2007)

While people will no doubt pursue solo learning activities (just as they, by themselves, read books today) this will not constitute the core of the learning experience in the future (just as reading books does not constitute the core of learning today).

Even though learning systems will be able to auto-grade tests, will be able to track progress through a set of learning activities, and will be able to facilitate a wide variety of measures, these results will not constitute, by themselves, ‘evidence’ of learning. Students will demand that there be a human element to evaluation, as they realize that their own performance is varied and complex, and may not be measured accurately by a machine, and employers and others will require a human element, because they will understand that humans devise endless schemes to ‘game’ or otherwise trick automated systems.

In the end, what will be evaluated is a complex portfolio of a student’s online activities. (Syverson & Slatin, 2006)These will include not only the results from games and other competitions with other people and with simulators, but also their creative work, their multimedia projects, their interactions with other people in ongoing or ad hoc projects, and the myriad details we consider when we consider whether or not a person is well educated.
Though there will continue to be ‘degrees’, these will be based on a mechanism of evaluation and recognition, rather than a lockstep marching through a prepared curriculum. And educational institutions will not have a monopoly on such evaluations (though the more prestigious ones will recognize the value of aggregating and assessing evaluations from other sources).

Earning a degree will, in such a world, resemble less a series of tests and hurdles, and will come to resemble more a process of making a name for oneself in a community. The recommendation of one person by another as a peer will, in the end, become the standard of educational value, not the grade or degree.


Time and Place Independence

The dependence of online on the computer over the last decade has masked the fact, but online learning is at heart a form of distance learning, and therefore offers as one of its primary advantages a form of time and place independence for the learner. Cloud computing and mobile computing will offer these forms of independence. They can, indeed, be thought of as offering a third, equally important, form of independence: device independence.

Time Independence

We are well used to the idea that students, whether working in traditional online courses or independently through informal learning, will access their materials and activities at any time of the day. They can work any day of the week, or if they are employed in agriculture or some other seasonal occupation, any time of the year.

That said, many institutions have, for administrative reasons, maintained the traditional schedule. Online classes still start in September, synchronous sessions are held once a week at a set time, and students are expected to maintain a traditional work schedule. But there is no academic or technological reason to stick to such a schedule, and we see learning events scheduled outside the institution, such as those run by Ed Tech Talk, run any time of the year and any day of the week.

It may take a larger cultural shift to shake the traditional institution’s understanding of, and dependence on, time. Classes and courses are still represented in calendars as ‘credit hours’, as though the ‘hour’ were a unit of knowledge or learning. Perhaps the most inventive way to escape this limitation is Google’s invention of the ‘Knol’, which it represents as a ‘unit of knowledge’. (Manber, 2007) Others identify the ‘smallest unit of learning’ with the ‘learning object’. (Christiansen & Anderson, 2004) Either way, time is ceasing to be an objective standard of learning.

That said, the possibilities inherent in the independence of time have yet to be explored to any significant degree. Learning today is presented either as scheduled – in which case the institution sets the time – or static, in which there is no scheduled time. The use of syndication technologies, however, creates many more alternatives. A learning resource, for example, can be defined either as an ongoing syndicated service – such as my own newsletter, or the audio feeds distributed by SpanishPod – or as a staggered distribution of resources, such as have been designed by Tony Hirst of the Open University.

Being able to time the distribution of resources is a significant advantage. It allows for presentations, interactions and other activities to be encountered dynamically during the course of days or weeks. This space can be used to pedagogical advantage in addition to meeting the student’s scheduling needs, facilitating ongoing practice and recall. Dynamic scheduling does not guarantee success – students may simply delete the material as it arrives. But having this level of control makes it more likely students will be able to attend to the material when it arrives.

Self-pacing in online learning, therefore, isn’t simply the learner picking up the work from time to time whenever he or she feels like it. It is rather the employment of various mechanisms that will enable work to be scheduled. Pacing continues to be important, even in instances of self-pacing. Being free to set one’s own schedule does not mean setting no schedule at all. Nor does it mean that the release of learning activities and content is not scheduled at all. It is, rather, a meshing of schedules.

One of the major reasons Microsoft Outlook continues to maintain a high level of use and acceptance is that it combines content – email messages – with calendaring. Products like Google calendar, Thunderbird, and evolution are slowly eroding Microsoft’s monopoly, and the employment of standards like iCal mean that events, like contents, may be syndicated. This allows events and syndicated contents to circulate within the same network, creating an association between time and content that is dynamic, fluid, and distributed. It will allow students to plan their days, and it will also allow them to participate, on impulse, in learning activities, via their RSS Events Reader.

Place Independence

Online learning stiff suffers from the misperception that it is about having students sit in front of their computer screen for extended periods of time. As a consequence, the idea that online learning might foster independence of place has been missing in much of the discussion of the field. Nor is current practice likely to change this, as we see online learning used to support in situ classes, and online learning consisting of long sequences of computer-based lessons.

That said, with the recent development of smaller and lighter wireless-enabled devices, we are approaching the era when online learning will also be seen as mobile learning. Students will be freed from the classroom, and freed from the stationary desktop computer. And as I said last time, true place independence will revolutionize education is a much deeper sense than has perhaps been anticipated.

In order to realize this potential, educators will once again need to get past the idea that learning is something (usually content) that is delivered to people. This is the model that prevails in traditional distance education, and in contemporary online learning. Content is delivered as a quantity of reading and browsing material. Teacher presentations are delivered as audio or video recordings or lectures. And even other students are delivered through some sort of conferencing systems. This model – of delivery – has had the effect of binding the student to the delivery platform, whether it is a computer, telephone, teleconferencing facility or ITV classroom in order for instruction to occur.

As we are now beginning to see, personal access devices (ranging from mobile phones to lightweight laptops) are highly portable. And this has the effect of changing the behavior of people who use these devices. Consider how the mobile phone revolution has shaped a generation. People remain highly connected, perhaps more so than ever, but now any location can be used to connect (so much so that we actually require legislation or social norms requesting that people not connect in certain circumstances, such as while driving or while watching a movie).

As the capacity – and functionality – of mobile devices increases, the activities they support also become highly mobile (and much more widely distributed across society). People now listen to music or audio recordings wherever they are. They take photographs more than ever, so much so that ‘no camera’ bans in museums and rock concerts are unenforceable. Video recording is now commonplace, and video cameras, it seems, are everywhere, recording everything from baths in restaurant sinks to a teacher mooning the judges at a debate.

There is, of course, no reason why learning cannot be one of the many mobile activities now possible, but this transition will occur more slowly, as designers realize that, instead of delivering content to the student, they can require the student to go out and get it – or even better, to go out and create it. Once we understand that learning can and should occur outside the classroom, it will become commonplace to see students engaged in learning activities throughout the community. Instead of being rare events – such as the way student create newsletters at teacher conferences in Saskatchewan – these will be commonplace events.

And it is important to understand that place independence means that real learning will occur in real environments, with the contributions of the students not being some artifice designed strictly for practice, but an actual contribution to the business or enterprise in question. We sometimes think of people today ‘learning on the job’. In the future we should also think of students ‘working at school’. We are already seeing cases of this, from the business Teemu Arina built in Finland to the Chaos Pilots in Denmark to the Collaborative Open Environment for Project Centered Learning (COOPER) project in Holland.

It is worth mentioning at this juncture a different sort of place-independence: cyber place-independence. Current online learning efforts are based on the idea that learning will occur in a certain online place – a learning management system, say – or will be conducted using certain software tools. This is a trend that will erode as students’ capacities increase and web resources and services are available inside other website or applications. Independence of online place will be as important to the future of online learning as will be independence of physical place.


The School of the Future

Today’s school, even now, is dominated by classrooms. True, some of those classrooms now contain computers, but the design remains essentially one where students assemble in a room to focus on dedicated learning activities, usually in the form of some sort of content delivered by a teacher. Though there have been challenges to curriculum over the last ten years, the basic structure of curriculum has not changed, and indeed, has in some places become more entrenched, as schools focus on a return to basic subjects.

