WISEstarmap1 surge

CFP Special Issue On: SURGE, Physics Games, and the Role of Design

Submission Due Date
5/15/2017

Guest Editors
Douglas Clark, Vanderbilt University, Nashville, TN, USA

Introduction
The purpose of this special issue is to investigate the role of design in the efficacy of physics games in terms of what is learned, by whom, and how. Importantly, studies should move beyond basic media comparisons (e.g., game versus non-game) to instead focus on the role of design and specifics about players’ learning processes. Thus, invoking the terminology proposed by Richard Mayer (2011), the focus should be on value-added and cognitive consequences approaches rather than media comparison approaches. Note that a broad range of research methodologies including a full gamut of qualitative, ethnographic, and microgenetic methodologies are encouraged as well as quantitative and data-mining perspectives. Furthermore, the focal outcomes and design qualities analyzed can span the range of functional, emotional, transformational, and social value elements outlined by Almquist, Senior, and Bloch (2016).

Recommended Topics
Authors are invited to submit manuscripts that

 

  • Focus on the role of design beyond simple medium (i.e., move beyond simple of tests of whether physics games can support learning to instead focus on how the design of the game, learning environment, and social setting influence what is learned, by whom, and how).
  • Explore learning in games from the SURGE constellation of physics games and other physics games using qualitative, mixed, design-based research, quantitative, data-mining, or other methodologies.
  • Focus on formal, recreational, and/or informal learning settings.
  • Focus on any combination of player, student, teacher, designer, and/or any of other participants.
  • Answer specific questions such as:
    • How do specific approaches to integrating learning constructs from educational psychology (e.g., work examples, signaling, self-explanation) impact the efficacy of these approaches within digital physics games for learning?
    • How do elements of design impact the value experienced by players in terms of the elements of functional, emotional, transformational, and social value outlined by Almquist, Senior, and Bloch (2016)?
    • What is the role of the teacher in interaction with students and the design of a game in terms of learning outcomes?
    • How does game design interact with gender in terms of what is learned, by whom, and how?
    • How can designers balance learning goals and game-play goals to best support a diverse range of players and learners?
    • How do specific sets of design features interact with players’ learning processes and game-play goals?

Submission Procedure
Potential authors are encouraged to contact Douglas Clark (clark@vanderbilt.edu) to ask about the appropriateness of their topic.
Authors should submit their manuscripts to the submission system using the link at the bottom of the call (Please note authors will need to create a member profile in order to upload a manuscript.).
Manuscripts should be submitted in APA format.
They will typically be 5000-12000 words in length.
Full submission guidelines can be found at: http://www.igi-global.com/publish/contributor-resources/before-you-write/

 

surgeblckbg

All submissions and inquiries should be directed to the attention of:
Douglas Clark
Guest Editor
International Journal of Gaming and Computer-Mediated Simulations (IJGCMS)
Email: clark@vanderbilt.edu

Gamefuscation?

I am concerned that Gamefication obfuscates the real issue in learning:

Transfer.

Is there evidence that game-based learning leads to far transfer?

Without learning transfer, it doesn’t matter how a person learned–whether from a piece of software, watching an expert, rote memorization, or the back of cereal box. What is important is that learning occurred, and how we know that learning occurred.

This leads to issues of assessment and evaluation.

Transfer and Games: How do we assess this?

The typical response from gameficators is that assessment does not measure the complex learning from games. I have been there and said that.  But I have learned that is overly dismissive of assessment and utterly simplistic. As I investigated assessment and psychometrics, I have learned how simplistic were my statements. Games themselves are assessment tools, and I learned that by learning about assessment.

This Gameficator–(yes I am now going to 3rd person)–had to seek knowledge beyond his ludic and narratological powers. He had to learn the mysteries and great lore of psychometrics, instructional design, and educational psychology. It was through this journey into the dark arts, that he has been able to overcome some of the traps of Captain Obvious, and his insidious powers to sidetrack and obfuscate through jargonification,and worse–like taking credit for previously documented phenomena by imposing a new name. . . kind of like my renaming Canada to the now improved, muchmorebetter name: Candyland.

In reality, I had to learn the language and content domain of learning to be an effective instructional designer, just as children learn the language and content domains of science, literature, math, and civics.

What I have learned through my journey, is that if a learner cannot explain a concept, that this inability to explain and demonstrate may be an indicator that the learning from the game experience is not crystallized–that the learner does not have a conceptual understanding that can be explained or expressed by that learner.

Do games deliver this?

Does gamefied learning deliver this?

Gameficators need to address this if this is to be more than a captivating trend.

I am fearful that the good that comes from this trend will not matter if we are only creating  jargonification (even if it is more accessible). It is not enough to redescribe an established instructional design technique if we cannot demonstrate its effectiveness.  We should be asking how learning in game-like contexts enhances learning and how to measure that.
Measurement and testing are important because well-designed tests and measures can deliver an assessment of crystallized knowledge–does the learner have a chunked conceptual understanding of a concept, such as “resistance”, “average”, “setting”?

Sure, students may have a gist understanding of a concept. The teacher may even see this qualitatively, but the student cannot express it in a test. So is that comprehension? I think not. The point of the test is an un-scaffolded demonstration of comprehension.

Maybe the game player has demonstrated the concept of “resistance” in a game by choosing a boat with less resistance to go faster in the game space– but this is not evidence that they understand the term conceptually. This example from a game may be an important aspect of perceptual learning, that may lead to the eventual ability to explain (conceptual learning); but it is not evidence of comprehension of “resistance” as a concept.

So when we look at game based learning, we should be asking what it does best, not whether it is better. Games can become a type of assessment where contextual knowledge is demonstrated. But we need to go beyond perceptual knowledge–reacting correctly in context and across contexts–to conceptual knowledge: the ability to explain and demonstrate a concept.

My feeling is that one should be skeptical of Gameficators that pontificate without pointing to the traditions in educational research. If Gamefication advocates want to influence education and assessment, they should attempt to learn the history, and provide evidential differences from the established terms they seek  to replace.

A darker shadow is cast

Another concern I have is that  perhaps not all gameficators are created equal. Maybe some gameficators are not really advocatingfor the game elements that are really fundamental aspects of games? Maybe there are people with no ludic-narratological powers donning the cape of gamefication! I must ask, is this leaderboard what makes for “gameness”? Or does a completion task-bar make for gamey experience?

Does this leaderboard for shoe preference tell us anything but shoe preference? Where is the game?

Are there some hidden game mechanics that I am failing to apprehend?

Is this just villainy?

Here are a couple of ideas that echo my own concerns:

“My concern is that Gamification is like advergaming. It obscures things and makes organizations think they are creating real games.”

” is Gamification actually using the principles of gameplay or is it simply borrowing tiny traits from games and actually utilizing age-old industrial psychology?”

It seems to me, that:

  • some of the elements of gamefication rely heavily on aspects of games that are not new, just rebranded.
  • some of the elements of gamefication aren’t really “gamey”.

What I like about games is that games can provide multimodal experiences, and provide context and prior knowledge without the interference of years of practice-this is new. Games accelerate learning by reducing the some of the gatekeeping issues. Now a person without the strength, dexterity and madness can share in some of the experience of riding skateboard off a ramp.  The benefit of games may be in the increased richness of a virtual interactive experience,  and provide the immediate task competencies without the time required to become competent. Games provide a protocol, expedite, and scalffold players toward a fidelity of conceptual experience.

For example, in RIDE, the player is immediately able to do tricks that require many years of practice because the game exaggerates the fidelity of experience.   This cuts the time it might take to develop conceptual knowledge but reducing the the necessity of coordination, balance, dexterity and insanity to ride a skateboard up a ramp and do a trick in the air and then land unscathed.

Gameficators might embrace this notion.

Games can enhance learning in a classroom, and enhance what is already called experiential learning.

My point:

words, terms, concepts, and domain praxis matter.

Additionally, we seem to be missing the BIG IDEA:

  • that the way we structure problems is likely predictive of a successful solutionHerb Simon expressed the idea in his book The Sciences of the Artificial this way:

“solving a problem simply means representing it so as to make the solution transparent.” (1981: p. 153)

Games can help structure problems.

But do they help learners understand how to structure a problem. Do they deliver conceptualized knowledge? Common vocabulary indicative of a content domain?

The issue is really about What Games are Good at Doing, not whether they are better than some other traditional form of instruction.

Do they help us learn how to learn? Do they lead to crystallized conceptual knowledge that is found in the use of common vocabulary? In physics class, when we mention “resistance”, students should offer more than

“Resistance is futile”

or, a correct but non-applicable answer such as “an unwillingness to comply”.

The key is that the student can express the expected knowledge of the content domain in relation to the word. This is often what we test for. So how do games lead to this outcome?

I am not hear to give gameficators a hard time–I have a gamefication badge (self-created)–but I would like to know that when my learning is gamefied that the gameficator had some knowledge from the last century of instructional design and learning research, just as I want my physics student to know that resistance as an operationalized concept in science, not a popular cultural saying from the BORG.

The concerns expressed here are applicable in most learning contexts. But if we are going to advocate the use games, then perhaps we should look at how good games are effective, as well as how good lessons are structured. Perhaps more importantly,

  • we may need to examine our prevalent misunderstandings about learning assessment;
  • perhaps explore the big ideas and lessons that come from years educational psychology research, rather than just renaming and creating new platform without realizing or acknowledging, that current ideas in gamefication stand on the established shoulders of giants from a century of educational research.

Jargonification is a big concern. So lets make our words matter and also look back as we look forward. Games are potentially powerful tools for learning, but not all may be effective in every purpose or context. What does the research say?

I am hopeful gamefication delivers a closer look at how game-like instructional design may enhance successful learning.

I don’t think anyone would disagree — fostering creativity should be a goal of classroom learning.

However, the terms creativity and innovation are often misused. When used they typically imply that REAL learning cannot be measured. Fortunately, we know A LOT about learning and how it happens now. It is measurable and we can design learning environments that promote it. It is the same with creativity as with intelligence–we can promote growth in creativity and intelligence through creative approaches to pedagogy and assessment. Because data-driven instruction does not kill creativity, it should promote it.

One of the ways we might look at creativity and innovation is through the much maligned tradition of intelligence testing as described in the Wikipedia:

Fluid intelligence or fluid reasoning is the capacity to think logically and solve problems in novel situations, independent of acquired knowledge. It is the ability to analyze novel problems, identify patterns and relationships that underpin these problems and the extrapolation of these using logic. It is necessary for all logical problem solving, especially scientific, mathematical and technical problem solving. Fluid reasoning includes inductive reasoning and deductive reasoning, and is predictive of creativity and innovation.

Crystallized intelligence is indicated by a person’s depth and breadth of general knowledge, vocabulary, and the ability to reason using words and numbers. It is the product of educational and cultural experience in interaction with fluid intelligence and also predicts creativity and innovation.

The Myth of Opposites

Creativity and intelligence are not opposites. It takes both for innovation.

What we often lack are creative ways of measuring learning growth in assessments. When we choose to measure growth in summative evaluations and worksheets over and over , we nurture boredom and kill creativity.

To foster creativity, we need to adopt and implement pedagogy and curriculum that promotes creative problems solving, and also provides criteria that can measure creative problem solving.

What is needed are ways to help students learn content in creative ways through the use of creative assessments.

We often confuse the idea of  learning creatively with trial and error and play, free of any kind of assessment–that somehow the Mona Lisa was created through just free play and doodling. That somehow assessment kills creativity.  Assessment provide learning goals.

