CALT632491 173..177


EDITORIAL

Theory in learning technology

This special issue is being published at a significant point in time in relation to
simultaneous changes in higher education, in technology and in the field of learning
technology itself. As the 2011 ALT C conference themes clearly state, learning
technology needs to learn to thrive in a colder and more challenging climate. In this
difficult political and economic environment technological trends continue to
develop in terms of mobility, cloud computing, ubiquity and the emergence of what
has been called big data. E-learning has become mainstream and the field of learn-
ing technology itself is beginning to stabilisE as a profession. Profession here is
understood as a knowledge-based occupation and a form of cultural work where the
tasks addressed are human problems amenable to expert advice and distinguishable
from other kinds of work by the fact that it is underpinned by abstract knowledge
(Macdonald, 1995).

Abstract knowledge is the focus of this special issue, in the form of theory.
The hallmarks of a profession include both a codified body of practices (embod-
ied knowledge including competence) and abstract knowledge in the form of the-
ory which is expressed in a codified body of principles; in conceptual
knowledge (Denning 20011). Indeed learning technology, like other applied tech-
nology fields, has a distinct relationship to explicit, codified, systematic and sci-
entific knowledge (Jones 2004). Czerniewicz (2010) has shown how learning
technology as an applied field takes the form of a horizontal knowledge struc-
ture, segmented and expressed as co-existent parallel specialist ‘languages’, with
a tendency to repeat and proliferate. A Bernsteinian framework shows how the-
ory is manifest in a “general approach discursive plane”, where metalanguages
are produced to legitimize how phenomena are understood and interpreted, and
to determine what counts as a proper description. It is important that the theories
expressed through these metalanguages are developed and made explicit. Coher-
ent theoretical frameworks are needed to enable integration across the segmented
clusters so that generalizations can be made, lessons learnt across multiple sites,
and a community of researchers enabled to share a common language to build
knowledge together.

In addition, because of the emergent nature of the field and the particular nature
of learning technology in terms of practice, several related issues pertaining to
theory and its role arise. These include:

� the place of theory in an applied practice-based field;
� the legitimacy of specific theories;
� the related contestation between theoretical positions and claims; and
� the tensions and disjunctures between the empirical and the theoretical in

research.

Research in Learning Technology
Vol. 19, No. 3, November 2011, 173–177

ISSN 2156-7069 print/ISSN 2156-7077 online
� 2011 Association for Learning Technology
http://dx.doi.org/10.1080/21567069.2011.632491
http://www.tandfonline.com



The need for theory development in learning technology echoes arguments made
in educational research more broadly, where for example Ashwin (2009) has argued
that research in higher education has been about exemplification rather than about
theory development. The case for theory and for theory development is unsurpris-
ingly one that weaves through all the papers in this special issue. In an extended
and articulate case, Bennett and Oliver (this issue) argue that the lack of theoretical
perspective in learning technology risks making the field at best one that is “narrow
and derivative”, and that the focus on applied design work in learning technology is
too easily driven by common sense assumptions associated with matters of practical
implementation. Both Bennett and Oliver and Howard and Maton (this issue) make
the case for the need to build theory and Howard and Maton argue that without the-
ory the danger will be that knowledge remains at the level of empirical description,
rather than resting on the principles underlying the data. We believe that the papers
in this Special Issue provide an antidote to these concerns, providing numerous
examples of the opportunities for exploring the role of theory in learning
technology research.

In the first instance, authors in this special collection theorise the applied nature of
the field itself by conceptualising different aspects of use and of practice. Cram et al.
(this issue) consider the practices of problem solving as understood by theories of
expertise while Johri (this issue), drawing on Orlikowski, makes the case for practice-
based bricolage. Such practice-based theorisations are welcome additions to learning
technology, because they demonstrate in different ways how knowing-
in-action and reflective practice are intimately associated with theoretical knowledge.
The field’s traditional focus on design is not neglected, and we value Paavola et al.
(this issue) for rigorously problematising the challenges associated with theorising
design principles. It is worth repeating their conclusions that “conceptualisations can
be more resistant to change than expected” and that “both practical applications and
theoretical development require conscious development and cannot be taken for
granted as a result of design-based research”. This kind of honesty is essential for
meaningful progress to be made in theory development in the field.

Also essential is a reminder of the inextricable relationship between the empiri-
cal and the conceptual, especially relevant in the current climate of big data and
learning analytics. We find Sayer’s (1992) three versions of theory helpful as a
starting point, as he considers the three dimensions of theory as follows:

(1) Theory as an ordering framework which permits observational data to be
used for predicting and explaining empirical events

(2) Theory as conceptualisation, prescribes a particular way of conceptualising
something

(3) Theory as hypothesis or explanation (Sayer 1992, 50)

Sayer criticises the ordering framework (1) and hypothesis and explanatory
views of theory (3) for their failure to deal with the indirect nature of our knowl-
edge of the world. In his view conceptualisation lies at the heart of observation, a
point of contact made famous in Einstein’s comment that it is theory that decides
what we observe2. Data is not neutral, its very selection indicates a theoretical per-
spective. Data does not produce facts that are direct reflections of the world, rather
facts about the world, like theory, are constructs of human cultural engagement with
the world and are never direct. In our view theory can generalise across a variety of

174 Editorial



contexts and across time and at its best can compress experience into robust,
considered and usable forms.