The school of the future depicted ten years ago therefore remains rooted in the future, a vision toward which some educators may aspire, but today something that we can only anticipate.
That said, much of the learning that is happening in today’s schools is beginning to resemble the sort of learning that one might expect in a connected environment. Student-centered methodologies are becoming widely accepted in many nations. In particular, constructivist pedagogies are being implemented in some e-learning technology, such as Moodle, and adopted by some systems, such as in the province of Quebec, Canada.

As learning evolves slowly from a classroom-based and deliver-based type of instruction, and toward wide-ranging learning activities that are largely selected and managed by the students themselves, the dedication of space in schools to classroom instruction will be reduced. Instead, schools will be converted into meeting facilities, workrooms and laboratories, multimedia studios, and more. Specialized equipment, such as sound-proof recording studios and high-speed video editing equipment, will be made available. Libraries will evolve (in a transition that is happening today) into multimedia studios, where students engage with interactive media, games, and other types of content. VR rooms, such as the CAVE, will be constructed, emulating the simulation environments that police and military use today.

Schools of the future will change and diverge; where once we saw identical red-brick schools in every community, now schools of every size and shape will be developed, as public school boards begin to recognize that diversity and choice are strengths. A good example of this already is the Edmonton school board, where learning opportunities vary from the traditional large school, Harry Ainsley, in the suburbs, to the alternative downtown Central High, to schools based on culture and faith and even hockey.

Convergence

The changes we will see in learning will not occur as a result of one type of learning replacing another, but rather, will result from a gradual convergence between the different forms of learning.

This has already begin to be seen in what is today called blended learning, which is essentially traditional in-class learning supplemented by online activities and resources. A blended learning opportunity, for example, may consist of one in-person class per week instead of three, with online conferencing and reading replacing the rest. Or it may consist of a capstone conference session following several weeks of online work.

As convergence takes root, and as learning becomes more distributed, the focus of such learning opportunities will change. Blended learning is typically rooted in, and centered on, the in-person activity, making it difficult and less-satisfying for people in remote locations to participate. Improvements in conferencing will make actual in-person meetings less necessary, and the ‘blended’ aspect of blended learning will come increasingly to reflect the in-person activities people undertake in their own workplaces or communities.

The convergence of digital life with in-person life is not, therefore, a mere addition of a digital dimension to the in-person life we lead today. It transforms and reshapes that life, removing from it elements that could be done more efficiently (or more pleasantly) in a digital environment, and opening up opportunities for new and more types of in-person activities. While before, for example, a field trip to a local stream or forest would be seen as a once-a-semester activity, because it would otherwise consume too much class time, it could now become (for some students) a once-a-day activity, with what used to be classroom activities designed around the field trips.

Additionally, education will be increasingly supported through multi-use community centers. These will be available to students and parents alike, there being no need to limit community learning to the young. Facilities such as the Living Arts centre in Mississauga, where students of all ages can create pottery and sculpture, practice ballet, work on glass blowing, and many other arts, will become commonplace.

We should also look toward the development and deployment of learning facilities in traditional working environments. Students of all ages will be able to learn about law in learning facilities made available at courtrooms. Galleries at legislatures and town council meetings will be equipped with internet access (of course) and supported with installed facilities for learning and visualization (such as, say, a zoomable hologram of the city, allowing members and visitors along to see zoning changes and planned construction). Farms and greenhouses will employ student workers, who will study and catalogue plant and animal life as they work with it.


Learning Communities

Education is not merely the acquisition of new information and skills. To become educated in a discipline is to learn the habits, patterns, ways of thinking and ways of thinking characteristic of that discipline. Consequently, learning is a social activity, wherein we immerse ourselves into what Etienne Wenger called a community of practice, learn what Michael Polanyi called tacit knowledge, and be able to complete, as Thomas Kuhn famously summarized, the problems at the end of the chapter.

Although we learn what we learn from personal experience, we usually learn what we learn from other people. This learning is ongoing, from the day we open our eyes as a baby and see our parents, through school as we play in clusters on the playground, in college or at work not merely in the classroom but also (and mostly) through social activities, clubs, the local pub, and our friends. It is typically a social activity, where knowledge and skills are demonstrated, criticized, or merged.

Ten years ago, I argued that online learning in the future will emphasize community much more than is perhaps imagined today. At the time I was thinking of discussion communities, as described by Cliff Figallo, and portal websites, as described by Hegel and Armstrong. The internet more than delivered, sustaining not only these but a wide array of online communities and social networks, the significance of which is just beginning to be understood today.
At the time, I emphasized two major types of communities relevant to online learning: interest-based communities, and peer-based communities.

Interest-Based Communities

Today we would use the label ‘communities of practice’ to label ‘interest-based communities’, or as I also called them, ‘topic-based communities’. And while that would be an accurate description, to a certain extent, it is also a bit too narrow for the concept I had in mind.
Interest-based communities were and are relatively easy to identify on the internet. Erin brewer described a prototypical interest-based community when she described the community that formed around the activity of bee-keeping on Yahoo groups. Such communities, especially in the earlier days of the internet, were the dominant form of organization online.

Wenger’s characterization was informative. Communities would form around a topic of interest – the ‘domain’. They would engage in community activities – “members engage in joint activities and discussions, help each other, and share information.” And they would share a practice – a repertoire of resources, a vocabulary, common stories, common methodologies, common ways of approaching a problem.

Learning in the community of practice takes the form of what might be called ‘peer-to-peer professional development activities’. Rather than formalized learning, members help each other directly. We discovered this in Alberta when we studies how professional town managers learn: we discovered they call each other up on the telephone.

And as Wenger says, “From this perspective, the school is not the privileged locus of learning. It is not a self-contained, closed world in which students acquire knowledge to be applied outside, but a part of a broader learning system. The class is not the primary learning event. It is life itself that is the main learning event.”

Although the communities themselves didn’t develop along the model postulated by Hegel and Armstrong, communities did nonetheless form. The use of search tools such as Google made this inevitable, as any person interested in a given topic would search for it at some time or another, thus encountering the online presence of any other person who was also interested in the subject. Today, for just about any given topic, some community of some form exists.

Peer-Based Communities

People have friends in the physical world. Such friendships are arguably necessary, and they are certainly common. They form the basis of romance, the seed of personal relationships. They are the touch, the part on the back, the shoulder to lean on, the drinking buddy, the opponent on the golf course. They are the people we know, as we would say now, “in RL” - in real life.

As I noted in 1998, peer-based communities are almost the polar opposite of interest-based communities. They are not based on some common interest; one member may be an artist while the other may be a scientist. In the first instance, they are created through proximity, being composed of people who live in the same neighborhood or who go to the same school. Over the longer term, we may say, they are just people who meet by happenstance, and find an affinity for each other.

Such communities were almost non-existent on the web ten years ago, and at the time I treated them as almost entirely offline communities, characterizing them as the circle of friends you would meet at the local learning center or the local recreational center where you took your online courses or engaged in some other activities.

Thus I cited the community learning centers I worked at at the Canadian north - the learning centre in Fort St. Jean, in northern British Columbia, shown to me by the people at Open Learning Agency, or the fishers' retraining centre, a block away from the urban aboriginal training centre, fostered by the New Westminster School Division. Or the South West Indian Training centres in Sioux Valley and Waywayseecappo, in rural Manitoba.

Given convergence, it was inevitable that these communities would also establish themselves online. Indeed, the secret to the rise of Facebook, which rose to prominence in a short time, and which now has the most traffic of any site on the internet, is that it formed connections between friends based on their common origins and common schools (when it launched, it went so far as to block members who were not members of these community groups).

The rise of social networks on the internet is a reflection of this pattern, the creation of communities online based on affinity rather than on commonality of interest. Friendster, Tribe, Orkut, MySpace – they all walk that fine line between brokering relationships online and establishing some sense of exclusivity, of clubbishness. In this way they achieve some of the sense of personal connection that existed in earlier, non-professional, online communities, such as The WELL.

People will continue to use the internet to connect not only with the people in their professional lives, and not only with people who share topics and objects of interest, but also people in their personal lives, people they see every day and could talk to across the room if they wanted.

Learning Communities

Strictly speaking there is no such thing as a ‘learning community’ – save, perhaps, the strained and artificial creations of educational institutions that try to cram classes into collectives, creating personal relationships where none naturally exist. Rather, people learn in communities, and what would make any given community a ‘learning’ community or otherwise is whether people in the community learn more or less well.