Without learning criteria, students are left to make sense of the problem put before them with questions like “what do I do now?” (ad infinitum).

The role of the educator is to design problems so that the solution becomes transparent. This is done through providing information about process, outcome, and quality criteria . . . assessment, is how it is to be judged. For example, “for your next assignment, I want a boat that is beautiful and  that is really fast. Here are some examples of boats that are really fast.  Look at the hull, the materials they are made with, etc. and design me a boat that goes very fast and tell me why it goes fast. Tell me why it is beautiful.” Now use the terms from the criteria. What is beautiful? Are you going to define it? How about fast? Fast compared to what? These open-ended, interest-driven, free play assignments might be motivating, but they lead to quick frustration and lots of “what do I do now?”

But play and self-interest arte not the problem here. The problem is the way we are approaching assessment.

Although play is described as a range of voluntary, intrinsically motivated activities normally associated with recreational pleasure and enjoyment; Pleasure and enjoyment still come from judgements about one’s work–just like assessment–whether finger painting or creating a differential equation. The key feature here is that play seems to involve self-evaluation and discovery of key concepts and patterns. Assessments can be constructed to scaffold and extend this, and this same process can be structured in classrooms through assessment criteria.

Every kind of creative play activity has evaluation and self-judgement: the individual is making judgements about pleasure, and often why it is pleasurable. This is often because they want to replicate this pleasure in the future, and oddly enough, learning is pleasurable. So when we teach a pleasurable activity, the learning may be pleasurable. This means chunking the learning and concepts into larger meaning units such as complex terms and concepts, which represent ideas, patterns, objects, and qualities. Thus, crystallized intelligence can be constructed through play as long as the play experience is linked and connected to help the learner to define and comprehend the terms (assessment criteria). So when the learner talks about their boat, perhaps they should be asked to sketch it first, and then use specific terms to explain their design:

Bow is the frontmost part of the hull

Stern is the rear-most part of the hull

Port is the left side of the boat when facing the Bow

Starboard is the right side of the boat when facing the Bow

Waterline is an imaginary line circumscribing the hull that matches the surface of the water when the hull is not moving.

Midships is the midpoint of the LWL (see below). It is half-way from the forwardmost point on the waterline to the rear-most point on the waterline.

Baseline an imaginary reference line used to measure vertical distances from. It is usually located at the bottom of the hull

Along with the learning activity and targeted learning criteria and content, the student should be asked a guiding question to help structure their description.

So, how do these parts affect the performance of the whole?

Additionally, the learner should be adopting the language (criteria) from the rubric to build comprehension. Taking perception, experience, similarities and contrasts to understand Bow and Stern, or even Beauty.

Experiential Learning for Fluidity and Crystallization

What the tradition of intelligence offers is an insight as to how an educator might support students. What we know is that intelligence is not innate. It can change through learning opportunities. The goal of the teacher should be to provide experiential learning that extends Fluid Intelligence, through developing problem solving, and link this process to crystallized concepts in vocabulary terms that encapsulate complex process, ideas, and description.

The real technology in a 21st Century Classroom is in the presentation and collection of information. It is the art of designing assessment for data-driven decision making. The role of the teacher should be in grounding crystallized academic concepts in experiential learning with assessments the provide structure for creative problem solving. The teacher creates assessments where the learning is the assessment. The learner is scaffolded through the activity with guidance of assessment criteria.

A rubric, which provides criteria for quality and excellence can scaffold creativity innovation, and content learning simultaneously. A well-conceived assessment guides students to understand descriptions of quality and help students to understand crystallized concepts.

An example of a criteria-driven assessment looks like this:

Purpose & Plan Isometric Sketch Vocabulary Explanation
Level up Has identified event and hull design with reasoning for appropriateness. Has drawn a sketch where length, width, and height are represented by lines 120 degrees apart, with all measurements in the same scale. Understanding is clear from the use of five key terms from the word wall to describe how and why the boat hull design will be successful for the chosen event. Clear connection between the hull design, event, sketch, and important terms from word wall and next steps for building a prototype and testing.
Approaching Has chosen a hull that is appropriate for event but cannot connect the two. Has drawn Has drawn a sketch where length, width, and height are represented. Uses five key terms but struggles to demonstrate understanding of the terms in usage. Describes design elements, but cannot make the connection of how they work together.
Do it again Has chosen a hull design but it may not be appropriate for the event. Has drawn a sketch but it does not have length, width, and height represented. Does not use five terms from word wall. Struggles to make a clear connection between design conceptual design stage elements.

What is important about this rubric is that it guides the learner in understanding quality and assessment. It also familiarizes the learner with key crystallized concepts as part of the assessment descriptions. In order to be successful in this playful, experiential activity (boat building),  the learner must learn to comprehend and demonstrate knowledge of the vocabulary scattered throughout the rubric such as: isometric, reasoning, etc. This connection to complex terminology grounded with experience is what builds knowledge and competence. When an educator can coach a student connecting their experiential learning with the assessment criteria, they construct crystallized intelligence through grounding the concept in experiential learning, and potentially expand fluid intelligence through awareness of new patterns in form and structure.

Play is Learning, Learning is Measurable

Just because someone plays, or explores does not mean this learning is immeasurable. The truth is, research on creative breakthroughs demonstrate that authors of great innovation learned through years of dedicated practice and were often judged, assessed, and evaluated.  This feedback from their teachers led them to new understanding and new heights. Great innovators often developed crystallized concepts that resulted from experience in developing fluid intelligence. This can come from copying the genius of others by replicating their breakthroughs; it comes from repetition and making basic skills automatic, so that they could explore the larger patterns resulting from their actions. It was the result of repetition and exploration, where they could reason, experiment, and experience without thinking about the mechanics of their actions.  This meant learning the content and skills from the knowledge domain and developing some level of automaticity. What sets an innovator apart it seems, is tenacity and being playful in their work, and working hard at their play.

According to Thomas Edison:

During all those years of experimentation and research, I never once made a discovery. All my work was deductive, and the results I achieved were those of invention, pure and simple. I would construct a theory and work on its lines until I found it was untenable. Then it would be discarded at once and another theory evolved. This was the only possible way for me to work out the problem. … I speak without exaggeration when I say that I have constructed 3,000 different theories in connection with the electric light, each one of them reasonable and apparently likely to be true. Yet only in two cases did my experiments prove the truth of my theory. My chief difficulty was in constructing the carbon filament. . . . Every quarter of the globe was ransacked by my agents, and all sorts of the queerest materials used, until finally the shred of bamboo, now utilized by us, was settled upon.

On his years of research in developing the electric light bulb, as quoted in “Talks with Edison” by George Parsons Lathrop in Harpers magazine, Vol. 80 (February 1890), p. 425

So when we encourage kids to be creative, we must also understand the importance of all the content and practice necessary to creatively breakthrough. Edison was taught how to be methodical, critical, and observant. He understood the known patterns and made variations. It is important to know the known forms to know the importance of breaking forms. This may inv0lve copying someone else’s design or ideas. Thomas Edison also speaks to this when he said:

Everyone steals in commerce and industry. I have stolen a lot myself. But at least I know how to steal.

Edison stole ideas from others, (just as Watson and Crick were accused of doing). The point Watson seems to be making here is that he knew how to steal, meaning, he saw how the parts fit together. He may have taken ideas from a variety of places, but he had the knowledge, skill, and vision to put them together. This synthesis of ideas took awareness of the problem, the outcome, and how things might work. Lots and lots of experience and practice.

To attain this level of knowledge and experience, perhaps stealing ideas, or copying and imitation are not a bad idea for classroom learning? However copying someone else in school is viewed as cheating rather than a starting point. Perhaps instead, we can take the criteria of examples and design classroom problems in ways that allow discovery and the replication of prior findings (the basis of scientific laws). It is often said that imitation is the greatest form of flattery. Imitation is also one of the ways we learn. In the tradition of play research, mimesis is imitation–Aristotle held that it was “simulated representation”.

The Role of Play and Games

In close, my hope is that we not use the terms “creativity” and “innovation” as suitcase words to diminish such things as minimum standards. We need minimum standards.

But when we talk about teaching for creativity and innovation, where we need to start is the way that we gather data for assessment. Often assessments are unimaginative in themselves. They are applied in ways that distract from learning, because they have become the learning. One of the worst outcomes of this practice is that students believe that they are knowledgeable after passing a minimum standards test. This is the soft-bigotry of low expectation. Assessment should be adaptive, criteria driven, and modeled as a continuous improvement cycle.

This does not mean that we must  drill and kill kids in grinding mindless repetition. Kids will grind towards a larger goal where they are offered feedback on their progress. They do it in games.

Games are structured forms of play. They are criteria driven, and by their very nature, games assess, measure, and evaluate. But they are only as good as their assessment criteria.

These concepts should be embedded in creative active inquiry that will allow the student to embody their learning and memory. However, many of the creative, inquiry-based lessons I have observed tend to ignore the focus of academic language–the crystallized concepts. Such as, “what is fast?”, “what is beauty”,  “what is balance?”, or “what is conflict?” The focus seems to be on interacting with content rather than building and chunking the concepts with experience. When Plato describes the world of forms, and wants us to understand the essence of the chair, i.e., “what is chairness?” We may have to look at a lot of chairs to understand chairness.  Bu this is how we build conceptual knowledge, and should be considered when constructing curriculum and assessment. A guiding curricular question should be:

How does the experience inform the concepts in the lesson?

There is a way to use data-driven instruction in very creative lessons, just like the very unimaginative drill and kill approach. Teachers and assessment coordinators need to take the leap and learn to use data collection in creative ways in constructive assignments that promote experiential learning with crystallized academic concepts.

If you have kids make a diorama of a story, have them use the concepts that are part of the standards and testing: Plot, Character, Theme, Setting, ETC. Make them demonstrate and explain. If you want kids to learn the physics have them make a boat and connect the terms through discovery. Use their inductive learning and guide them to conceptual understanding.This can be done through the use of informative assessments, such as with rubrics and scales for assessment.  Evaluation and creativity are not contradictory or mutually exclusive. These seeming opposites are complementary, and can be achieved through embedding the crystallized, higher order concepts into meaningful work.

 

Teachers and teacher evaluation may be directly related to a construct from social psychology called Stereotype Threat and the relationship between motivation and teacher professional identities.

Stereotype Threat

Stereotype threat is the fear that we may confirm a negative stereotype about a group we belong to. From the wikipedia, we can read some of the history of the socio-cognitive construct:

In the early 1990s, Claude Steele, in collaboration with Joshua Aronson, performed the first experiments demonstrating that stereotype threat can undermine intellectual performance. . . Overall, findings suggest that stereotype threat may occur in any situation where an individual faces the potential of confirming a negative stereotype. For example, stereotype threat can negatively affect the performance of European Americans in athletic situations[11] as well as men who are being tested on their social sensitivity.[12] The experience of stereotype threat can shift depending on which group identity is salient to the situation. For example, Asian-American women are subject to a gender stereotype that expects them to be poor at mathematics, and a racial stereotype that expects them to do particularly well. Subjects from this group performed better on a math test when their racial identity was made salient; and worse when their gender identity was made salient.[13]

 

In another description of stereotype threat, Open Education describes that a recent study by researchers at the University of Colorado reveals that the issue of stereotype threat in the sciences is very real for young women. The study also reveals that educators can take some very simple steps to help reduce the impact of stereotype threat in the classroom.

