“Back to the future”: Socio-technical imaginaries in 50 years of school digitalization curriculum reforms


 

ISSN: 1504-4831 Vol 16, No 2 (2020), e4048 https://doi.org/10.7577/seminar.4048 

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“Back to the future”: Socio-technical 

imaginaries in 50 years of school 

digitalization curriculum reforms 

Annika Bergviken Rensfeldt1 

University of Gothenburg 

Email: annika.bergviken-rensfeldt@gu.se 

Catarina Player-Koro 

University of Gothenburg 

Email: catarina.player-koro@gu.se 

Abstract 
This paper examines major Swedish school digitalization curriculum reforms over the past 

50 years by analyzing similarities and differences between the late 1960s, mid-1990s, and 

early 2010s curricular reforms. By drawing on Jasanoff’s (2015) socio-technical imaginary 

concept, we examine how digitalization reforms are constituted discursively and materially 

in struggles over curricular knowledge content, preferred citizenship roles, and 

infrastructural investments and especially by relating curricular reforms to governance 

transformations. One recurrent strategy of reform is what we call the back to the future 

argument, where curricula address an ideal citizenship of future societies, politically used 

to support change. We suggest that in the more than 50 years of school digitalization 

issues, it has been surrounded by strong and shifting struggles over the curriculum content 

and governance transformations. This pendulum movement (Englund, 2012) has taken 

place partly through central, state-led or new monopolized technology governance and 

infrastructures and partly through decentralized forms of governing (e.g., in municipal 

contexts and via IT-supported networks). 

 
1 Corresponding author 

https://doi.org/10.7577/seminar.4048


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Keywords:  school digitalization; curriculum reform; governance transformation; socio-

technical imaginary; infrastructure; school computers; IT networks; learning platforms 

–I felt it was very positive that we could see what was happening around us, as we in 

Sweden had a slightly different approach to it compared to many other countries. 

Commonly, others started by introducing computers in more specialized ways and 

only for some groups, while from the very beginning we said that this should be fully 

integrated. And we started with upper secondary school of course, and then “data 

knowledge” [in Swedish, datalära, implemented in the 1980 curriculum Lgr80, and 

initiated in the 1970s] was introduced into primary school too. 

–After all, we were facing a huge task. The whole body of teachers in both primary 

and upper secondary school were to receive some continuing education in data 

knowledge . . . and later in the 1980s it turned out that . . . programming, instead of 

[the new curriculum] data knowledge had taken over. Perhaps, this [data 

knowledge] project was a little too far ahead in time. 

(Nilsson, 2008) 

An important goal of the strategy [The national school digitalization strategy by The 

Ministry of Education, 2017] is that teachers, students, preschool children, 

principals, and local school management continuously should develop their digital 

competence. For teachers for example this means having enough knowledge to 

“choose and use digital tools in education” according to the strategy. This concerns 

being able to use computers, smart pads, mobiles, digital study materials, 

programming etc. in teaching to improve students’ results. 

–One strategy is not enough, rather it is required that both the government and 

local school management invest in and prioritize the digital school, says the chair of 

the Teacher Union. 

(Teacher Union magazine, 2017-10-20) 

Introduction 
In Sweden, it has been well over 50 years since the first political and curricular initiatives 

on digital technologies in schools similar to the ones that exist today were introduced. Two 

major curriculum reforms, in 1980 and 2017, are exemplified in the introductory 

quotations and point to some recurrent features of the reforms. One is the struggle over the 

knowledge content and what the relevant technologies are considered to be for a future 

society and citizen, in terms coined by the changes in terminology and actual technologies. 