It is probably a truism today (though there still remain exceptions to be observed online) that communities are grown rather than constructed, and that (therefore) they are owned (and managed) by their members rather than by some external agency. The desire for autonomy comes part and parcel with some of the perceived benefits of learning and growing in a community: safely, security, and privacy.

In the field of learning especially, there is a great deal of attention paid to what it is members have in common that facilitates the creation of a community – whether it be common educational needs, common age or locale, common sets of values, or even more theoretical entities, such as common objects, domains of discourse, or understandings.

The value of a community, however, and especially of a learning community, comes from the diversity in the community. Students gather around an instructor precisely because the instructor has knowledge, beliefs and opinions that the students don’t share. They gather around each other because they each have unique experiences. Fistering a learning community is as much a matter of drawing on the differences as it is a matter of underlining the similarities.
It is probably most accurate to say that there is no single design of a community that works best for every group of learners and for every domain of learning. The sort of community that you would want for an eight-man rowing crew is very different than one you would form to create a philosophy discussion circle, and different again from the sort you would create in order to learn a new language.

What will work best online, therefore, will not be a process of community building, but rather, a process of community enabling. The transition in community is therefore analogous, and parallel, to the transition in content. Just as people no longer need publishers to create content for them, they no longer need organizers to create community. Rather, just as, with access to powerful content-creation tools, they can create their own content, in the same way, with powerful community-building tools, they can create their own communities.

This is what we have seen online thus far. The tools people have used have been varied, ranging from the complex and powerful, such as Second Life, to the simple and almost ephemeral, such as Twitter. In all cases, the role of the tool was to create a space – virtual or otherwise – in which people can communicate, and then the members built the rest.

The creation of learning communities will work in much the same manner. Despite the efforts of educators and individuals to create (often lavish and complex) learning environments for students, this will in the long run not be necessary. Learners will create their own communities, their own environments. At most, the educator needs to ensure that the tools are there for students to use, and that the channels of communication, from student to student, from community to community, are open.

Identity-Building

It is worth noting that theorists of both professional and social networks speak of one’s interactions within the community as a process of building, or creating, one’s own identity.
Wenger, for example, writes, “Having a sense of identity is a crucial aspect of learning in organizations. Consider the annual computer drop at a semiconductor company that designs both analog and digital circuits. The computer drop became a ritual by which the analog community asserted its identity. Once a year, their hero would climb the highest building on the company's campus and drop a computer, to the great satisfaction of his peers in the analog gang. The corporate world is full of these displays of identity, which manifest themselves in the jargon people use, the clothes they wear, and the remarks they make.” (Wenger, 1998)

And meanwhile, danah boyd, studying the social community, writes, “The dynamics of identity production play out visibly on MySpace. Profiles are digital bodies, public displays of identity where people can explore impression management. Because the digital world requires people to write themselves into being, profiles provide an opportunity to craft the intended expression through language, imagery and media. Explicit reaction to their online presence offers valuable feedback. The goal is to look cool and receive peer validation. Of course, because imagery can be staged, it is often difficult to tell if photos are a representation of behaviors or a re-presentation of them.” (boyd, 2006)

In both of these we are seeing aspects of the same phenomenon. To learn is not to acquire or to accumulate, but rather, to develop or to grow. The process of learning is a process of becoming, a process of developing one’s own self.

Accordingly, what we know of the communities of the future where learning will actually occur is that they will be communities in which learners can immerse themselves and grow into something new. Previous experience suggests that these will be places where they can create and where they can project – not “serious games” but “modding communities”, not “reading groups” but “fan fiction”, not “educational simulations” but “LAN parties”.


The Triad Model

The model of community described in the previous section suggests a natural organization of services and resources, one I tried to capture under the heading of ‘the triad model’.

The Triad

The idea of the triad model is that in any given learning situation, there are three major participants: the student, the instructor, and a local coach or facilitator. The idea was that the instructor would be online, a member of the interest-based learning community, while the coach or facilitator would be more a member of the peer-based community.

These elements will persist in any description of online learning, though over time their description may be refined to reflect actual practice.

Online, for example, we would expect not only to find the instructor and any administrative services, but also resource libraries, other students, and digital tools or platforms on which distributed work may be performed. The online component of a person’s learning environment will tend to me more distributed, based on communications and connections of a cognitive nature.

Offline and locally, by contrast, we would expect to find not only coaches and facilitators but also one’s immediate friends and family. We would also expect to find local facilities, along with facility managers and other support staff. The offline component of a person’s learning environment will tend to be more localized and immediate, based on personal relationships, support and emotional attachment.

Typically, the role of the online environment would be to inform and assess, while the role of the local environment would be to reaffirm and to advocate. These, obviously, are generalizations, and crossovers are likely – we may take some tests in person, and we may form some emotional attachments to online groups. But these will be the exception rather than the rule.

Probably the most significant (and as yet unrealized) aspect of the triad model is the idea that some local authority figure will act as an advocate for the student.

The Online Host-Provider Framework

Societies continue to work out the process of managing digital and physical resources. That said, the framework described here remains probably one of the more accurate – and more likely – descriptions.

The ‘host’ in this framework corresponds to the local and (mostly) non-digital component of a learner’s environment. This would be the agency that managed the physical facilities, connectivity, coaching or mentoring, and other local services.

These are roles that are typically undertaken by a community, school board or a local government. In the corporate world, this will be the learner’s company or department. These are the agencies that focus on provisioning and supporting, the agencies that would have the most interest in fostering learning.

The provider framework, however, is a network of agencies and services that manage the distribution of software, content and services to a wide area. The provider typically operates at a remote location, and might be a national government, university or institution, telecom company, software company or publisher. These agencies provide services, but act based on interests of their own, the government having social polities it wants to fulfill, the institutions seeking to satisfy their board members, funders or shareholders.

We are seeing increasing activity on the ‘provider’ side of the equation, as institutions and agencies set up repositories and online services. Projects such as MIT’s OpenCourseWare and Rice University’s Connexions are examples of this. Commercial media are also in the mix, with services such as CiteSeer providing front-end search results for institutional access into publication archives.

Significantly less work is being done at the ‘host’ level, partially because it’s more difficult and partially because the services provided require little more than passive consumption of learning materials. Over time, local agencies will become more pro-active, seeking out and supporting more interactive and more engaging forms of learning. No longer content to be a passive recipient of learning and culture from distant places, the local community will expect to be an active participant in the learning experience of its young.


Accreditation

In 1998 I wrote that “The mishmash of host institutions, provider institutions, and umbrella organizations is going to result in an increasing debate over standards and testing. It is going to get worse before it gets better. It probably won't get better.”

In 2008 we finish a decade that has seen controversial legislation such as No Child Left Behind, the rise and fall of numerous ‘virtual universities’, ongoing debates about the results of independent testing (such as OECD’s PISA tests), commercial educational ventures (including the controversial Edison schools in the U.S.), charter schools, vouchers, digital diploma mills, off-shore institutions, and more.

In the years to come, we will say that it was a quiet decade, with the existing system having remained largely unchanged, almost unsuspecting, even, of the major changes that were to follow. And as it stands, the monopoly on degree-granting status largely remains in the hands of traditional institutions. But nobody can expect it to remain there.

The Divergence of Learning and Testing

It hasn’t happened yet in any large scale and formal way, but it is probably inevitable that the domains of ‘learning’ and ‘testing’ will separate. In the future it may even be thought of as quaint that those responsible for the fostering of learning were also those responsible for evaluating whether or not learning actually happened.

The model of assigning testing to independent testing agencies is already the norm in some industries. Car drivers and airline pilots are evaluated by independent agencies, as are lawyers and accountants. Software engineers are certified by software agencies, not their teachers. And of course anyone involved in professional sports or entertainment is evaluated in competition in the arena or the marketplace.

In traditional learning there is slow acceptance that people may be tested without first having been taught. Colleges and universities are investigating ‘PLAR’ (Prior Learning And Recognition) systems. People who are in some way able to demonstrate their ability – through a portfolio system, for example, are able to circumvent the need for testing altogether.