Certain individuals appear to be more likely to experience stereotype threat than others. Individuals who are highly identified with a particular domain appear to be more vulnerable to experiencing stereotype threat. Therefore, students who are highly identified with doing well in school may, ironically, be more likely to underperform when under stereotype threat. A key feature of this phenomena was highlighted by Amanda Schaefer at Slate Magazine. In order to counter stereotype threat, individuals need to experience positive development and build confidence over the course of a semester. Schaefer explains that a slightly better performance on test one leads to greater motivation and thus leads some individuals to work harder. That work then transcends to understanding of the material that then leads to greater confidence and even further motivation.

Teachers and Stereotype Threat

A recent study by the MeLife Foundation identified that teacher morale is at an all time low. This was discussed recently by the New York Times and a blog at Education Week. It would seem that teachers may be in a no-win situation. They are scrutinized for performance, often evaluated by administrators and others who may not be qualified to evaluate teacher performance. When faced with an evaluation, teachers may face serious professional and personal consequences when they do not satisfy criteria in the evaluation rubric, as interpreted by the evaluators. This was very nicely described in an opinion piece at the NY Times, called, Confessions of a Bad Teacher. In this article, the author writes:

I was confused. Earlier last year, this same assistant principal observed me and instructed me to prioritize improving my “assertive voice” in the classroom. But about a month later, my principal observed me and told me to focus entirely on lesson planning, since she had no concerns about my classroom management. A few weeks earlier, she had written on my behalf for a citywide award for “classroom excellence.” Was I really a bad teacher?

In my three years with the city schools, I’ve seen a teacher with 10 years of experience become convinced, after just a few observations, that he was a terrible teacher. A few months later, he quit teaching altogether. I collaborated with another teacher who sought psychiatric care for insomnia after a particularly intense round of observations. I myself transferred to a new school after being rated “unsatisfactory.”

My belief is that if we are to avoid such things as stereotype threat in evaluating teachers, good administrators use the evaluation processes to support teachers and help them avoid those painful classroom moments — not to weed out the teachers who don’t produce good test scores or adhere to their pedagogical beliefs (Johnson, 2012).

The current culture of teacher quality and evaluation may be leading to issues in how teachers view their professional identities. They may be living two different professional lives–what they believe to work, and what they have to do to make the grade. This may be especially true with innovative teachers, who have to keep their heads down and teach in a way that works for them and leads to results. After I achieving, their  methods may be accepted. This comes from professional pride and ability. The question that must be asked is whether these innovators and creative teachers can document and demonstrate data-driven instruction.   This kind of instruction may not be applicable to generalized teacher quality assessments, because what the teacher is doing is not generally what is seen.  Is it possible an evaluator who is given a rubric is able or capable of making this evident after reviewing the teacher for  55 minutes they spent checking off cells on a rubric-driven evaluation?

 

The Jekyll and Hyde Effect

In the Jeckyll and Hyde Effect (Dubbels, 2009), teachers reported themselves in a situation where they had begun creating two different classrooms, two different sets of grade books, and two different teaching identities – culminating in the classroom they show, and the classroom they grow. These teachers had created a duality in professional identity, meaning that they had created different classrooms and identities to fit the expectations of the mandates, district mentors on learning walks, district trainings, and Professional Development Planning, so they could work “under the radar” and “not be hassled.”

This phenomena seems to accompany most trends of educational reform.   In an article by Lasky (2005), it was posited that we may be destroying the professional identities of teachers by attacking their styles and beliefs about teaching and learning, and perhaps most importantly, their willingness to be vulnerable to reach kids and connect. Teachers expressed that they felt tension as professional educators, and that their beliefs about student learning often contrasted the current beliefs related to the culture of accountability.

 

 

According to Lasky (2005), this is not uncommon. In this passage (pg. 905) Lasky quotes and describes a veteran teacher considering leaving the profession because of frustration with “ladder climbers”:

Now there are lot of people who think this is a job to go to because the vacations are good, they follow the doctrines, and a lot of good people are leaving. The major message I was receiving was that you could make a difference, and we’re in this together, and it’s up to all of us to make the world a better place, you know, find your niche and dig in. And it was almost your job to do the peace and love thing. But the message now is that there’s no one to take care of you, you’ve got to watch your back, which is sad.

This teacher’s identity and sense of agency were in tension with the changing political landscape of reform. She found that she was not able to trust these people who were not willing to take the ‘‘real risks’’ entailed in teaching. One such risk is expressing one’s vulnerability;  such as knowing and standing up for one’s beliefs, connecting with students and doing all that can be done to help students from failing.

This can lead to a real hindrance in organizational and institutional trust, especially when it comes time for professional development activities that might require learning.  Teachers reported that they had seen “outcomes based education, constructivism, and profiles of learning” come and go. They reported that they had already invested a huge amount of time into these curricular approaches earlier in their careers, and were not willing to invest as heavily now that they had curriculum that worked for them. One teacher spoke of, “ I used to spend my weekends, afternoons, and evenings calling parents and correcting all for a .6 (part-time) placement, and I decided that I was working harder than the students and parents and not getting paid for it.” This teacher’s feeling was repeated throughout interviews with experienced teachers who shared that they had found an approach that they liked and allowed them to have lives outside of the classroom.

Identity and motivation

According to Dubbels (2009), formal learning seems to necessitate trust and identity. For Deci and Ryan (2002) the focus comes from work on motivation of basic psychological needs, with a focus on Autonomy — possibly built from early work by White (1959), where organisms have an innate need to experience competence and agency, and experience joy and pleasure with the new behaviors when they assert competence over the environment . . . what White called effectance motivation. If the individual gets social reinforcement and improved status in a relationship or community, they will be more likely be motivated to engage, and sustain that engagement, (Dubbels, 2009).

In order for a teacher to remain engaged in their profession and care about what is happening, and to sustain engagement , “motivation must be internalized” the teacher needs to identify the value of the behavior with other values that are part of themselves (Dubbels, 2009).  This internalization is recognized by others, and can be rewarded, ignored, or punished by the professional community, the students and parents, and administration and mentors for professional development. The same factors that we ask teachers to take into account for their classroom students are also at play in developing teacher professional development. This process of change includes public acknowledgement and awareness of making personal and professional change, and this public behavior can expose the individual to being vulnerable to the perceptions and judgment of others.

 

 

 

 

 

 

 


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For immediate release Contact:  Chuck Weber

(847) 705-1802, cpweber@weberpr.com

News from American Pain Society’s 29th Annual Scientific Conference

Video Games and Virtual Reality Experiences Prove Helpful as Pain Relievers in Children and Adults

BALTIMORE, MD, May 6, 2010 – When children and adults with acute and chronic pain become immersed in video game action, they receive some analgesic benefit, and pain researchers presenting at the American Pain Society’s (www.ampainsoc.org) annual scientific meeting here today reported that virtual reality is proving to be effective in reducing anxiety and acute pain caused by painful medical procedures and could be useful for treating chronic pain.

“Virtual reality produces a modulating effect that is endogenous, so the analgesic influence is not simply a result of distraction but may also impact how the brain responds to painful stimuli,” said Jeffrey I. Gold, Ph.D., associate professor of anesthesiology and pediatrics, Keck School of Medicine, University of Southern California and director of the Pediatric Pain Management Clinic at Children’s Hospital of Los Angeles. “The focus is drawn to the game not the pain or the medical procedure, while the virtual reality experience engages visual and other senses.”

While moderating a symposium entitled “Virtual Reality and Pain Management,” Dr. Gold noted that the exact mechanistic/neurobiological basis responsible for the VR analgesic effect of video games is unknown, but a likely explanation is the immersive, attention-grabbing, multi-sensory and gaming nature of VR.  These aspects of VR may produce an endogenous modulatory effect, which involves a network of higher cortical (e.g., anterior cingulate cortex) and subcortical (e.g., the amygdale, hypothalamus) regions known to be associated with attention, distraction and emotion.  Studies measuring the benefit of virtual reality pain management, therefore, have employed experimental pain stimuli, such as thermal pain and cold pressure tests, to turn pain responses on and off as subjects participate in virtual reality experiences.

“In my current NIH-funded study, I am using functional magnetic resonance imaging (fMRI) to measure the effects of VR on experimental pain,” Dr. Gold explained.  “The objective is to measure the cortical regions of interest involved in VR, while exposing the participant to video racing games with and without experimental pain stimuli.”

Lynnda M. Dahlquist, Ph.D., a clinical child psychologist and professor of psychology at the University of Maryland, Baltimore County, reviewed her most recent laboratory research studies

examining the use of virtual reality and other computer/videogame technologies to provide distraction-based acute pain management.

The use of video games and virtual reality distraction (VRD) technology for procedural pain management in both pre-schoolers and elementary to middle school children, reported Dr. Dahlquist, yielded promising results in increasing pain tolerance “with potentially significant future clinical applications for more effective pain reduction techniques for youth with chronic and acute pain.  However, more research is needed to know for certain if there is real world VRD application in such pain-generating procedures as cleansing wounds, cancer treatment, immunization, injections and burn care.”

Children interacting with a virtual environment by watching video games demonstrated a small pain tolerance improvement during exposure to ice cold water stimulation, according to Dr. Dahlquist, but she recorded significantly greater pain tolerance for kids wearing specially-equipped video helmets when they actually interacted with the virtual environment.

“Our aim is to know what about VRD makes it effective in pain tolerance lab studies with children and what are the best ways to use it for optimum results,” explained Dr. Dahlquist, noting that any distraction is better than none at all in pain minimization.  “Is it just the amazing graphics in the video games or is it because youngsters are truly more distracted through their direct interaction with the virtual environment?”

VRD’s impact on pain tolerance levels varied by children’s ages, indicating that age may influence how effective video game interaction will be.  “We must better understand at what ages VRD provides the greatest benefit in moderating acute pain and at what age, if any, that it can be too much or be limiting.”

In one study using video helmets for virtual environment interactivity, the special equipment had little positive impact with children ages six to ten, but for those over ten years of age, “there was a much longer tolerance of the pain of the cold water exposure, leading us to further study to determine what aspect or aspects of cognitive development and neurological function account for this difference among youth.

“Having dealt clinically for more than 15 years with children with acute and chronic illness,” Dr. Dahlquist summed up, “my genuine hope is that virtual reality activity can alleviate the anxiety of approaching pain and the pain experience itself.”

About the American Pain Society

Based in Glenview, Ill., the American Pain Society (APS) is a multidisciplinary community that brings together a diverse group of scientists, clinicians and other professionals to increase the knowledge of pain and transform public policy and clinical practice to reduce pain-related suffering.  APS was founded in 1978 with 510 charter members.  From the outset, the group was conceived as a multidisciplinary organization.  APS has enjoyed solid growth since its early days and today has approximately 3,200 members.  The Board of Directors includes physicians, nurses, psychologists, basic scientists, pharmacists, policy analysts and more.

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Technology and Literacy

Current and Emerging Practices with Student 2.0 and Beyond

David G. O’Brien Brock Dubbels

as pdf

From Literacy Instruction for Adolescents: Research-Based Practice.
Edited by Karen D. Wood and William E. Blanton.
Copyright 2009 by The Guilford Press.
All rights reserved.

Guiding Questions

  1. What technology tools and Web 2.0 applications are important for literacy learning
  2. What are the best practices involving technology and literacies
  3. How can instruction in the classroom and curriculum be enhanced by using new and  evolving technologies that support digital literacy practices?