Because we do not believe that facts provide direct access to the world we stand
against the tradition (perhaps especially strong in England) to distrust theory and to
emphasise the empirical. We stand firmly against this trend and argue that a sound
theoretical basis for learning technology in conceptualising the research object is
essential and that empirical work that fails to engage with theory has a very limited
ability to develop and inform the field. Currently the anti-theoretical stance has
taken on a new importance with the development of the idea of a “fourth paradigm”
(Hey, Tansley, and Tolle 2009). Famously Anderson has claimed:

This is a world where massive amounts of data and applied mathematics replace every
other tool that might be brought to bear. Out with every theory of human behavior,
from linguistics to sociology. Forget taxonomy, ontology, and psychology. Who knows
why people do what they do? The point is they do it, and we can track and measure
it with unprecedented fidelity. With enough data, the numbers speak for themselves.
(Anderson 2008)

In a world of big data the idea that theory is at best irrelevant and at worst
counterproductive is extremely dangerous. In educational technology the idea of
learner analytics could easily be developed to suggest that if we simply collect
enough raw data on students then theory will become irrelevant. Such a stance in
relation to theory ignores all the known weakness of numerical data and the weak-
nesses of ‘big data’ in particular (see for example boyd and Crawford 2011). In a
world in which there is a data flood in which new data sources impact on all the
disciplines that learning technology draws on, a renewed engagement with theory
will be essential to ensure that the data we collect for analysis is not garbage so that
the answers derived from it are not just as poor.

It is notable that the papers in this issue are largely drawn from the social sci-
ences, even when these are situated in relation to technology and information sci-
ences. This suggests either a narrowing or a resolution and the beginning of some
coherence with regard to the multi-disciplinary nature of the field. Learning technol-
ogy has of necessity drawn on a range of disciplinary areas that often have contrast-
ing and even conflicting assumptions about the nature of knowledge and how
theoretical understanding can be achieved. Apart from education and educational
theory, learning technology has drawn significantly from a range of disciplines
including psychology, sociology and anthropology, computer and information sci-
ences etc. A consequence of this diversity is that the claims to knowledge are often
based on deeply ingrained philosophical stances, disciplinary paradigms and
entrenched research methodologies. A striking example of this range is the positivist
influenced paradigm of research commonly found in psychology, involving largely
quantitative methods and experimentation, contrasted with the research paradigm in
the cultural and social sciences which adopts a largely interpretivist approach and
conducts research in real-life settings. The sheer range of disciplinary sources pre-
sents difficulties for anyone trying to outline or develop a coherent theoretical
stance applying to learning technology as a whole.

It is interesting that the call for papers for this special issue on theory in
learning technology drew few papers with an emphasis on learning theory and
that there is little evidence of a strong psychological, computer science or
educational research influence. It is also of note that the dominance of learning

Research in Learning Technology 175



theory especially in terms of the instructivist/constructivist see-saw noted in recent
years (see Czerniewicz 2010) is barely evident here. There is a sociological bent
indicative of what we perceive as a general shift to the socio-cultural context of
learning. We note too an emphasis on and an interest in the persistent problem
for learning technology: the relationship between technology and learning and the
co-construction of education and technology. Three of the papers in this edition
draw on Actor Network Theory (ANT) (Johri, Edwards et al., and Wright and
Parchoma this issue) while a third makes use of Social Studies of Science and
Technology (SCOT) (Jones and Bissell this issue). These papers contribute to
exploring the relationship between new technologies and learning. All three sug-
gest an interpretive flexibility in relation to technology that is not fixed by design
and emerges in interaction and use.

The articles in this issue also demonstrate how theory can locate discussion and
research in a broader academic and scholarly discourse (see for example Johri in
this issue and his consideration of four dimensions of theory). Equally theory can
be criticised for occluding aspects of experience, making researchers and practitio-
ners blind to some aspects of their own context, or the context of their work, and
making the simple appear both complex and obscure. Two papers in this special
issue interrogate dominant discourses (Edwards, Tracy, and Jordan; Wright and Par-
choma). Wright and Parchoma question the discourse surrounding the use of mobile
devices in education while Edwards, Tracy, and Jordan suggest that framing educa-
tion as spatial orderings raises questions for those dominant discourses that focus
on learning and teaching in education. The article by Hall (this issue) makes a gen-
eral call for placing critique, based on a deep understanding of the socio-cultural
contexts within which technology is deployed, at the core of learning technology
research. The current major crisis in neo-liberal capitalism suggests that critique is
likely to emerge as a major theme in the near future. As governments cut public
expenditure and look for quick fixes to fundamental problems, learning technology
may become a battleground in which economic constraints and a consumerist
philosophy applied to education come into conflict with popular movements focused
on the public role of the university.

In this harsh environment original responses are essential. The collection of arti-
cles published in this special issue provides a rich diversity of sites and an array of
conceptual approaches to learning technology research and innovation. The cases
provided are evidence of proactive engagements with challenging conditions
through robust research which is slowly closing the spaces between fragmented
thinking and isolationist approaches. This is a contribution to both community
building and cumulative knowledge building in the field.

Notes
1. See an elaboration of this in Hodgkinson-Williams and Czerniewicz, (2007).
2. This quote was related by Heisenberg and quoted in Unification of Fundamental Forces

(1990) by Abdus Salam according to http://en.wikiquote.org/wiki/Albert_Einstein.

References
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176 Editorial



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Chris Jones
The Open University, UK

c.r.jones@open.ac.uk

Laura Czerniewicz
University of Cape Town, South Africa

Laura.Czerniewicz@uct.ac.za

Research in Learning Technology 177