This is a trend that will continue. As it becomes more and more possible to teach oneself online, and even to demonstrate one’s achievement through productive membership in a community of practice, there will be greater demand for a formalized system of recognition, a way for people to demonstrate their competence in an area without having to go through a formal program of study in the area.

The university degree is a designation of considerable weight and cachet, and so it is probably going to remain in use. What a degree stands for, however, will change, as institution become more willing (after much arm-twisting) to recognize educational achievements from a wide range of providers, including testing agencies, as constituting part, or even all, of the degree.

Education as a Service

As the provision of educational services becomes more commercialized, the representation of education as a service will become more pronounced. The idea is that the student will be viewed more as a client than as an apprentice, a person to be served more than an acolyte to be judged.

The emergence of education as a service will accelerate some of the trends highlighted above. One of the major drivers for independent (or ‘standards-based’) testing is the expected diversity of educational providers. Commercial services need governmental oversight, and that is the sort of service independent testing provides. Moreover, service-based education will push the emergence of the ‘provider framework’, as described in a previous section, and consequently the more community-based host framework, as a balance to that system.

Why would we move in such a direction, given that it creates such a complex structure, and carries with it so many risks? Why not keep the system we have, where government agencies, such as schools, provide the bulk of teaching and testing?

Economic pressures will prevail. On the one hand, providing education through schools is an expensive process, requiring a great deal of staff labour. Even today, some governments resist the sort of expenditures that would be required to fund all students equally, and for less wealthy nations the idea of a fully-funded school system is just a pipe dream.

On the other hand, online learning offers an inexpensive alternative – but only if it is deployed using less labour-intensive practices. Simply replicating the offline experience online does not save money; rather, we see reports that it becomes more expensive. Online learning, if it is to offer economic advantage, must be based on the idea that learners are able to provide for their own learning, using both resources provided by educators, and by assisting each other through collaborative networks.

Consequently, educators, rather than engaging in the traditional practice of directing education, will instead focus on providing educational services into self-directed networks of learners.

Accreditation and Reputation

The purpose of accreditation is to ensure that the statements asserted by credentials – that a person, for example, has mastered the art of dentistry – are true. To this end, the institutions that issue such statements are vetted. Accreditation agencies examine the process employed in the production of such statements, and if the process meets a set of standards, we can be reasonably sure that the statements are true.

A more informal process governs the selection of institutions by students, that of the reputation of the institution. The reputation is influenced by a large number of factors, including brand recognition, word of mouth and proximity. The mechanism employed by prospective students is much less reliable, especially insofar as it is informed by advertising.

Neither process will be effective in the new environment of distributed educational resources. If the delivery of learning is separated from testing and certification, there will be a proliferation of learning agencies (and, potentially, a proliferation of testing agencies). Because the barriers to entry in the market are low, the consolidation of the industry will be slow, if it occurs at all. We see this in less rigidly regulated markets, such as Bogota, where there are 90 universities.
What will emerge for learning institutions, as for most other services, is a system of reputation management that is integrated into the search process. Recommender systems, as such systems are now called, will employ pattern-matching software to find resource providers for potential clients. The software will draw information from a wide range of other services, including information about the institution that produced the resource.

The Google search algorithm is an early example of a recommender system, employing as it does information about what people link to in their web pages and what people talk about in their mail to give each resource a ranking. Google additionally tailors those rankings to profiles it creates of its customers. Personalization is at the core of recommender systems; what counts as ‘the right resource’ varies from person to person, from time to time.

In the same way, testing agencies will also acquire a reputation over time, this based largely on assessments of people it has tested. People seeking to establish a set of credentials for themselves will likely rely on a number of different testing agencies in order to mitigate the risk of being certified by a poorly ranked agency.

But that said, as more and more of a person’s life becomes available online, the need for certification will diminish, as people acquire reputations of their own. A person’s standing in a community can be recognized by members of that community, and is acquired through months and years of participation in the work of that community. Where certification is granted, people presenting certification without having acquired a reputation for work in the community will be viewed with suspicion.

We are seeing today how people can acquire a reputation without having achieved formal credentials. Some of these reputations are fleeting, such as the fame that accompanies the production of a popular YouTube video. But some are more permanent, such as those of the people who built Firefox (and were later hired by Google). We are also seeing the same phenomenon with institutions. Some sources – Internet Movie Database, say – are widely trusted. And others, such as Brainbench, are working to establish a name for themselves.

As we have seen, though, with search engine optimization (SEO) and other attempts to mislead reputation systems, there will continue to be a tension between the trust we put in such systems and the degree to which they can be infiltrated or corrupted. Reputation systems based on data that can’t be replicated or imitated will acquire the most trust, and these will most likely be based on verifiable identity and interactions within social networks.


Modularity

A History of Modularity

When the concept of the 'learning object' was proposed, a large part of the idea was based on the idea that these small chunks of content would be fitted together to form larger entities. "Like Legos," said some proponents, describing the way the objects would use a universal interface to fir together. In 1998 I described this idea under the heading of 'modularity', the idea that an entity we consider to be a single unit is in fact composed of separate and independent parts.

As Legos demonstrate, modularity works very well in some contexts. Most complex objects are composed of separate - and exchangeable - parts. Computers, electric trains, aircraft - all of these are modular to a degree. But the interface is hardly universal. As David Wiley noted after a few years of practice with learning objects, other analogies might be more appropriate - that of the atom, for example, where some parts may fit some other parts, but not all parts fit all other parts.

In the years that have passed, specifications, such as Content Packaging and Simple Sequencing, were designed to facilitate the creation of larger entities out of smaller entities. But the idea of making large content entities out of smaller and reusable content entities began to be challenged. In 'the reusability paradox', Wiley questioned the idea. For content to be usable, he argued, it must be very specific to a context. But if context is very specific to a context, it is not reusable.

It is too early to suggest that the idea of reusable modular content is incorrect, if indeed it ever was incorrect. But Wiley's observations, along with a deeper look at the analogy from mechanical parts, shows that reuse is rather more complex than the mere connection of digital objects together. For even in the physical world, where reuse is common, different types of parts fulfill specialized roles. Screws, for example, are generally reusable, if you want to attach things, but come in various sizes and shapes, for different purposes.

In the world of digital content, too, the concept of 'fitting together' proved to be more complex that a mere plugging of one bit of content into another. It became clear that the learning management system would need to be able to exchange information with the learning object – to send to the object, for example, the student's name or grade, and to retrieve from the object, for example, test or quiz results. In the Sharable Courseware Object Reference Model (SCORM) this was defined by means of what was called a 'wrapper' - some computer code that accompanied the object and facilitated this interaction. In practice, interactions tended to be specific to the system the learning object was defined for, so the objects, while technically SCORM-compliant, could not always be reused on other systems.

Using Modular Content

To support the use of modular content, I argued ten years ago, we would need two types of technology: first, distributed design, which would allow courses to be made up of components located all over the internet; and second, educational object repositories, which would facilitate the creation and storage of digital content for later reuse. Though we saw the educational community develop the latter, instructional technologists did not embrace the idea of distributed design.

Several technologies emerged to support resource repositories. Most formally, institutional or enterprise content management systems, such as SiteScape, were used to support collaborative development. Proponents of open access developed the open Access Initiative (OAI), which defined a set of protocols for uploading, searching, and retrieving resources. The MIT DSpace project built on and expanded the OAI protocol. Meanwhile, more or less public archives sprang up on the open internet, sites such as the internet Archive, Flickr, YouTube and box.net.

The educational community, however, saw the repository as something that would be housed and managed locally. This led to the development of the Learning Content Management System, which combined the functions of the LMS with those of the CMS. The idea was that learning resources might be obtained remotely, but would be stored locally, in what was essentially an institutional library. Proponents of this model argued that local storage was necessary to ensure reliable access, consistency and persistence.

This is an argument that makes sense when reusable content is being used to construct static and asynchronous courses. As the use of learning resources becomes more dynamic, however, the extra steps required in order to obtain and store locally external content become more onerous. In the long run, a mixture of approaches will be used. Material will be sourced externally – it won’t make any sense to restrict one’s search to a local library – and insofar as local copies are created, this will be done automatically.