This chapter provides an overview of evolving research and theoretical frameworks on technologies and literacy, particularly digital technologies, with implications for adolescents’ literacy engagement. We suggest future directions for engaging students with technology and provide resources that support sound practices.

Evolving Research on Digital Technologies:
From Frameworks to Best Practice

When Kamil, Intrator, and Kim (2000) tackled a synthesis of research on technologies and literacy, they termed the task a conundrum. Given the rapidly evolving landscape of various technologies, that review, now dated (as this chapter soon will be), is still insightful both in reviewing a diversity of topics and the evolving importance of each. For example, at the turn of the decade, these researchers gave us historical footing in matters such as how computers and software may be used to improve reading and writing (Kamil, 1982), and to motivate learners (Hague & Mason, 1986). They noted the rising significance  of hypertext and hypermedia, and foreshadowed the explosion of interest in the intersection of traditional literacies and digital media, which, at the turn of the decade, comprised a new program of inquiry (Reinking, McKenna, Labbo, & Kieffer, 1998). Finally, they also highlighted the social and collaborative importance of students working on stand-alone computers or in collaborative network environments, cited the paucity of research overall
on technologies and literacy, and expressed optimism about the future of computers as instructional tools.

In the same volume that featured the synthesis by as Kamil, Intrator, and Kim, Leu (2000) used the phrase “literacy as technological deixis” (p. 745) to refer to the constantly changing nature of literacy due to rapidly morphing technologies. Leu’s characterization is crucial, because he posits that these literacies are moving targets, evolving too rapidly to be adequately studied. If best practices rest on a solid research foundation, then, in the case of technologies and literacy we haven’t even begun to know what best practices are. Nevertheless, even in the midst of a shallow bed of “empirical” studies—that is, studies of specific effects, over time, with statistical power, or studies of carefully described and documented, contextualized practices—compelling frameworks have emerged, with implications for how technologies enable new literacy practices. Best practices, if based on solid frameworks rather than a carefully focused research program, can be extrapolated from the frameworks and be the basis for sound instruction and curriculum planning. In this chapter we bridge some of these frameworks with instructional practice.

The relatively brief evolution of technologies and literacy has led us from computers and software as self-contained instructional platforms to a networked virtual world that computers enable. In the past 10 years or so, we have moved from viewing the Web as primarily a source of information and as a sort of dynamic hypertext with increasingly sophisticated search engines, to Web 2.0. Albeit a fuzzy term that has accrued definitions ranging from simply a new attitude about the old Web to a host of perspectives about a completely new Web, Web 2.0 presents exciting possibilities for enhancing instruction and learning. This new Web is an open environment with virtual applications; it is more dependent on people than on hardware; it more participatory than a one-sided flow of information (e.g., blogging, wikis, social networks); it is more responsive to our needs (e.g., mapping a route to a previously unknown destination). Perhaps most important, Web 2.0 is more open to sharing of ideas, media, and even computer code (Miller, 2005). The presence of Web 2.0 is about the World Wide Web (WWW) as a platform for production. Software that users would normally purchase and install from a disk or download is now hosted on the Internet. In a sense, Web 2.0 affords anyone access to the largest stage yet conceived. Educationally, it has the potential to diminish the broadcast mode of information transmission that has reduced individual interests and engagement. Instead, learners can now have at their disposal studio-quality tools that enhance production, appreciation, recognition, and performance, and above all, provide access to a worldwide audience.

Whereas research on computers and reading and writing has remained sparse, research on the myriad literacy practices involved in the Web 2.0 phenomenon is sparse but growing rapidly and is informed by many theoretical frames and fields, most of which overlap—for example, multiliteracies (Cope & Kalantzis, 2000; New London Group, 1996), new literacies and new literacy studies (Coiro, Knobel, Lankshear, & Leu, 2008; Kist, 2005; Knobel & Lankshear, 2007), media studies and new media studies (Hobbs, 2007; Kress, 2003), and critical media literacy and popular culture (Alvermann, Moon, & Hagood, 1999; Beach & O’Brien, 2008), to name a few.

Each of these frameworks has its own dynamics for describing and studying literacy practices, and each is inextricably intertwined with other frameworks. In the rapidly emerging research base, most of the designs are highly contextualized and theoretically tantalizing, but few studies are gauged to identify specific generalizable practices. For example, the studies designed around some of the aforementioned frameworks vary in terms of methodology (spanning the full range of human and cognitive sciences); they vary in terms of which data are collected, which settings (physical and virtual) are studied, and how learners are defined (e.g., as information processors, real selves, virtual selves, identity constructors). Hence, we can present here only a small sampling and complement the descriptions with some “best practice” exemplars, reminding readers of the caveat that “research-based” practices represent glimpses or snapshots taken along the rapidly moving field.

Reader and Writer 2.0: New Literates and New Literacies

What is important about technologies and literacies, especially when considering adolescents? What should we cull from the myriad evolving frameworks and perspectives to be able to present something useful for teachers and learners at this point in time given this rapidly changing texture. First, we want to present the adolescent learner, the person we call Student 2.0, starting with a vignette.

High school students in Eden Prairie, Minnesota, a suburb of Minneapolis,posted photos on Facebook revealing themselves partying with alcohol, in violation of school rules. Following an investigation by school officials, disciplinary action was taken against 13 students. Students who believed that that the administration went too far walked out of school in protest; some of the parents threatened legal action (Xiong & Relerford, 2008). Scholars of digitally mediated popular culture challenged theadults, parents and school officials alike, to evaluate more critically what had happened: High school students felt a compelling need to express themselves as digital authors and document a relatively common practice, partying with alcohol. And issuing sanctions assumes that the practice had not been widespread before it was expressed publicly on Facebook. Prosecution of the rule offenders would only serve to remind the documentors to be more careful. The new media scholars also reminded the youth as authors to consider more carefully their audience in the future. When you post on Facebook, you create for everyone, including school administrators and parents. Some students who were interviewed on television reacted to the disciplinary measures by saying that their rights to free speech were violated, that the school administrators had no jurisdiction, because the activities happened off of school grounds. Others went back to Facebook to start a new group page to defend their actions.

The Eden Prairie incident, albeit intriguing as a local interest piece about controversial legal and ethical issues regarding the Web 2.0, illustrates the trend of online content creation among youth. Rather than just use the Web to locate information, students are involved in content creation, that continues to grow, with 64% of online “teenagers” ages 12 to 17 engaging in at least one type of content creation, up from 57% of online teens in 2004 (Lenhart, Madden, Macgill, & Smith, 2007). In this national survey by the Pew Internet and American Life Project, 55% of online teens ages 12–17 say that they have
created a profile on a social networking site, such as Facebook or MySpace, and 47% of online teens claim to have uploaded photos where others can see them. Even though those students posting online photos sometimes restrict access, they expect feedback. Nearly 9 out of 10 teens who post photos online (89%) say that people comment on their postings at least some of the time. The number of teen bloggers nearly doubled from 2004 to 2006, with girls leading boys in blogging, and the younger, upcoming girls more likely to outblog The important issue for teachers is that these student authors are composing in a visual mode and reading comments printed in response; their peer readers (who are also most likely composers) are increasingly “reading” images and composing text responses or print messages in blogs and expecting critical responses. In short, students increasingly seem to engage in the
types of reading and writing they either don’t engage in, or don’t prefer, at school.

Experienced teachers can remember when stand-alone computers were going to revolutionize education; they can recall when the Internet was a cumbersome, text-based environment rather than an engaging graphical environment called the WWW. Those of us who, as literacy educators, have spent our careers studying how young people interact with printed texts are now faced with a new landscape that renders many of our theoretical models, instructional frameworks, and “best” practices based on these print models inadequate or even obsolete. Print text remains important but, as noted, expression is increasingly multimodal (Kress & Van Leeuwen, 2001). Reading and writing youth are increasingly likely to express ideas using different semiotic modes, including print, visual, and audio modes, and to create hybrid texts that defy typical associations between modes and what they traditionally represent.



When David worked with struggling readers in a high school Literacy Lab, the students, many of whom did not choose to read and write using print, wrote complex multimodal texts on a range of topics. They were very articulate about the affordances of various modes, and how those affordances influenced their choices in composition. For example, one group of students working a project exploring the impact of violence in the medion in adolescents, decided when to use images instead of print to communicate their ideas more effectively and passionately. They carefully planned how to juxtapose images and print to convey meaning. What would traditionally have been termed a “report” was instead a mul- timedia project, which they presented to parents and others at the school Open House evening. Brock has created a game studies unit, in which students study the qualities of their video games and create a technical document called a Walk- through using blogs, a wiki, video, and an animated slide show embedded into the blog. Students could read, compare, and evaluate other students’ work. Brock used an RSS feed (really simple syndication, a feed link to syndicated content) and had the blogs collected with bloglines, a way to both aggregate the student work and provide social networking through the WWW-based platforms and the comment sections for students.

From these two examples, you can see that the reading and composition enabled by these digital technologies is spatial rather than linear. Linearity has been replaced by reading and writing in virtual textual space—where a hot link lures the reader away from one page and on to the next, and from print to images and video, deeper and deeper into one’s unique textual experience, and writers can post, broadcast, and receive responses. Scholars are already starting to look at the new spatial and temporal dimensions of digital literacies, as well as the compatibilities and incompatibilities of these dimensions
with traditional spatial and temporal dimensions of schools (Leander, 2007). Researchers are also studying new literacy environments such as web pages using research paradigms derived from reading print on paper—for example, Coiro and Dobler’s (2007) work extending traditional comprehension theories to study online reading comprehension. Coiro and Dobler argue that although we know a lot about the reading strategies that skilled readers use to understand print in linear formats, we know little about the proficiencies needed to comprehend text in “electronic” environments. McEneaney (2006) cogently argues that the traditional theoretical frameworks, including so-called “interactive theories” (from cognitive or transactional perspectives) are too strongly based in a traditional notion of print to be useful. With what are the new literates interacting? McEneaney contends that the text can “act on” the environment: The text can create the reader, just as the reader through the dynamics of online environments, can create or change the text.

But the new literates also encounter new challenges. The new textual spatiality lacks the kinesthetic texture of books; readers lose their “places” and even the ability to feel the touch of the page as they do when they flip paper pages back, then reorient themselves on the page (Evans & Po, 2007). The feel of the text is replaced by the feel of a finger on a mouse or a key. The imaging that helps a reader maintain and access the previous page might be replaced by multiple mental images of more rapidly changing texts, or mental images replaced by actual images. What Evans and Po call the fluidity of the digital or electronic texts invites readers to alter the text more readily, more easily. We come full circle with a tension faced by readers of the digital texts. On the one hand, this text fluidity begs readers to alter texts, to pick alternative texts, and to mix and match texts; on the other hand, this new textuality, with texts unfolding at every mouse click, places the text itself more in the control of the reader. The text the reader creates, often unwittingly via a series of clicks or cuts and pastes, may address the reader/writer in unexpected ways. One of the most exciting prospects for educators is the unlimited range of texts, from traditional print modes to various hybrids, including print texts, visual texts, audio texts, and even various types of performance texts that students can now create, as they themselves are “created” or changed by those texts. The new literates can navigate through a collage of print, images, videos, and sounds, choosing and juxtaposing modalities, and bending old spatial and temporal constraints to communicate to peers and to others throughout the world.