Digitalization is the more recent term, but it has been preceded by the terms and 

technologies of different eras, like computerization and data knowledge in the 1960s and 

information and communication technology (ICT) based learning in the 1990s. Another 

reform feature is what purposes and outcomes school digitalization curricula should have, 

including when and how it should be introduced. The first quotation above, from an early 



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“pioneer” in the field, illustrates some of these tensions and ongoing attempts to introduce 

digital technologies, as well as the early exchanges and borrowing of ideas on school 

digitalization between different countries. Arguments for introducing new school 

digitalization curricula over time can provide examples of how and what the discursive 

struggles are or have been. The 50 years of digitalization reforms therefore raise questions 

of what the reemerging ideas of the reforms have been and especially how certain desirable 

knowledges and technologies for an imagined society and future play an important part in 

the construction of school digitalization curricula. As our title, “Back to the Future” 

suggests, such social and performative discourses, together with digital technologies, 

constitute certain desirable future characteristics, for example, being at the forefront of 

technological advances as a nation by setting the stage for the future society through 

education reform and infrastructure investments. Desirable concepts like “modernization,” 

“innovation,” and “disruption” have commonly been used for the purpose of motivating 

digitalization reform and expectations. Therefore, such discursive work is performative 

and represents a political will to break with the past to shape futures (Popkewitz, 2008), 

and they function as strategies to motivate curricular reform. We also used the back to the 

future argument to refer to how such dominant knowledge arguments for the future 

society, like programming competence and learning to code, also referred to in the 

introductory quotations, are repeated during the time period in focus here. 

School digitalization reforms and investments in technology have always taken place in 

parallel with developments of digital technologies and scientific knowledge in society, and 

reforms often involved high expectations of digitalization powers to change, renew, and 

improve education. Education technologies formed an important part of school curriculum 

and education reforms early on, in the decades after the second world war, for example, by 

introducing the needs of digitalization for a science-based future society and competent 

citizen. Hence, the reconstructions of nation-states’ public education and societies 

included investments in early education technology, and in comparison to many other 

Nordic countries, Sweden, having avoided the war, is considered to have been early with 

investing in a strong, equality-oriented public sector (Hallsén & Nordin, 2020). However, 

since the 1990s, similarly to other countries, Sweden has conducted a fast dismantling of 

public sector education to privatize large parts of the education system through market 

reforms (e.g., Ball & Youdell, 2007; Englund, 2018; Verger et al., 2017), thereby moving 

from state to more decentralized governance. Such governance transformations provide 

democratic challenges. In the second quotation at the start of this paper, the Teacher 

Union chair references such democratic and economic challenges by addressing the local 

responsibility for investment and expected competence improvements. Equality-oriented 

reform ambitions and equal technological accessibility and opportunity throughout the 

education system could be harder to achieve when school governance is decentralized to 

local and municipal governments or outsourced to private sector companies. 



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 Aim, questions and approach 
Swedish school digitalization curriculum reforms make up the case in this article. The aim 

is to explore the configurations of major digitalization reforms from 1969 to 2019, raising 

two questions: How are different school digitalization curriculum reforms constituted 

regarding imaginaries of future societies, knowledge content, and digital technologies? 

Following this, how are the different reforms converging or diverging over time and in 

relation to governance transformations? 

The approach used here to critically examine curricular digitalization reform draws on 

Jasanoff’s (2015, p. 19) conceptualization of socio-technical imaginaries as part of political 

reforms and advances in science and technology. Socio-technical imaginaries are formed 

through socially and publicly performed discourses of desirable future societies, as well as 

through inscriptions and the materiality of technology. Hence, socio-technical imaginaries 

include both the discursively and materially intertwined and negotiated formations of 

digitalization curricula—discourses of futures and future citizens, knowledge content, and 

the materiality of digital technologies, devices, infrastructures, and investments. This 

approach suggests that digital “things” are considered co-produced by imagined visions of 

digitalized futures. Digitalization curricula, covering both discourse and materiality, is one 

of the most powerful arenas for translations and uptakes of socio-technical imaginaries, 

and as such, they need to be critically examined. 