For this reason, much of the work on learning objects has been based on indexing and discovery. Some repository specifications require support for a search function, and cooperating repositories typically support what has come to be known as a search federation – a single search will be executed simultaneously across a number of different libraries all at once. Such searches were supported and assisted through the use of metadata data and keywords – an instructor, say, could search only for ‘history’ texts, or only for material at the ‘grade 8’ level.

Educational Object Protocols

It is worth saying a few words about educational object protocols, which I predicted ten years ago would play a major role in educational technology. While this prediction has come to pass, the evolution of such protocols – now known as Learning Object Metadata (LOM) and associated standards – has not been smooth.

As I later argued in my paper Resource Profiles, LOM should not attempt to be all things to all people, and should focus solely on the educational properties of a resource. Moreover, I argued, these educational properties are not identifiable a priori in the resource itself, but rather, are defined over time through use. Consequently, instead of designing LOM as though it were a bibliographic record – which was the practice of the educational technology community – LOM should be integrated with and used with other specifications and standards, forming part of a larger, and more dynamic, resource profile.

What we have seen of web technology as a whole suggests that this is the course that will be taken. A single metadata file – a Dublin Core resource description, for example – now links to external vocabularies, rights declarations, and other metadata. Moreover, metadata created through use, sometimes called attention metadata, is now being merged with bibliographic metadata. And global search sites, such as Google, use their own internally created contextual metadata (such as link information) to organize search results.

Additionally, specialized metadata and communications protocols are being developed to allow applications to communicate with each other. Web pages are able to send information back and forth to web servers using a set of protocols called AJAX (Asynchronous Javascript and XML) while web servers communicate with each other using REST (REpresentational State Transfer). These protocols form the heart of what is now called Web 2.0, and though it is likely that the specifications will evolve over time, the functionality created through the use of these specifications will persist. We have now, permanently, entered the age of the connected, distributed, web.

Standards and specifications will continue to form an important and central role. They are the syntax of the web, defining how the parts – whether bits of content, or bits of applications, or people and content, or whatever – fit together. They will evolve dynamically, come into and fall out of currency, be constantly changing, constantly evolving. It is tempting to think of such a system as broken, and to attempt to try to fix it. But the system is not broken – this is how it works. It is a dynamic, flexible changing system that makes learning possible at all both in individuals, and in society as a whole.

Modularity, Continued

The original picture of modularity resulted in a vision typified in SCORM, where an individual learning object would communicate simply with a learning management system. The learning object would thus become a part of the larger whole, and no other interaction would be necessary.

There is still a lot of work being done in the area of modularity and to a certain degree - generally within a single enterprise or institution - some reuse is happening. Accompanying this work, however, is a general reduction of the size of a given unit of learning. Where a 20 or 40-hour course may be appropriate in an in-person learning environment, shorter courses are more appropriate online, as short as ten or fifteen minutes.

Various reasons have been proposed, from the shorter attention span of the student to the difficulty of reading text online. It is arguable that the shorter course becomes necessary online because the online learner wants and expects more control over his or her workload or schedule. Once we have the idea of dividing learning into self-contained units, it may be argued, there is no reason to arrange them in certain pre-defined ways. Why not allow the learner to arrange them in the ways that make the most sense to them?

Modularity, as seen from this perspective, takes the idea of a learning object communicating with a single LMS, to form a single course, and multiplies it, allowing a single learning resource to communicate with multiple entities, to form parts of multiple courses, all at once. The same resource may be part of a game, part of a performance support system, part of a desktop. It is a tool, that is used by the learner where needed, or it may be something a learner has created using a tool (there is no logical distinction between them). It a library, referred to when wanted, or a work in the library, that the learner is currently authoring. It is a desk drawer, filled with notes, drawings, or whatever, or some of the contents of that drawer, to be pulled out and used – as a tool, a library, a drawer (our categories of ‘objects’ break down when we are thinking digitally).

This is a different take on the idea of re-use. While the traditional conception of learning objects was that designers or instructors would assemble smaller chunks of content into coherent presentations of learning material, this is rather the idea that the management of re-use would be placed directly into the learner’s hands, so that reuse could occur, not simply within a course content, but in any context where re-use makes sense.

In this way, the reuse of learning resources is consistent with the sort of reuse we see happening elsewhere on the internet. Rather than being structured to form larger wholes, individual bits of content are being remixed and repurposed to form new content objects, and these content objects are being used in what amounts to a rich multi-media based conversation. From the perspective of the learner, the learning resource is like a YouTube video or a Flickr image or any other type of content: something to be shared with friends and used to express ideas and points of view.

None of the metaphors, such as Legos or atoms, describe this version of modularity appropriately. I once used the metaphor of objects in an environment – like a horse and a palm tree – to describe modularity. Objects are not designed for each other, nor do they fit together in any particular way – they coexist in the same space, and each perceives the other in its own way. They share, if you will, the same information space – the palm tree reflects light waves, and the horse sees them. The objects function autonomously, connected, interacting, but not joined.

Technology of the future will consist almost exclusively of such autonomous objects; even our large systems, such as learning environments, are best thought of as autonomous objects that interact with other objects.


Copyright, Ownership and Identity

As expected, issues of copyright in particular and intellectual property in general have played a major role in online learning over the last ten years. This trend is likely to continue, but with a gradual easing of the sort of logjam that has stymied innovation and development in the field.

Roadblocks

Probably the most visible impact of copyright on higher education over the last ten years has been the series of lawsuits launched against students (and concordant threats against universities) over the sharing of digital music files.

What used to be an analog and inefficient process suddenly became easy and mainstream using digital technologies. And consequently, a private and non-commercial activity became the focus of business models for companies like Napster and Kazaa. At the same time, publishers sought greater control over distribution, seeking to license, rather than sell, content and software.

This prevented instructors from replicating online practices common in the typical classroom. No longer could newspaper clippings, articles or textbook chapters be distributed as handouts. No longer could video clips be shown or audio recordings be played to the class. The digitization of academic content was, at every turn, challenged by publishers.

In like manner, the use of educational software became a complex and expensive proposition for educational institutions. The cost of educational software rose, mergers and lawsuits limited competition, and customers were locked in to existing vendors by proprietary technology and the cost of conversion.

And in some areas, innovation ground to a halt as a result of patents and lawsuits. Probably the most visible case is that of digital rights management itself. Holding a broad swath of DRM patents, ContentGuard stood poised to threaten any company trying to develop a rights declaration system. But in the absence of any actual lawsuits that might define the scope of the patents, and of any effective technology from ContentGuard itself, work in DRM has remained stalled.

The argument in favour of strong intellectual property protection is that it fosters innovation. But our experiences over the last ten years show the paucity of such claims. The areas in which innovation has been fastest have been areas in which no effective patents held sway – HTML, CSS and Javascript, content management and syndication.

Where strong IPR exists, in areas such as online textbooks, digital rights management and wireless technology, say, innovation has been agonizingly slow, with new products and services being unveiled at glacial speed, at significant cost. Sometimes – as we saw in the case of inexpensive laptop computers – the market opens up only in response to an open or non-profit initiative.

Since rights holders are not likely to lose their influence over policy makers or over the market, this asymmetrical pace of development will continue. Over time, and as a general rule, non-encumbered products and services will gradually come to dominate the marketplace. However, this process will not be uninterrupted, as commercial developers are capable of considerable innovation themselves.

Responses

While court cases, protests and defiance have garnered the headlines, the most overwhelmingly popular response to proprietary content and technology has been the fostering and creation of free and open alternatives.

Free and open source software, as well as free and open content, have both been made possible through the development of licenses prohibiting the enclosure of such work in proprietary media. These licenses have been defended successfully in court.

As a result, proponents of strong intellectual property regimes have been forced to argue along two lines: first, against the sharing of existing commercial content, and second, against the development and sharing of alternative content. If the first case was difficult to make, the second has been proving almost impossible.

This has had a significant impact on education. A growing tide of opinion has begun to support the Open Access movement, driven largely by the argument that scientific research and educational content produced through government investments ought to be freely available.