Beach and O’Brien (2008), in drawing from both the philosophy of mind and neuroscience (e.g., Clark, 2003; Restak, 2003) propose that the students of the “digital generation” have more digitally adept brains; they read and write differently than youth from even 10 years ago, because their existence
in the mediasphere, the barrage of multimodal information they encounter daily, the constant availability of multiple tech tools at their fingertips, and the convergence enabling immediate use and production of media have changed the way they process multimedially. Prensky (2001) has posited a similar scenario. The Beach and O’Brien proposal (2008), in response to a Kaiser Family Foundation study (Foehr, 2006) of young people ages 8–18 and widely disseminated in the popular press, shows that even though the total amount of time devoted to media use remains about the same as 5 years ago (6.5
hours a day), the amount of time devoted to multitasking, using multiple forms of media concurrently (e.g., surfing the Web while listening to an MPEG-1 Audio Layer 3 (MP3) and checking text messages), is on the rise. Beach and O’Brien (2008) contend that multitasking is not accurate, because it implies the ability to engage in several activities at the same time or, more accurately,to switch attention rapidly among activities to gain efficiency in completing work. They instead characterized this often seamless juggling as multimediating (Lankshear & Knobel, 2003), because it more accurately involves not only multimodal attention shifts but also seems to include a new facility and flexibility in processing and producing multimodal texts. The missing piece in characterizing the new literates is that we continue to appraise them using outdated models of reading, text processing, and learning. Instead, we need
to think of them as more adept at using technologies to read, compose, and “socialize.”

Texts 2.0: From the Page to the Screen

Let us revisit the question posed in the last section—What is important about technologies and literacies?—and this time consider the evolving kinds of texts that youth are reading and writing. Again, we have to choose among compelling frameworks and perspectives. One salient issue surrounding the
evolving technologies is how the notion of “text” is changing. We are “moving from the page to the screen” (Kress, 2003). Kress notes that the screen privileges images. He also makes a case for the ambiguity of images and the necessity of print text for helping the viewer understand context and make a
directed interpretation of images. As educators, we have to concede that texts are increasingly multimodal (Jewitt & Kress, 2003). In multimodal reading and composing, ideas and concepts are represented with print texts, visual texts (photographs, video, animations), audio texts (music, audio narration, sound effects), and even dramatic or other artistic performances (drama, dance, spoken-word) (O’Brien & Scharber, 2008).

A second change is the increasing popularity of hybrid texts that are unlike most of the longer, connected discourse with which many of us grew up. For example, textoids are on the rise. These texts were originally defined as specially created research texts that lacked the coherence and structure of naturally occurring texts from typical genres (Graesser, Millis, & Zwaan, 1997) or contrived instructional texts (Pearson, 2004). Ironically, these once- contrived texts are ubiquitous in online environments. The term textoids now refers to fleeting texts that are transported from one place to another and are constantly changing (e.g., Wikipedia entries, pasted into a student’s report and edited to fit into the new textual context); they are also textual bursts of information sent to cell phones as text messages. Short textoids or text bursts are displacing longer discourse as readers expect more choices in accessing information and entertainment faster in quick clicks. At the same time, the sheer number and range of genres of these textoids, the juxtaposition of textoids with other media, and the retention of the more traditional, longer discourse, makes reading in online text environments more challenging than reading in traditional print environments.

The typical ways of describing and distinguishing texts from one another, such as using text structure, no longer apply (McEneaney, 2006). Electronic texts defy such classification, because they may be short and contrived to produce a targeted burst to get attention (the textoids); they are not linear but
spatial (hypertexts, hypermedia). Single textoids or pages or articles are linear, but they exist in virtual space, with a multitude of other possible texts. In short, the texts have virtual structure that is much more dynamic than static structures assigned to single print texts.

Present Technology Tools and Web 2.0 Applications

As we noted, Web 2.0 tools are about production, and they are hosted on the Web to enable a range of activities. As the access to bandwidth increases, and computers are equipped with greater image/video processing capacity, these tools will become invaluable in engaging youth. Young people will use these tools not only to develop literacy and numeracy skills but also to continue to hone their technological skills in the production, communication networking, data mining, and problem solving that are increasingly valued in the global economy. In the past, many of the tools now available as Web-based tools were expensive, limited to single machines, and difficult to use. These same tools, such as word processing, multimedia production, and network communications tools are now free, shareable, collaborative, and perceived as both meaningful and enjoyable by young people. Moreover, the tools are
part of young people’s daily lives. In addition, the personal electronics that many young people carry in their pockets, backpacks, and purses are more powerful than the computers that inhabited labs not even 5 years ago. With the advent of new applications and relatively cheap storage on the Web, these portable devices neither perform the bulk of processing nor store the outputs of processing; they are access devices—Web portals, with small screens and keyboards or other ways to input data. For example if you want to work with pictures, you can access a portal such as Flickr to view and manage pictures; if you want to create a document of just about any stripe, you can go to Google Docs and make slide shows; engage in word processing; construct spreadsheets; and store, share, and collaborate with writing partners.

Teachers can use many of these tools to extend and to enhance the learning experience of their students. The tools present challenges in developing best practices because they are neither repositories of content nor self- contained curricula. Rather, they can be used by creative teachers who are
able to draw from existing content domains, themes, and conceptual frameworks as they work within the applications; the tools can provide supportive environments for producing content, sharing and collaborating around content, and hosting public displays of users’ productions. Hence, the tools are not useful without the context of a larger unit or lesson plan, and instructional and learning frameworks that support activities and literate practices enabled by the tools. Teachers must understand clearly their instructional and learning objectives and goals, and students must know how the tools can help them meet those goals. Otherwise, the tools, which students sometimesknow well and can use for entertainment, revert to users’ tools for pleasure and interests, easily circumventing instructional or learning practices desired by teachers. Next, we review some Web 2.0 tools that enable these practices, and describe the features of each, presenting examples of how we have used them with students.

MySpace

We start with the nemesis of most computer classrooms and labs. For example, Brock was observing another teacher’s students during a drafting class. The students were working in a lab with high-end three-dimensional drafting software. During downtime between instructions that were broadcast over the
public address system, students often checked their MySpace pages. Although the site was blocked in the district, many students easily overcame the obstacle by searching for a proxy server that granted them access. A proxy server is a website that has a name accepted by the firewall, so it is allowed—it is kind of like using a fake ID. Although students may not know how it works, they have learned how to do it. And no matter how savvy the information technology (IT) department, the almost infinite supply of new proxy servers and webpages, with directions targeting youth who want to jump the school restrictions, makes sites deemed objectionable by school districts difficult to block.

On the one hand, to the digital immigrants and the inhabitants of the Institution of Old Learning (O’Brien & Bauer, 2005), MySpace represents an uncontrolled virtual space that distracts students from work and enables socializing and forms of expression incompatible with the organization and temporal control of school. On the other hand, for digital natives, “assimilated” digital immigrants, and new literacies advocates, MySpace is a dynamic forum of multimodal expression. It is also a place where young people socialize with peers around the world, put pictures up, write in slang, stream music and video, and engage in instant messaging. They are able to blog, to embed flash animations—in short, to engage in almost limitless expression using a range of multimodal literacies. It is really an example of students expressing themselves in the same way they dress, decorate their rooms, or draw in their notebooks.

This does not mean that the space is benign. Although you can connect with friends and family, you can also get solicitations from unwanted characters. Most young people are aware of whom to talk to, and how they expect others to speak to them. Users know that others mask their true identities through the computer, which has led young people to be more savvy as well. The Kaiser Family Foundation Generation M report (Roberts, Rideout, & Foehr, 2005) notes that when kids come across inappropriate sites and solicitations, they move past them. For digital natives, experienced in social networking, these are just another distraction in the way of what they went to the site to do. MySpace sites can also be locked to persons other than those invited by the owner.

We don’t expect sites like MySpace to be imported into the school curriculum. However, in the spirit of being more assimilated into Generation M’s world, it makes sense for teachers to join MySpace, set up a page, and even let students know that you have done so. As teachers, we interact regularly with our students via MySpace. Through it, we are more in tune with their social worlds, their interests, and their creativity. You might also want to bridge media production in school with the sharing features of such social networking sites, so that students may use tools like MySpace as a way to share and to get feedback on their productions.

Facebook

You already know a bit about Facebook from the Eden Prairie vignette. It is a place where you can post your profile and surround yourself with friends, their activities (including photos of parties!) and favorite sites, and connect the dots to all of your websites. Brock has links to SlideShare, mogulus television station, Facebook social networking groups, and various blogs. Facebook also includes tons of little games, multiple ways you can communicate with others, and things you can share. Brock is a member of many groups, and when the mood catches him, he starts another group: How about people who have read this chapter and want to continue the discussion about literacies involved in applications for Student 2.0? It really is that easy, and he really did start that group.

In Facebook you can choose to keep up with friends you don’t see often, as well as friends and acquaintances with similar interests and affinities. You can take surveys of movies and compare them to your friends; you can see what kind of German or French philosopher you are. You can share music,
keep up to date with friends through instant messaging, and be alerted to activities of groups to which you belong. Facebook, like MySpace, is blocked in many school districts, although most of adolescents we know seem to prefer MySpace. As with MySpace, we encourage teachers to set up a Facebook account to see what it provides. Although it might be tricky if the site is officially blocked in school, we also encourage teachers to use it to network with both colleagues and students. One of the great revelations, if you are included as a “friend” to students classified as “struggling” in reading and writing, is the quality, the range of genres, and the passion with which these students compose and engage in reading others’ compositions on social networking sites. It is possible that these same students, who have negative perceptions about their abilities and avoid reading and writing in school, might invite teachers to read what they have written online.

YouTube

Unfortunately, YouTube is much maligned in schools, not just because of the content, but also because streaming media consume bandwidth. This is the most complete compendium of online searchable video ever. Like any compendium, including the billions of webpages outer there, there are some videos
that teachers may find either objectionable or a waste of time, just as there are thousands of interesting and informative videos. There are really many opportunities for using Web-based video in the classroom. Here are several ways that we have used it:

1. To show a video.
2. To host a video we have produced.
3. To engage in social networking.
4. To enhance engagement among students.
5. To provide content for a Web-based, TV-like network with Mogulus.    (now Livestream)

The real value of video is its impact due to availability of narrative, and the power of performing and presenting to the world—something that local and even national networks cannot do. YouTube not only hosts videos created by your students but also provides access to videos created by novices and professionals from all over the world. YouTube should be a part of classroom instruction designed to teach appropriate use of media and media savvy to young people. With YouTube you can embed video in your blog and your website, as well as upload your own creations—even from your cellular phone. We have observed that when students create for performance and presentation to an audience other than their teachers and immediate peers, they put forth much more effort and are much more creative and engaged, and the learning experience lasts long after the week-and-a-half extinction point of most test- driven curricula. Students can create, post, and share. In addition, teachers can create groups and utilize social networking to perform and to respond. The most powerful benefit is that this social networking and broadcasting function extends and deepens the possibility of participating in high-traffic media networks, where millions of people may view your work and send out links to invite their friends to see what you have done. With the right topic and a bit of luck, a cell phone with video capture and a good idea can start a person’s career in video media. This prospect can be motivating, and the idea that students have done something that everyone can see leads them to some real street “media cred.”

Flickr

This photo sharing website, web services suite, and online community platform was one of the earliest Web 2.0 applications. In addition to being a popular website for sharing personal photographs, the service is widely used by bloggers as a photo repository. Flickr’s popularity has been fueled by its innovative online community tools that allow photos to be tagged and browsed by folksonomic means, a social/collaborative way to create and manage tags for content, in contrast to traditional subject indexing, in which content is fit to subjects predetermined by experts (Vander Wal, 2007). In Flickr, metadata are generated by not only experts but also creators and consumers of the content. Folksonomies became popular on the Web around 2004, with social software applications such as social bookmarking or annotating photographs. Typically, folksonomies are Internet-based, although they are also used in other contexts. Folksonomic tagging is intended to make a body of information increasingly easy to search, discover, and navigate over time.