Other studies have defined school curricula as historically and contingently constituting 

what are considered the relevant knowledge contents for education in dynamic relation to 

political processes and reforms (Popkewitz, 2008). In that sense, school curricula are part 

of political government, nation-state ambitions, and ideals of citizenry competences 

(Englund, 2012, 2018). Curricular reforms can also be seen as the results of scientific and 

political struggles, prompting the prioritization of certain educational content and 

strategies (Bernstein, 2000). Therefore, curricula are not to be considered neutral but 

rather the result of complex negotiations between different social groups and interests 

(Lundgren, 1983) along with digital technologies and computers in schools (Selwyn, 

2002). Jasanoff’s approach allows for analytical sensitivity toward new circumstances and 

challenges with understanding how socio-technical imaginaries are circulated and 

adopted. This can include different local, national, or international curricular contexts 

(e.g., Verger et al., 2017; Wahlström & Sundberg, 2017). Therefore, even if curricular 

aspects of education reforms operate across national and global contexts, they will always 

be adapted and adjusted in relation to the specific needs and traditions of that country, 

region, or setting. Thus, there is no unidirectional transfer of curricular reform from one 

site to another; they are best described as multidirectional and contingent. 

Examples from education technology research using Jasanoff’s concept to explore aspects 

of school digitalization include Williamson (2017) and Tafdrup (2019). Other critically 



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oriented research is seen in UK studies on earlier reforms (McGarr & Johnston, 2019; 

Selwyn, 2002) and in Nordic case studies (e.g., Hallsén & Nordin, 2020; Hanell, 2018; 

Haugsbakk, 2013; McBride, 2019; Nivala, 2009; Saari & Säntti, 2018). There is also an 

emerging related field of study on how education reforms increasingly make use of digital 

technology for accountability politics, digital governance, and predictions of educational 

outcomes (e.g., Grek et al., forthcoming; Gulson & Sellar, 2019; Williamson, 2017). 

Materials and analysis 
The materials used for this study are mainly publicly available official documents, 

including archived interviews, newspaper articles, syllabi, and education policies, 

including government strategies, evaluations (e.g., Jedeskog, 2005; Riis, 1987), and 

investments in digital infrastructures. Two quotations introduced the case. The first is 

from an open archive of testimonial interviews conducted with digitalization pioneers in 

2008 for the research project “From Mathematical Machine to Information Technology” 

(Emanuel, 2009). It includes 10 interviews about school digitalization with “once-powerful 

education actors” (Selwyn, 2013), allowing for secondary use of personal but also 

retrospective opinions of what was at stake. Six of these transcribed interviews from 2008 

(Boström, Broman & Bäck, Nilsson, Nilsson & Loftrup, Nydahl, and Riis) have been 

repurposed in our analysis. The second quotation is from a database search in the Swedish 

Media Archive covering the school digitalization reform launched in the autumn of 2017 

(see also Williamson et al., 2019). 

Because the reform documentation and curricula covering 1969 to 2019 revolve around 

imagined futures, knowledge, and digital technology, Jasanoff’s concept was relevant. An 

analytical aim was to pay attention to discursive and material content, meaning political 

and curricular arguments, as well as investments in devices and infrastructures and 

regarding technology as co-produced by discursive powers. Due to the extensive 50-year 

period being examined, the overall struggles and main reform elements are primarily 

represented, making details, local circumstances, and other voices less visible. The long 

period also made us explore divergences and convergences of the political struggle over 

time. The time frames were borrowed from Englund’s (2012) education reform 

conceptualization of how educational citizenship equality is addressed and operating via 

pendulum movements of reform and curricular politics, suggesting a centralistic 

government in the 1960s, and renewed in 2010 with a clear break of decentralized 

governance in the 1990s (Englund, 2018). Next, our analysis is presented chronologically 

as it resulted in three main reforms, one in the late 1960s, the second in the mid-1990s, 

and most recently in the late 2010s, each displaying certain socio-technical imaginaries at 

play. 