In some cases, the freeing of such information have been voluntary, as in the case of agencies such as MIT, which created OpenCourseWare, and the Open University, which produced OpenLearn. In other cases, such as at NIH, a government mandate has provided the impetus. Meanwhile, a great deal of grass-roots work has been undertaken, such as resulted in the development of open access journals such as PubMed and open access software, such as OAI and DSpace.

The public, too, has enthusiastically developed itself to the free content movement. Following the example of the groundbreaking Wikipedia, volunteers have been instrumental in creating resources such as Curriki, WikiEducator, and Wikiversity. Additionally, employing Creative Commons licenses, which grant people the right to reuse their work, web users have uploaded millions of photos, videos, web pages, and other digital contents.

Even if commercial publishers win strong copy protections from policy makers and technology companies, the trend toward free and open content will overwhelm them. As it stands, content producers are beginning to understand that it is better to allow their content to circulate freely, without restriction. This is because such content offers unequaled marketing and promotional opportunities, especially for new and not well recognized acts. Additionally, content syndication agencies, such as YouTube, are finding ways to recognize commercial content and allocate advertising revenue to the owners.

The Learning Marketplace

The proliferation of both learning materials and learning providers has created a renewed focus on ownership. Issues surrounding copyright, trademarks and patents have been central to the field of online learning over the last ten years. Simple questions about the ownership of course material have evolved into complex questions about the ownership not only of course content but of software systems, business process, and even the idea of online learning itself.

What used to be a market dominated by large institutions and large publishers is beginning to fragment. While large commercial players will remain in the field of education, volunteer contributions and small enterprise will play an increasing role.

Through content distribution networks that recognize and retain authorship information over pieces of content, those who create work may be compensated – or not, depending on their desires – as the work is used in or outside commercial contexts.

What should be understood, however, is that the bulk of educational content online will be free to access and reuse. It will be created by governments, foundations, companies and individuals, and will be permitted to freely circulate, used by students and instructors worldwide to support their own learning.

As with the market in open source software (and perhaps even more so) the commercial presence will be seen most of all through the provision of services. There are two major criteria for any educational good to obtain financial return in the marketplace: first, it cannot be something that can be digitally duplicated, for then the effective value per unit approaches zero; and second, it cannot be something that the users of that good or service could easily produce for themselves, for once again, the effective value per unit approaches zero.

Today, much of the value derived from the learning marketplace is based on an artificially imposed scarcity – a scarcity of seats in classrooms, a scarcity of credentialing agencies, and a scarcity of educational publications, for example. These scarcities will disappear as governments prefer to fund education directly, and at cost, rather than support such business models.

That is not to say that no money may be made on content, or collaboration, or any other educational product or service. Just as the odd YouTube video is able to sell thousands of dollars worth of advertising, some educational content will also find a commercial niche – Randy Pausch’s Last lecture is a good case in point.

But in general, educational enterprises will have to be more creative in finding opportunities. Content providers will discover there are much larger markets to be had when they help people create their own content. This will be the basis for the educational marketplace of the future. In general, helping people provide for themselves – helping them, in other words, save time and money – will provide the best opportunities. Selling people cameras instead of pictures, for example. Course content creation kits instead of courses.


Instructional Technology

The Platform

As mentioned above (in the section on personal learning environments) the major shift in instructional technology will be from systems centered on the educational institution to systems centered on the individual learner.

As a result, rather than the employment of a single system to accomplish all educational tasks, both instructors and learners will use a variety of different tools in combination with each other. These tools, as described above, will communicate with each other, and will support the acquisition and creation of learning content, as well as activities such as games or real-time collaboration.

As described in the section on virtualization, these tools will operate in a portable environment. Operating systems, rather than being tied to a particular type of machine, will become more like portable data files that can be plugged into one type or hardware environment or another as needed.

As this sort of model gains currency, designers will pay more attention to the concept of the platform. We have seen this already in discussions of ‘facebook as platform’ or of ‘second life as platform’. In general, a platform is a software environment in which third party applications may be loaded and run. We are on the verge of experiencing a proliferation of platforms – software platforms like facebook, mobile platforms like the iPhone, appliance platforms like your fridge or stove, and more.

In a sense, the platform of the future will do exactly the job assigned to the instructional management system of the past: “an instructional management system is the backbone motherboard into which all educational components are plugged.” This analogy remains apt today. However, with a proliferation of platforms, a central question emerges: who manages the platform?

It used to be the case that, if the platform was a web server – such as a university LMS – then it was managed by the organization that owned the server. And if it was a local system – such as a personal computer – is was managed by the owner of the computer. As platforms depend more on external services, however, the question of management becomes more vague.

Just recently, for example, it was revealed that Apple has an ‘off switch’ it can use to disable any application on a user’s iPhone. In this it joins the tradition of the telephony industry, which has always retained control over the hardware, control over the handset. In the computer and software industry, such control is found under the heading of ‘trusted computing’ – parts of your computer that are managed by software companies, and not computer owners. Once might cynically say that the trend is toward licensing hardware in the same way as we have started licensing software.

All cynicism aside, it remains that, in order to be successful, platforms will have to help people do the sorts of things they want to do. Issues of control will become secondary if people are not prevented from, say, communicating with each other or obtaining information. On the other hand, if the platform becomes an advertising vehicle or an instrument of censorship, it will be eschewed – eventually – in favour of more useful technologies.

Tracking

Tracking and reporting are the major functions required of a learning management system today (and main reasons institutions want to keep using them). No matter what device a student is using, no matter where they access an online course, the LMS can report on what they have viewed (and reviewed), keep track of test scores and upload grades, and provide a secure, monitored location for in-class conversation and collaboration.

Future learning technology will need to support such functions, at least to some degree. The recognition of learning, whether by institutional certification, third-part testing, or community reputation, is to a significant degree a matter of reporting activities and achievement.

Understanding this function of future learning technology is critical to understanding its construction. Consider a bookmarking service such as del.icio.us, for example. Although its primary function is to allow a person to manage his or her bookmarks, it also becomes a record of what that person has read (or, at least, seen). Consequently, the bookmark as public performance and record becomes one of its primary functions.

Understanding such technology in this light highlights the issues that will have to be addressed. Such systems will need to be accurate and reliable; they shouldn’t report things that haven’t happened. At the same time, they need to be, to a certain extent, voluntary. People want to control the work they are offering for assessment, even it if is work as trivial as a browsing history. That is why the same people who turn off tracking systems and refuse to load images will at the same time happily fill pages of del.icio.us recommendations.

Tracking systems in the future will be more automatic – filling out forms loses its appeal after a while – but will remain in control of the user. One element of this will involve the user’s ability to assume different identities for different tasks. People will not find it fair or reasonable that their Second Life socializing be a part of their Ancient History class evaluation or part of the job interview process.

As mentioned above, this process will create a trail of usage metadata – also called attention metadata – behind both the use and the resource. This metadata will be available for harvesting, and will be employed by aggregators in order to create a profile of the resource. Profiles will be created of different types of usage metadata, and different people will see different profiles of the same resource (or the same person) depending on what they think is important.

Conferencing

The topic of conferencing and communication has come up several times in this discussion. That should be no surprise; it forms the core of any educational system, and particularly one in which learning consists of participating in a community, creating and sharing learning content.

In the field of educational technology, conferencing systems are typically divided between synchronous and asynchronous, the former describing technologies where communication occurs in real time, and the latter where communication occurs at discrete intervals. But as conferencing technology improves, these terms will tend to be used to describe behaviours rather than types of technology.

Consider, for example, a traditionally asynchronous technology such as email. It has now increased in speed to the point where people can have real-time conversations in email. Such technology comes to resemble a common synchronous tool, instant messaging. But instant messaging can be used to have an asynchronous conversation, where messages are left for people to pick up later. The two systems eventually merge into a single, text-based communications technology that may be used either synchronously or asynchronously.

The same is true of other modalities, though we haven’t seen this so much yet because of the need for better bandwidth and storage. But a live video conversation may just as easily be thought of as a set of discrete video messages, where each person responds to the other in real time or delayed time. A broadcasting system such as UStream shows viewers the same content, whether they are viewing it live or after the fact.