As folksonomies develop in Internet-mediated social environments, users can discover who created a given folksonomy tag, and see the other tags that this person created. In this way, a folksonomy user may discover the tag sets of another user who similarly interprets and tags content. The result is often an immediate and rewarding gain in the user’s capacity to find related content (a practice known as pivot browsing). Part of the appeal of folksonomy is its inherent subversiveness: Compared to the choice of the search tools that websites provide, folksonomies can be seen as a rejection of the search engine status quo in favor of tools that are created by the community. Obviously, in addition to being a place to share photos, Flickr is a great source of media form students’ multimedia productions.

Blogger

Brock has used this one, putting his class blog (www.5th-teacher. blogspot.com) up on the screen, with images, examples, links to other resources, related news events, goings on in the class, his teaching manifesto, and global descriptions of assignments, as well as breakdowns of daily work. He also embeds his slide shows in the blog, along with video. This provides a resource for students to use both in class and outside of class. Because students have learned the format, and how to use pictures and other media from the Web, they have become proficient at creating reflective work and high-quality
multimedia productions. Blogger gets a bad rap by some, but you can limit the audience of student blogs by closing them off from the world feature and selecting viewers by inviting specific people. This also allows the teacher to access the blog if there is questionable content for classroom blogs “gone rogue.”

SlideShare

This Web application is great for getting students to see the opportunities of creating active multimedia products. Brock’s students created slide shows in PowerPoint, using images, text, and animation and transition effects, then uploaded them to SlideShare. This allowed the class to create their own group (Washburn Introduction to Engineering Design [IED]) where they could see and comment on each others’ slides, as well as use the chat function. Students also use SlideCast, in which they enter and synchronize an MP3 with their presentation, so that both teachers and students can create music videos or even do voice-over narration for telling stories and performance (dramatic) readings. SlideShare also lets you one-click to Blogger, so that students may embed their slide show in their blog. A cool feature is the ability to link this into Facebook.

Google Suite

Google provides a nice suite of tools for educators and students. Often your students have computers with Internet access at home but lack productivity software, such as Microsoft Office, or free tools such as OpenOffice. Students can use the Google Suite to create word processing, slide shows, and spreadsheets. The impressive feature is that this suite is available online, so students with an Internet connection can work at home on the document they created at school. And as with other Web 2.0 applications, students may invite others to cowrite and produce documents here. This allows groups to work on the same paper, and it also tracks each person’s contributions as the document is created. We used Google Documents to collaborate on this chapter. In addition, Google Maps, Google Earth, and Google SketchUp, a three-dimensional modeling program, are other tools in the Google suite that deserve extra emphasis. Reading and writing practices are more engaging to students when tied to the creation of the places, people, and activities. Brock had students create scenes from the play A Raisin in the Sun using this tool. The class explored the role of place and lived space, and the way space influences how people feel, speak, and act. This high-tech diorama was reminiscent of the shoebox versions we sometimes made for fun or for school projects.

Zotero

Zotero, an easy-to-use yet powerful research tool, helps researchers gather, organize, and analyze sources (citations, full texts, webpages, images, andother objects), and share research results in a variety of ways. An extension of the popular open-source Web browser Firefox, Zotero includes the best parts
of older reference manager software (like EndNote)—the ability to store author, title, and publication fields, and to export that information as formatted references—and the best parts of modern software and Web applications (like iTunes and del.icio.us), such as the ability to interact, tag, and search in advanced ways. Zotero integrates tightly with online resources; it can sense when users are viewing a book, article, or other object on the Web, and—on many major research and library sites—find and automatically save the full reference information for the item in the correct fields. Since it lives in the
Web browser, it can effortlessly transmit information to, and receive information from, other Web services and applications; because it runs on one’s personal computer, it can also communicate with software running there (e.g., Microsoft Word). It can also be used offline (e.g., on a plane, in an archive without Wi-Fi).

Scribd

This document-sharing community and self-publishing platform enables anyone to publish easily, distribute, share, and discover documents of all kinds. You can submit, search for, and comment on e-books, presentations, essays, academic papers, newsletters, photo albums, school work, and sheet music. A powerful feature of this tool is that you can upload documents in many different formats, including Microsoft Word, Adobe Portable Document Format (PDF), plain text, hypertext markup language (HTML), PowerPoint, Excel, OpenOffice, Joint Photographic Experts Group (JPEG), and many other formats. Once your documents are uploaded, you can embed them in a blog, Facebook profile, or other external websites, with your fonts, images, and formatting fully intact. Each document hosted at Scribd has its own unique uniform resource locator (URL), and you have unlimited storage, so you can
upload as many documents as you like. Once these are up, they are also available for fast indexing by Google and other major search engines, so that your content can be found in simple searches. You can keep certain documents private or share with a limited number of friends, and you can automatically convert published content into PDF, Word, and plain text. What is engaging for young writers is that not only can they publish widely but they also can see how many people have viewed their documents by location. Through Google you find documents similar to your own, as well as connect with a community of writers working in the same content area, enabling feedback and dialogue about your documents yet allowing you to retain full copyright under Creative Commons licenses.

Other Web 2.0 Resources

Space limits preclude a more elaborate listing of the multitude of other Web 2.0 sites. We recommend that readers of this chapter peruse the following briefly annotated list of other sites promoting multimodal literacies:

• Digg. A community-based, popular news article website, where news  stories and websites are submitted by users, then promoted to the front page through a user-based ranking system.
• bubbl.us. An online brainstorming tool that students and teachers can use to create colorful mind maps online, share maps and collaborate with friends, embed mind maps in blogs or websites, e-mail and print maps, and  save maps as images.
• BigHugeLabs.com. A tool that makes using Flickr a lot more interesting  by capitalizing on the site’s existing functionality. Dozens of toys, games, and utilities allow you, for example, to create a magazine cover from a selected Flickr photo, create a motivational poster, and access huge amounts of user      data (FlickrDNA).
• Photoshop Express. An application providing two gigabytes of storage to which you can link in your blogs or websites. You can edit images on the fly without having to up/download them each time or move from computer to  computer, and you are just a login away from your library of photos.
• SoundJunction. A site where users can take music apart and find out  how it works, create music, find out how other people make and perform music, learn about musical instruments, and look at the backgrounds of different musical styles.
• del.icio.us. (pronounced like the word delicious). A social bookmarking Web service for storing and sharing data with more than 3 million users and 100 million bookmarked URLs.
• Ning. A site that enables the creation of one’s own social network, designed to compete with sites like MySpace and Facebook, by appealing to  users who want to create networks around specific interests, or who have limited technical skills.
• VoiceThread. A versatile online media album that can hold essentially any type of media (images, documents, and videos) and allow people to  make comments in five different ways—using voice (with a microphone or telephone), text, audio file, or video (with a webcam)—and share them with  anyone they wish.
• Many Eyes. A tool for the visual representation of data that makes sharing data creative and fun, while tuning students into the relation between information presentation and interpretation.
• Scratch. A designing tool with a language that makes it easy to create  interactive stories, animations, games, music, and art.

Classroom Vignettes of Practices with Technologies and Literacy

Junior High “Intervention” Class

We have studied our reading/writing intervention class in a suburban community of the Twin Cities for 3 years (O’Brien, Beach, & Scharber, 2007). The class uses a Literacy Lab setting with a reduced enrollment target of 15 students, previously assessed as struggling in reading, and mentored by two
teachers, both of whom hold K–12 reading licenses. The class meets once a day in a block scheduling format, with 93-minute class periods. The curriculum juxtaposes traditional engagement activities with “new literacies” activities. For example, on the side of more traditional interventions, students use
the Scholastic READ 180 program, read and discuss young adult novels as a group, and dramatize the texts and a range of activities to integrate reading and writing. They also engage in strategies instruction, such as the use of mind mapping and various activities designed specifically to help students achieve competence on state language arts standards and high-stakes assessments. On the new literacies side, using various technology tools, the students engage in writing activities, such as producing stories, comic books (using Comic Life), wikis (in Moodle) and poetry writing. They write journal responses to their reading and construct PowerPoint presentations about topics, such as their favorite video games or young adult novels, and share their poetry or story writing. They plan, design, and perform radio plays (using GarageBand for background tracks and sound effects). Recently, students completed placebased projects in which they used VoiceThread to publish photos of important places in their school, complete with audio or print commentaries. They publish their writing in the school district Moodle site. Some of the students also participate in afterschool computer gaming sessions. In the new literacies realm, the teachers include practices in which students engage to explore ideas, construct a classroom community, and develop agency in meeting personally relevant goals.

Media Class Rhythm and Flow Unit

This was the first unit that Brock created after transitioning from a language arts teacher to a media specialist. He found that the units he taught as a language arts teacher were still very applicable to the standards and benchmarks in media technologies when it came to teaching media or print texts, or the many opportunities that arise as a result of having access to computers. As a media specialist, Brock tried to link the media and technology activities to improvement in reading and writing. For example, he included Reading Friday, in which students had to create a music business persona/image, describe their style of music, and choose lyrics that they would perform and record into Garage Band. GarageBand is one option. Students could also use one of the Web-based products we have discussed. So the students took print texts—poems, paragraphs, dialogue, and lyrics they liked—and recorded themselves reading as a track on the music software. They also recorded outtakes, or descriptions of the experiences, and rated their oral interpretation performances. After students had shared their tracks with Brock, they began to practice putting a beat and music behind the tracks. This enabled a thorough interpretation and exploration of voice and oral expression. Students who had never really thought about the qualities of the voices in the narratives (e.g., the tone, theme, pitch, volume, emphasis in elongation and breaks) could better hear and understand dramatic pauses, tone and volume changes, diction and word choices, as well as format, organization, and punctuation. This activity began to make a difference in students’ understanding of these concepts. As students began exploring pauses work, changing and emphasizing words, assonance, and resonance in rhyme structures, they were really looking at oral reading and fluency, and reading in general, in a much deeper and more playful way. Students then took photos and made their CD covers, using image manipulation software; they made their own liner notes and wrote their own copy for advertising; they conceptualized a MySpace design (because they were not permitted access to MySpace) and created tours, clothing, and so on. It turned into a game about being in the music business. This unit, which had originally been intended as a week-long reward for the kids, so engaged students as they performed their lyrics and created their music careers that Brock extended it for 2 weeks.

What are “best practices” in these scenarios? First, students engage in activities, using technologies that support both the local curriculum and state standards. Rather than considering technologies and innovation as replacements for more traditional instructional and learning, the technologies provide
more effective ways to engage students. Second, best practices dictate that the technologies enhance teaching and learning by providing access to media and enabling students to use various modalities to explore and publish ideas. Third, although we can already see a future in which digital literacies replace traditional print literacies, for now, given the realities of standards, print-centric assessments, and, particularly the predominately print-based curricula, best practices explore ways to bridge print and digital literacies effectively. Fourth, the notion of best practices, which we typically associate with teaching or facilitating learning, should be extended to include practices related to supporting infrastructures and increasing funding for technologies that do enhance teaching and learning.

Future Directions and Best Practices for Engaging Students in Literacy with Technology

Clearly, the future will bring a wider range of more accessible digital tools. What started as the Web 2.0 phenomenon will continue at a rapid rate as the analog television bandwidth is purchased by Web Portals, such as Google, to provide faster access to more and more data from small personal communication devices—things that we used to call “phones.” As shown by current studies from the Pew Internet and American Life project, youth will continue to use more media and engage in more media multitasking or multimediating. As more young people have access to these tools, the digital divide will persist but not be as defined. As educators, we will slowly but surely start to redefine learners based on the experiences these young people have daily in the mediasphere, and the way their brains are changing as result. Similarly, we will start to redefine literacy more in line with the new literacies practices in which youth engage outside of school, and to think of better ways to connect out-of- school and in-school experiences with technologies and literacy.

Given the frameworks briefly described in this chapter for understanding technology-enabled or enhanced texts and new literacies practices, what are some possible practices that will not only produce more engaged and better readers and writers, as traditionally defined, but also facilitate practices
that improve intertextual, intermedial, and multimodal understanding? We briefly outline some of these realizing that practices, they are morphing as we write, and that new ones will have emerged even before this chapter is published. We offer these not so much as static examples but as ways of thinking about best practices in the milieu of new and emerging technologies, and new literacies and literates. We want fellow educators to think in novel ways about how these new technologies may improve literacy practices, not because of their technical features, but because they are engaging. Although it is over simplistic to state that technologies are worthwhile simply because they are motivating, we might cautiously state that technologies are engaging because they often incorporate aspects of play, are pleasurable, and are associated with leisure time outside of school. We also argue that good technology can guide and extend students’ knowledge of the world and their relationship to it, and that the software and appliances it inhabits are means for guidance, creativity, and production. Here are some recommended practices as we to end this decade and head into the next.

Engaging Readers and Writers

Young people should have access to curricula and learning opportunities in which reading and writing strategies instruction is not always the focus; rather the focus is to provide high-interest engaging activities that allow young people to accomplish goals using a range literacy tools and practices, many of them enabled by technology. Young people can become very strategic about what tools they use and how they use them to engage in practices that produce personally relevant outcomes. Learners need to be strategic, but they do not always benefit most from being taught strategies. And, as we noted, it is quite possible that the learners we are trying to engage are harder to engage because of their experiences in the mediashpere. In Brock’s teaching, texts aren’t necessarily print texts; rather, they are multimodal messages (Dubbels, 2008). For example, Brock has even used allegorical paintings and text as movement activities and multimodal analogues to decoding and propositional levels of comprehension.

Connecting with Out-of-School Literacies

As educators, we should make a more concerted effort to connect school instructional practices and curricula to out-of-school practices. Literate practices involved in activities such as instant messaging, creating and reading images, authoring webpages, and participating in social networks are ignored, devalued, or even feared in schools. In contrast, students engagement in strategies instruction, skills instruction, and reading textbooks and answering questions is common. Although these traditional activities and assessments are important, and more directly tied to valued outcomes, such as performance on high-stakes tests, they are increasingly disconnected from the new literacies skills, knowledge, and abilities that youth use the most, and they are simply not as engaging as many of the digital literacies practiced outside of school. The digital tools, and the practices they support, some of
which we present shortly, are not intended to turn youth completely away from traditional academic reading and learning; rather, they are intended to engage them in novel ways with important content and learning tasks. The goal, as we noted, is to engage students in these practices, to improve their
learning, and to connect the learning to personally relevant goals.

Taking Advantage of Multimodality

Traditional print materials, such as textbooks, have changed little over the last 150 years, and they have performed admirably as the staple of the curriculum. But given the range of teaching and learning tools enabled by new and emerging technologies, print materials alone are increasingly inadequate, not
to mention uninteresting, to young people. Students are increasingly able to use a range of tools to compose and to understand complex ideas, to convey beliefs and emotions, and to share their creations in print, visual, aural, and even tactile and kinesthetic forms. The most straightforward practice to capitalize on the multimodality of digital texts is simply to make the tools available (e.g., computers, digital cams and audio recorders, multimedia authoring tools, Web authoring tools, Web 2.0 tools) and provide practice in using them. A more involved approach is to think systematically of multimodal
options for existing tasks and assignments (e.g., a media inquiry project in place of a report; a blog in place of a term paper), and to provide for students a choice in the modalities and tools they use. David and his colleagues did just this in the Literacy Lab at Jeff High School (O’Brien, 2006; O’Brien, Springs, & Stith, 2001) when they reconstructed an entire literacy curriculum to take advantage of a multimedia lab they set up.

Examining Stances toward Technology

Ideally, to construct digitally enabled curricula, youth need educators who are either capable of using the technologies or open to learning them (often with support of students!) and connecting the technology tools to literacy practices. Taking new stances requires new attitudes and familiarity with the frameworks we have briefly overviewed (e.g., frameworks in which texts are multimodal representations rather than just print, and reading and writing are socially and culturally embedded practices that can be enabled with digital tools). Prensky’s (2001) characterization of digital natives (the students) and digital immigrants (teachers who did not grow up with the technologies that students use adeptly) is a useful, albeit forced, binary that speaks to stance. Digital immigrants need to be willing to jump into the fray and start to use the technologies that their students know. The practical side of this

immersion is that teachers who use the technologies can understand how these tools enable teaching and learning; the more affective dimension is that the actualizing digital immigrants see the value of the tools and feel good about their own competence in using them.

Resources

Further Reading

Beach, R. (2006). Teachingmedialiteracy.com: A resource guide to links and activities. New
York: Teachers College Press. Available online at teachingmedialiteracy.com.
Burn, A., & Durran, J. (2007). Media literacy in schools: Practice, production and progres-
sion. London: Paul Chapman.
Coiro, J., Knobel, M., Lankshear, C., & Leu, D. J. (Eds.). (2008). The handbook of research
in new literacies. New York: Erlbaum.
Kist, W. (2005). New literacies in action: Teaching and learning in multiple media. New
York: Teachers College Press.

Websites

—Editlib. The EdITLib Digital
Library is a repository of peer-reviewed and published articles and papers on the
latest research, developments, and applications related to all aspects of educa-
tional technology and e-learning.

—The Assembly on Computers in English is a long-standing
assembly of the National Council of Teachers of English and is a nonprofit orga-
nization of English language arts teachers and teacher-educators dedicated to
intelligent technology integration into the English language arts.

—IRA Focus on Technology: IRA
Programs and Resources is a link to resources of the International Reading
Association site, designed to help educators support students in the new litera-
cies of information and communication technologies, as well as to help teachers
who want to become more proficient in using the technologies. The resources
include publications, online resources, and meetings and events that support
the use of technologies and literacy.

References

Alvermann, D. E., Moon, J. S., & Hagood, M. C. (1999). Popular culture in the classroom: Teaching and researching critical media literacy. Newark, DE: International Reading Association.

Beach, R., & O’Brien, D. G. (2008). Teaching popular culture texts in the classroom. In J. Coiro, M. Knobel, C. Lankshear, & D. Leu (Eds.), Handbook of research on new literacies (pp. 775–804). New York: Erlbaum.

Clark, A. (2003). Natural born cyborgs? In J. Brockman (Ed.), The new humanists (pp. 70–77). New York: Barnes & Noble.

Coiro, J., & Dobler, E. (2007). Exploring the online reading comprehension strategies used by sixth-grade skilled readers to search for and locate information on the Internet. Reading Research Quarterly, 42(2), 214–257.

Coiro, J., Knobel, M., Lankshear, C., & Leu, D. J. (Eds.). (2008). The handbook of research on new literacies. New York: Lawrence Erlbaum.

Cope, B., & Kalantzis, M. (Eds.). (2000). Multiliteracies: Literacy learning and the design of social futures. London: Routledge.

Dubbels, B. R. (2008). Video games, reading and transmedial comprehension. In R. E. Ferdig (Ed.), Handbook of research on effective electronic gaming in education (pp. 251–276). Hershey, PA: IGI Global.

Evans, E., & Po, J. (2007). A break in the transaction: Examining students’ responses to digital texts. Computers and Composition, 24, 56–73.

Foehr, U. G. (2006). Media multitasking among American youth: Prevalence, predictors, and pairings. Menlo Park, CA: Henry J. Kaiser Family Foundation.

Graesser, A. C., Millis, K. K., & Zwaam, R. A. (1997). Discourse comprehension. Annual Review of Psychology, 48, 163–189.

Hague, S. A., & Mason, G. E. (1986). Using the computer’s readability measure to teach students to revise their writing. Journal of Reading, 30(1), 14–17.

Hobbs, R. (2007). Reading the media: Media literacy and high school English. New York: Teachers College Press.

Jewitt, C., & Kress, G. (Eds.). (2003). Multimodal literacy. New York: Peter Lang.

Kamil, M. L. (1982). Technology and reading: A review of research and instruction. In J. A. Niles & L. Harris (Eds.), New inquiries in reading research and instruction. Thirty-first yearbook of the National Reading Conference (pp. 251–260). Rochester, NY: National Reading Conference.

Kamil, M. L., Intrator, S., & Kim, H. S. (2000). Effects of other technologies on literacy and literacy learning. In P. M. M. Kamil, P. D. Pearson, & R. Barr (Eds.),
Handbook of reading research (Vol. 3, pp. 773–788). Mahwah, NJ: Erlbaum.

Kist, W. (2005). New literacies in action: Teaching and learning in multiple media. New York: Teachers College Press.

Knobel, M., & Lankshear, C. (Eds.). (2007). A new literacies sampler. New York: Peter Lang.

Kress, G. (2003). Literacy in the new media age. London, UK: Routledge.

Kress, G., & Van Leeuwen, T. (2001). Multimodal discourse: The modes and media of contemporary communication. London: Edward Arnold.

Lankshear, C., & Knobel, M. (2003). New literacies: Changing knowledge and classroom learning. Buckingham, UK: Open University Press.

Leander, K. M. (2007). “You won’t be needing your laptops today”: Wired bodies in the wireless classroom. In M. Knobel & C. Lankshear (Eds.), A new literacies sampler (pp. 25–48). New York: Peter Lang.

Lenhart, A., Madden, M., Macgill, A. R., & Smith, A. (2007). The use of social media— from blogging to online social networking to creation of all kinds of digital material—is central to many teenagers’ lives. Washington, DC: Pew Internet and American Life Project.

Leu, D. J. (2000). Literacy and technology: Deictic consequences for literacy education in an information age. In M. L. Kamil, P. Mosenthal, P. D. Pearson, & R.

Barr (Eds.), Handbook of reading research (Vol. III, pp. 743–788). Mahwah, NJ: Erlbaum.

McEneaney, J. E. (2006). Agent-based literacy theory. Reading Research Quarterly, 41(3), 352–371.

Miller, P. (2005). Web 2.0: Building the new library. Ariadne, 45.

New London Group. (1996). A pedagogy of multiliteracies: Designing social futures. Harvard Educational Review, 66(1), 60–92.

O’Brien, D., Beach, R., & Scharber, C. (2007). “Struggling” middle schoolers: Engagement and literate competence in a reading writing intervention class. Reading Psychology, 28(1), 51–73.

O’Brien, D., & Scharber, C. (2008). Digital literacies go to school: Potholes and possibilities. Journal of Adolescent & Adult Literacy, 52(1), 66–68.

O’Brien, D. G. (2006). “Struggling” adolescents’ engagement in multimediating: Countering the institutional construction of incompetence. In D. E. Alvermann,
K. A. Hinchman, D. W. Moore, S. F. Phelps, & D. R. Waff (Eds.), Reconceptualizing the literacies in adolescents’ lives (pp. 29–46). Mahwah, NJ: Erlbaum.