Conferencing will increase in both size and flexibility over time. The difference in size will be the most obvious. Instead of postage-stamp sized videos, we will use wall-sized screens to depict each other at full size, with near-zero compression and latency (I have actually seen such systems; they require only the widespread deployment of very high capacity bandwidth).

Such systems will not be used like televisions or telephones. They will be used more like windows, always on, always connected, where you can see other people and chat with them on a casual basis. Other windows will be used to display the local news or weather or a live feed from a favorite vacation spot (managing the sound levels between windows will require some interesting management technology).

But they will be more than windows, as we will be able to use them as digital portals, sending any of our data or applications over to the other side, or to use them as two-sided computer screens on which to work on the same document at the same time. And they will be placed not only on walls, but on desktops, in books, and even through tiny private screens beamed directly to a person’s retina.

People will learn to work with their conferencing system constantly turned on and with other people – as many or as few as they choose – just a glance or a nod away. Say someone’s name – “Stephen?” – and it appears as though you are knocking at their window, or poking your head through their door. That is not to say that privacy does not exist – people expect and want privacy – but rather that their environments will be more or less digitally porous depending on time and circumstances.

Content Filtering

Content filtering has become, for better or worse, a major part of educational technology today, and it has become, as I suggested ten years ago, clumsy and overbearing. Educators continue to complain about entire domains, such as YouTube – or entire technologies, such as Skype – simply being blocked by an institutional administrator.

This has been necessary because filtering technologies were, and are, largely ineffective. Email users continue to be set upon by spam, with the distribution of viruses and phishing attacks compounding the distasteful advertising messages. Objectionable content proliferates on the web as well, either in the form of direct advertising (such as pop-ups) or misleading content (such as spam blogs, or splogs).

As a matter of practicality, as I suggested ten years ago, students in schools are not granted access to the entire internet, but rather, reasonably safe subset of it. Government legislation and school policy has mandated the blocking of sites that contain disturbing or controversial content. It is unlikely that such a system will change in the short term, largely because it has proven impossible to block such unwanted content on a case by case basis.

The employment of content filtering in education sparks debate because the application of such technology is not limited to unwanted content. The wider internet has seen cases where an internet service provider has blocked the website of its union, and where telephone companies and cable companies ‘throttle’ content that competes with its core business. Ten years ago I suggested that filtering would be used to protect markets for vendors of educational content. Today such practices seem more possible, and are opposed by a widespread ‘net neutrality’ movement.

Probably, the only way forward will be to enable people to select what they want, rather than to force them to block what they don’t want. It is not possible to imagine the sort of thing that will creep into your in-box (believe me) but it is possible to create a content aggregation network composed of trusted suppliers, friends, and friends of friends. The popularity of social networks in recent years is only partially due to the desire to connect with others; it is also driven by a desire to shut out unwanted people and content. It is no coincidence that sites such as Facebook began as exclusive enclaves.

People wanting safe community standards will use the community as a filter. Alternative content will flow around such enclaves; there are many communities on the internet. As people become increasingly frustrated with unwanted content, the internet will resemble less a broadcast medium and more a person-to-person communications medium. Business models based on content distribution and especially advertising will have to take note.

As communications networks come to be defined by sets of connections with contacts, rather than a smallish selection of channels, metadata and filtering will be more effectively deployed to personalize input. People will want to have as broad a network as possible, both to extend their own influence, and to stay informed. Adaptive filters will all people to monitor a wide community – all connected physicists, say – while focusing on a particular set of topics of interest. Other flags set by trustworthy people will propel content through these filters, creating, in effect, a notification network.

Content providers, such as governments, educators and news agencies, will be able to act as inputs into the communications networks. But they will have to reach people through intermediaries, who filter, fact-check, and interpret these communications. Many people will get their news from their friends rather than from CNN. To have a voice, content providers cannot block file sharing. They will have to encourage it, because they are competing against many voices.


The Economics of Online Learning

The two schools of thought identified in my earlier paper can still be seen today. On the one hand, there is a body of opinion that states that online learning is more expensive than traditional learning, that the average online course costs thousands of dollars to produce, and that specialized systems, such as simulations, even more so. And there is the other voice that points to the economics of reuse and suggests that online learning, in the long run, will save money.

Both perspectives contain an element of the truth. Where online learning involves the development of courses, simulations, and other advanced software, development costs are very high. Such investments can only be justified by significant need. Flight simulators, for example, are expensive, but are cheaper than jet aircraft. Military and police tactical simulations recreate conditions that cannot otherwise be experienced, except in live and potentially dangerous situations.

On the other hand, if the work done to develop an online course serves merely to duplicate an in-person course already available to students, the expense seems questionable. Replicating classroom conditions is not the cheapest way to conduct learning online, and we become more experienced with the internet, alternatives emerge. A model of learning that puts much of the organization into the hand of students – such as is the case with the Massive Open Online Course being taught by George Siemens and myself – may prove to be much more cost-efficient.

Automation

All other things being equal, automation offers the potential to produce considerable savings, in cases where automation is possible and desirable. We have already seen teachers save a lot of time using online grade entry systems, for example. Tasks that would have been a long involved chore – such as creating a slide presentation – are now easily accomplished with tools such as PowerPoint.

Automation does not mean the end of teaching careers, though. What automation allows is (as I said ten years ago) a ‘deep personalization’ of learning. Automation allows us to more easily create and present content, to more easily form groups and collaborate, to more easily give tests and take surveys. This frees instructors to perform tasks that have been traditionally more difficult and time consuming – to relate to students on a personal basis, to offer coaching and moral support, to learn about and analyze a student’s inclinations and understandings.

These are specialist tasks, and as suggested ten years ago, it is likely that different educational professionals will fulfill different roles. Some will become testing and evaluation specialists, others will become coaches and advocates, still others will become content creators and presenters. As these disciplines evolve, tools will become more specialized, and practice will become more professional.

Savings

The first significant economic impact of online learning will be in the savings it offers over the traditional model.

In the wake of 9-11, and again with the more recent increase in the cost of fuel, many have begun to employ online learning – and other forms of computer conferencing – in order to save on transportation costs. As time goes by, parents and policy makers will begin to question the wisdom of employing fleets of buses and cars to move students to places where they sit and work on computers.

And although governments continue to build legacies in the form of brick-and-mortar schools, construction costs will decline over time, and the buildings that are constructed will, like the Living Arts Centre in Mississauga, serve the entire community.

Finally, as more and more educational resources are digitized, the enormous sums of money spent on things like text books and even wall maps will be reduced to a trickle. The need to maintain physical libraries will be obviated through the distribution of entire libraries of digital content on keychains or necklaces.

This is the advantage projects such as One Laptop per Child are attempting to realize. Despite critics who say that money in developing countries is better spent on books and teachers, placing such devoices into the hands of children is a worldwide diffusion of knowledge for a cost so low the savings are scarcely imaginable.

Finally, savings in staff costs per student will be realized when the traditional teacher-and-class model is abandoned. Much of the work of the traditional teacher – such as content presentation – will be done by computers, or by students for each other. As discussed above, the role of the teacher will be evolve into a set of specialized professions. But while we are spending more money on each educational professional, the cost of education per child will be reduced dramatically, offering us – at last – a chance to offer an education to all our citizens, for a lifetime.

The largest savings will be realized by students (with the result that these will be the slowest to realize, since students to not have the economic or political means to hasten the onset of these efficiencies). The cost of learning texts will diminish to near zero. Transportation costs will be eliminated. Opportunity cost – such as the four years of work and experience foregone in order to attend school – will be limited. Students will be able to begin working and earning early in their educational career, resulting in a longer period of productivity, and more wealth, opportunities and choices later in life.

The Bottom Line

As I stated ten years ago, and as we see today, even though savings will not be as great as anticipated, it will be necessary for institutions to offer their courses online - and sooner, rather than later - because the costs of not doing so are too great.

Distance learning institutions, such as Athabasca University and the University of Phoenix, are beginning to cut into traditional student bodies. It is becoming necessary for traditional institutions to accommodate more students with existing resources, which means that the pressures to take advantage of the potential savings offered by technology, which were not so great before, are now mounting.

Even more to the point, all educational institutions are facing their greatest competition from their students themselves. This is especially the case in nations where college and university degrees can be obtained only by a moneyed elite. A determined population of ambitious, talented and self-sufficient students can educate themselves, creating their own community, their own professions, their own future. We are seeing this unfold before our eyes, if we would only look.


The Future

Today, and for the last century, education has been practiced in segregated buildings by carefully regimented and standardized classes of students led and instructed by teachers working essentially alone.

Over the last ten years, this model has been seen in many quarters to be obsolete. We have seen the emergence of a new model, where education is practiced in the community as a whole, by individuals studying personal curricula at their own pace, guided and assisted by community facilitators, online instructors and experts around the world.

Though today we stand at the cusp of this new vision, the future will see institutions and traditional forms of education receding gradually, reluctantly, to a tide of self-directing and self-motivated learners. This will be the last generation in which education is the practice of authority, and the first where it becomes, as has always been intended by educators, an act of liberty.



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Comments

  1. Thank you stephen i'll put this link as main resource to my students
    thanks again

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  2. A must read for those of us who are trying to follow the trends in education! As I read through, I thought of so many educators in my network around the world who need to read this article: Thananga Ng'an'ga in Kenya, John Thole in South Africa, the directors of IT and academics at my school... the list goes on.
    I was very curious about your mention of the practices in the province of Quebec - what were your influences for that comment?
    Thanks for taking so much time and thought to share so freely.

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  3. Stephen, This is the most comprehensive report of the state of technology in education I could hope to find today. It's going to take me a while to read and digest it all. Will be a great learning experience for me to test against what I thought I already knew.

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  4. Thank you for a very thorough and intelligent synopsis of the learning technology landscape. One comment:

    The real hurdle I see with access is not in terms of bandwidth, but in terms of permission- Many workplaces intranets block access to websites that could be beneficial for learning. Sits like LinkedIn, Twitter, and Ning are blurring the lines between work and play, learning and entertainment.

    ReplyDelete
  5. Thanks for sharing the information. I think that the result of any online tutoring and thus the satisfaction of students largely depends upon the applied teaching strategy and student’s own initiatives. Initial hurdles can be handled easily by using latest teaching software and technology. Recently, I have been at Http://tutorskingdom.com/ , where I realized the ‘real’ difference between regular classes and online learning.

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  6. You definitely get my vote! Thanks for synthesizing all of this information for us. I really appreciate you pulling this together and offering us the forecast for the next 10 years.

    We at www.NIXTY.com have been reading and listening to you for years. Thanks for helping us better understand how we can create a better future for all of us. I particularly appreciate the above sections on educational degrees and open accreditation. Brilliant!

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  7. Thanks for the information. I tried Online Tutoring with http://www.tutorvista.com. It went really well for me. They gave me lot of freedom to choose my timings and tutors for the sessions.

    But on the other hand there are some disadvantages of online tutoring too. You should have a computer with high speed internet. You wont feel that the tutor is around you......
    Hope in coming days few of those problem will be solved.

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  8. Epic. I'll try to blog my initial responses sometime today, there is a lot to digest here. This comes at a very welcome time for me, as I've been struggling with a lot of the concepts you take on so directly...

    ReplyDelete
  9. A fascinating read that's going to need a couple of re-reads.

    You cited Starr (2003), mentioning that "[w]hile technology changes rapidly, people do not." However, Westwell and Sharples are bringing forward evidence to the contrary (http://www.futuremind.ox.ac.uk/research/impact-of-interruptions.html). Do you feel that this and similar research are strong enough to alter your view on the place of technology in education?

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  10. Kia ora Stephen

    Thank you for the read.

    It took me more than half an hour to scan through this, but it's given me hours of ideas to think about. I think you are right on track in just about every aspect - you have confirmed a lot of my best and worst suspicions about the state of elearning.

    Your post will be one of those that will be around for a long time, I am sure. It will be referred to many times over the next (few) decade(s).

    Ka kite
    from Middle-earth

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  11. What can one say to an article that is so close to what is today - WOW! Excellent forecasting/ prophesying.

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  12. I almost think an entire course could be based off of the research you have presented in this one paper. Very nice. I haven't finished reading all of it, but it seems right on the mark. It also shows me how much I have to learn about technology...

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  13. Thank you so much for this paper. I'll be quoting it in a bid to keep my music department social network going ccmmusic.ning.com
    I think the main issue I still wrestle with, is the role of the teacher in motivating and managing a learner. In FE colleges it seems to be high on the to do list - simply helping each learner stay on track with their expressed goals, and that seems to go against the concept of the self-regulating, independent learner.

    ReplyDelete
  14. This took me quite some time to go through. But I compressed it and put it in a shape I can comprehend. Hopefully my summary is ok. Next, I will start debating...

    http://webpedagogy.wordpress.com/2008/12/15/compressing-steven-downes/

    ReplyDelete
  15. Hi Stephen,
    Nice overview. Hope some people take notice... :) I have written a summary of your piece on my weblog.

    http://hennistalk.blogspot.com/2008/12/downes-future-of-learning-summary.html

    ReplyDelete
  16. Rumors of an Apple tablet – essentially a large iPhone or iPod touch, may launch in September 2009. But is it just a bigger iPhone or a totally new package, I don't know!

    ReplyDelete
  17. Technology is definitely changing online learning. Online classrooms will become a thing of the norm in the future and I can imagine one studying a language such as Chinese from the UK with a person actually in China in a classroom.

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  18. Thanks Stephen, an inspiring read. Help me no end with a University paper.

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  19. It is interesting how this 2008 article correlates in 2011! Many of the aspects you’ve pointed out holds true today with greater capabilities such as with storage as we now are branching out with various reputable services utilizing cloud storage.

    Under your "Interaction and Online Conferencing" with tools easily accessible and easy to use such as Skype the virtual interaction of online learning is becoming more seamless and practical.

    I long and enjoyable read here!

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  20. I don't think you have written this in half an hour.

    ReplyDelete

  21. Have a helpful blog to read for us and sharing useful tips for students who loves to read online. Assignment Help Online. And keep continue to sharing helpful information for us.

    ReplyDelete
  22. OLTD 501

    What an amazing read. It was fascinating to see how accurately you were able to prognosticate the future of online learning. Can you look into the future of online learning to predict what will it look like in five years? Specifically, will the average student be able to maintain the technical skills needed to keep pace with the rapid change in delivery methods?

    Rod Miller

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  23. WOW!! So much valuable information, hard to fully process and appreciate it all in one sitting. However, I do appreciate the sharing of your views regarding the evolving world of technology and the ways in which we can embrace online teaching. As an elementary school teacher, I appreciate the segments on the curriculum changes that have been implemented in some areas/provinces, but the great need to update and embrace the change to design learning for the 'real world'. The thought of learning facilities emerging in traditional working environments where the young people of today can become more prepared and equipped for the future. Curriculum does need to teach the basics but to be able to make it more connectable to their future is the key, and can hopefully keep the 'teenage' population better engaged to the learning opportunities. I love where this is going, and think the potential for students of all ages is incredible. I look forward to being part of the future changes and developments in the land of online teaching/learning.

    Kathleena OLTD501

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  24. Wow!! I can't believe how much information you have provided. I am bewildered at the possibilities that online teaching and learning has for teachers and students alike. I like the shift you have mentioned of the trend to the informal style of online learning, where learners have the option to not be constrained by the classroom model...For students that can excel at setting their own curriculum and proceed at their own pace targets a huge market for learning opportunities that wouldn't be possible otherwise perhaps. I like the mention of the changes in the curriculum that some provinces are embracing as well as learning facilities branching out into traditional working environments where the students of today can be better prepared for their futures. Lot's to process here...I very much am looking forward to learning more about the evolving world of online learning and teaching!

    Kathleena OLTD501

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  25. Thanks to all of you from OLTD501 who have posted comments - I have read them but this week is really not a good week for me to be answering questions; I am way behind on other work I have promised people I would do.

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  26. This is a very interesting study and this is true, the fact is well realized in the Middle Eastern region and the trend of online education in UAE with outstanding success is a living proof.

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  27. Online learning is getting tremendous success in the region of the United Arab Emirates and the reason is core focus on online education in UAE added with the exceptional technological growth in the region.

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