O’Brien, D. G., & Bauer, E. (2005). New literacies and the institution of old learning. Reading Research Quarterly, 40, 120–131.

O’Brien, D. G., Springs, R., & Stith, D. (2001). Engaging at-risk students: Literacy learning in a high school literacy lab. In E. B. Moje & D. G. O’Brien (Eds.), Constructions of literacy: Studies of teaching and learning in and out of secondary schools (pp. 105–123). Mahwah, NJ: Erlbaum.

Pearson, P. D. (2004). The reading wars. Educational Policy, 18(1), 216–252.

Prensky, M. (2001). Digital natives, digital immigrants. On the Horizon, 9(5). Accessed April 1, 2008, from www.marcprensky.com/writing/Prensky%20-%20digital%20 natives,%20digital%20immigrants%20-%20part1.pdf.

Reinking, D., McKenna, M., Labbo, L., & Kieffer, R. (Eds.). (1998). Handbook of literacy and technology: Transformations in a post-typographic world. Mahwah, NJ: Erlbaum.

Restak, R. (2003). The new brain: How the modern age is rewiring your mind. New York: Rodale.

Roberts, D. F., Foehr, U. G., & Rideout, V. J. (2005). Generation M: Media in the lives of 8–18 year-olds. Menlo Park, CA: Kaiser Family Foundation.

Vander Wal, T. (2007). Folksonomy Coinage and Definition. Retrieved October 26, 2007, from www.vanderwal.net/folksonomy.html.

Xiong, C., & Relerford, P. (2008, January 13). A minor walkout in Facebook flap. Minneapolis Star Tribune. Accessed October 24, 2008, at www.startribune.com/local/ west/13677002.html.

Daedalus-icarus-L

VIDEO GAMES, READING , AND TRANSMEDIAL COMPREHENSION.

Games represent a high interest accessible medium to build comprehension, and in using games we can continue to engage in topics that are complex, provocative and motivating, and not often found in texts designed to be simplified for the sake of decoding. Games will also help to get these students to reconnect with reading and learning, and create a basis for developing and using comprehension strategies. With this in mind, this knowledge and experience of theory can provide an opportunity for educators to bootstrap traditional print-based literacy and engage students in comprehension development.

Brock Dubbels

The University of Minnesota

The Center for Cognitive Sciences

305 Elliott Hall

Minneapolis, MN 55408

(612) 747-0346

(612) 626-7253

Dubbe003@umn.edu

Abstract: In this qualitative study, literacy practices of “struggling” seventh and eighth graders were recorded on videotape as they engaged in both traditional and new literacies practices in an after school video games club. These recordings were analyzed in the context of building comprehension skills with video games. The students struggled with reading and are characterized as unmotivated and disengaged by the school, which may be at the root of their inability to use comprehension strategies. Playing video games is viewed here as a literate practice, and was seen to be more engaging than traditional activities (such as reading school text, writing journals, etc.). The conclusion of this observation makes connections to current research in comprehension and provides a basis for teachers to use games to develop comprehension and learning.

Key Terms: situation, event indexing model, causal integration model, ludic, interaction, comprehension, knowledge act, decoding, agency, engagement, identity, self-monitoring, metacognition, transmedial, walk-through, level-up, button-mashing

This selected excerpt comes from:

Dubbels, B.R. (2008) Video games, reading, and transmedial comprehension. In R. E. Ferdig (Ed.),Reference. Information ScienceHandbook of research on effective electronic gaming in education.

Read more

Schools Get in the Game

Schools Get in the Game

Ok, it’s time to submit your school reports. Did everyone play Mario Kart at the weekend? Good. Let’s begin with group discussion, what is the games premise and objective?
This may sound a little strange but for one Minneapolis teacher video games have become learning tools for his class of sixth to eighth graders. Brock Dubbels of Seward Montessori in Minneapolis designed his ‘Video Games as Learning Tools’ class to span a three week period. Requiring children to create detailed multimedia presentations from video games played in groups. He explains that the children are not just learning from the games content but also gaining key skills from playing and studying the games. Dubbels, who has a background in cognitive psychology, goes on to say “It connects to their lives, research shows that children want to perform where they have competence.” Brock Dubbels will be spreading the word throughout the summer period with training seminars and online courses designed to show other teachers how his three week course works.
The children split up into groups and play video games. They will take notes whilst playing, with the goal being to explain how the game is played, how a player might win and how the game is designed. It is said to be a modern version of a book report. But is this new take on the rising popularity of video games a healthy and positive attitude? Or will it just teach children that they can just goof around playing video games and call it learning?

Read more

vgalt crawl

This course is an online introduction to Video Games as Learning Tools, a comprehensive course based upon five years of implementation and research. The course builds from three concepts:

  1. Deep Learning
  2. Games
  3. Motivation

The course offers innovative ways to learn and connect engaging instructional strategies, research, and resources for educators, instructional designers, game makers, and people with an interest in games and learning. The course is built from an instructional framework that lists five ways that games can be used for instruction (figure 1).

vgalt-games-instructional-framework

The course provides an overview of games, and how they can be used as:

  1. artifacts and texts for study and instruction
  2. as guidelines for designing instruction (to utilize game design concepts for classrooms, training, and professional development), as well as curriculum tools for content delivery.
  3. as a means for producing new media and new narratives such as machinima, modding (modifying of the shelf games into new games.
  4. as models, representation, simulations, and the study of virtual worlds
  5. and as a portal to developing 3rSTEM, an approach for teaching reading, writing, SCIENCE, TECHNOLOGY, ENGINEERING, and MATHEMATICS

This framework is intended to offer a range of experiences for a variety of learners and familiarity with games, as well as purposes and objectives. The introductory course offers beginners a range of experiences for developing comfort and competence, as well as approaches to using games for instructional purposes, and it offers game enthusiasts and game designers opportunity to gain introduction to research, learning theories, and design techniques.

The course was designed to be self-paced, allow the learner choice and opportunity to choose outcomes and learning purpose, and provide resources and community.

The course has been offered for four years at the University of Minnesota graduate school in the College of Education and Human Development, and embodies accessibility and quality.

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The course is available online through the Professional Learning Board in conjunction with Minneapolis Public Schools Alternative Teacher Professional Pay System and the University of Minnesota.

Sign up by clicking the space invader.

Video Games as Learning Tools


Students interested in graduate credits may purchase three 5000 level graduate credits for half the normal price.

If you email the instructor, coupon codes are available for Minneapolis Public School Teachers and the first 10 Non-MPS students

taxonomy-of-playWhy is learning and instruction so severe?

Why is it that we say ” there is no time for playing here . . . don’t , mess around”.

Should games and play be considered important in designing instructional contexts?

We do know that play is important in the early development of children, but we soon change from the natural learning state of the learner to the convenience of the instructor. This may have come about from a number of factors, but it is likely an issue of convenience for the instructor, not the instructed.

Games and play may offer a more fertile approach for designing instruction, where individuals can be put into a learning environment rich with choice and feedback . . . not only for gathering information about a student’s learning, but that also demand mastery, plenty of do-overs, and where the performance is the assessment (informative assessment — not assessment where the learner is sequestered from learning for the sake of testing in a non-learning situation!). Games and play, by their very nature, assess, measure, and evaluate — and good games and curriculum built upon the principals of play do it in a way that is a seamless and an integrated part of the story arc, and the assessments are the performance ( you do it, or you do it over . . . . and you should wanna do it).

The taxonomy (above) comes from Dubbels (2008), where observations in game play were coded from this model for research on reading comprehension and game play.

The model was developed by looking at games as a structured form of play, where learning was considered as one of the primary purposes of play, and that learning really is our natural state.

We are always learning; sometimes we are learning that we do not like what we are being asked to learn and become– Play is generally though of as intrinsically motivated behavior based upon interest and purpose, as opposed to most formal learning environments.

In this taxonomy, and perhaps it is more a framework than a taxonomy since not all parts need always be present; But each step represents a level of complexity and structure until elements of purposeless free-play has become a structured pursuit in rule-based environments where probability and hypothesis testing are “the play”.

This taxonomy is not all about video games. This taxonomy is an attempt to utilize research on play, as discussed in Play is how we learn.

  1. The first category: Visualization/ imagination seems primitive, but it can be very sophisticated. It may include driving an imaginary car, or even the basis for proposing a new theory for science much like Einsteins thought experiment about relativity and the speed of light. This can be very effective in getting commitment and motivation in learning and instruction. Use the words imagine and visulaize to start the activity. Games do this well, where we are asked to suspend disbelief and create a situatoin and scenario and our place in it.
  2. Roles / Identity where the individual may take on the role of a race car driver or a medical doctor. This may include what Williamson Shaeffer calls the epistemic frame, where the semiotic domains (Gee, 2001) identify the individual as part of a group who have an affinity for an activity. In this case the individual may wear a costume, use language, and tools that are particular to this community of practice, where individuals may gather to develop Self-Determination, i.e. skills, relationships, and autonomy.
  3. Rules are where play becomes more structured, game-like, and more directed, and allows for the semiotic domains to become crystallized as institutionalized discourse, and becomes cultural hegemony, where roles and rules become part of the value system and social hierarchy. An example of this might be, “I am the mommy and you are the baby, so you need to listen to me and do what I say”.
  4. Branching is where there are a number of possibilities based upon context and situation. Often games have different paths for play where there may be a number of different ways to start the game and move through the game– whether it be through the role of dice, scenarios, and spinners. Think of monopoly and chutes and ladders (snakes and ladders), where there are spaces that are moved through or across that create different situations for success or setbacks.
  5. Probability/ Estimation involves the likelihood that if this is done, this will happen. By nature, we are calculating and estimate possibility based upon our actions and the actions of others.In a computer game or a live action role play like Dungeons and Dragons, where characteristics may have a quantitative value in proportion to a discrete category, i.e. someone may have an Intelligence of 16 out of 20, and the player must role a 20 sided dice to see if their solution solves the problem they face in the problem/play space of the game–if they roll a 17, 18, 19, or 20, their solution fails. This demands the player to build situation models of the action and propose solutions based upon their understanding of the game space scenario and the possible solution paths based upon game character skills and resources. In a computer mediated game like Elder Scrolls Oblivion or Assassins Creed the computer processes likelihoods of success based upon skills accumulated (these are developed withe each in-game success.

Central for consideration here is that learning occurs in play, and play is very engaging and may provide a portal to sustaining activities and developing an approach to activities that are often classified as work. And for many, being told to work inspires resistance, reluctance, and avoidance tactics in mandatory performances and learning environments such as school, employment, and other conscriptive activities.

Play orientation, and play identities may offer a high interest and high motivation approach to learning that may have a greater probability in sustaining and improving practice, and thus play may act as a portal to engagement.

Games are a structured form of play (Dubbels, 2008), and play represents a portal to deeper learning, where play is an inquiry state and affective approach to activity. Brian Sutton-Smith, in the Ambiguity of Play described work and play as ethos that are dependent upon purpose and context–where an activity may be a play activity for some and arduous work for others–it depends upon personal attribution. The key factor seems to be the expectations of pleasure or dread associated with the activity, and tapping into play when designing learning environments may offer significantly greater likelihood for sustained engagement.

Taxonomy from:

Dubbels, B.R. (2008) Video games, reading, and transmedial comprehension. In R. E. Ferdig (Ed.),Reference. Information ScienceHandbook of research on effective electronic gaming in education.