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Programming and school computers in 1960s 
centralized curriculum reform 
Curricular ideas on computers and digital technologies were officially introduced in the 

Swedish parliament in the late 1960s, and in 1971, the National Board for Education (NBE) 

prepared a new school subject, “data knowledge” (datalära, introduced earlier). Textbooks 

supporting the new school subject, produced by pioneers (Nilsson & Loftrup, 2008), like 

Computers on Our Terms in 1976, and A Programmed Future in 1979, say something 

about the orientation of the subject toward student perspectives and future socio-technical 

imaginaries. In the 1970s and 80s, a series of government-funded computer technology 

initiatives (e.g., the DOS and DIS projects) aimed at developing both hardware and 

software, and pedagogical methods followed. A government delegation was already sent to 

the United States in 1966 by the Ministry of Education and Ecclesiastical Affairs to 

investigate the early generations of education technology, called computer-aided 

instruction, CAI (Karlsohn, 2009). However, it was not until 1984, 13 years after the 

commission instantiated, that the first integrated data knowledge curriculum for all school 

years started. It included 80 hours of teaching in secondary school, with the aim of 

critically fostering knowledge on computerization in society. 

The struggles of the reform were thus a characteristic feature of the digitization 

curriculum. According to Riis (2008), two main conclusions had been drawn from the 

earlier projects and recommended to influence the new overall syllabus in the early 1980s, 

Lgr80 (NBE, 1980a). Riis added that “this is how she remembers it” now, based on her 

later evaluations. One was that computers should only be introduced in vocational upper 

secondary school, and another was that the new curriculum should prevent “the mistake 

from earlier education technology reform,” echoing the US and CAI-inspired modularized 

curricula, so that “drill” and “automatization” would be rejected in favor of students’ use 

and self-control (Riis, 2008). 

Sweden, known for its close science and state (party politics), as well as its social and 

science education ties, epitomized by the state’s step-by-step “social engineering,” was 

considered as having advantages compared to other countries in terms of engineering 

public reform. According to Riis (2008), “Sweden has been about 10 years ahead of almost 

all other countries in Europe that were involved in the second world war when it comes to 

school reform,” adding that a strong future imaginary and tactic had regulated that 

government: 

Thus, one has a vision of a different and better society . . . then one has to place that 

vision quite far into the future . . . so far into the future that it is possible to achieve 

real decision-making power, on top of or alongside yesterday’s old decision. (Riis, 

2008) 



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Influential state governmental connections during these years also included the domestic 

industry sector, exemplified in the main vision of the first major initiative, DIS, 

introducing computers in 1974 to 1980: 

Knowledge is required to increase the individual’s influence over computer use. 

Knowledge of computers and the use of computers is also needed to preserve our 

country’s role as industrial nation (NBE, 1980b, p. 1) 

The future imaginary presented is a computerized and industrial society, secured by the 

knowledgeable individual via schooling and the nation’s industrial labor and made 

governable through social engineering and a strong future imaginary (Jasanoff, 2015). In 

retrospect, Broman & Bäck (2008) refers to the shared understanding of digitalization as a 

“social drama” that influential pioneers used based on the argumentative logic that “a 

major societal revolution is happening,” and “this is what we must do,” as “Sweden has to 

keep our place in the world.” This self-reflection mirrors not only the social and 

argumentative powers of digitalization reform but also how digital technologies are 

interrelated with the nationally competitive computer-based societal imaginary. 

Interestingly, similar to the reform in the 2010s (NEA, 2017), there was also a basic form of 

programming included in early computer mathematics curriculum. Locally, basic 

programming was often introduced via self-organized science teachers using invested 

school computers (Nilsson, 2008, see introductory quotation). A critical evaluation 

followed the implementation, conducted by Riis (1987), who stated that students had not 

received the required teaching hours and the results in mathematics had dropped, 

considered to have been caused by the time-consuming programming in mathematics. 

According to Nilsson (2008), “software and programming” characterized the period, but 

“nothing much else happened,” as most projects and initiatives were stopped. In 1987, data 

knowledge was also excluded from the curriculum. Major curricular struggles involving 

teacher unions also emerged and interrupted the process, and the broad implementation, 

time, and resources allocated to the new curriculum were debated, despite the fact that 

state government had prescribed protection of teachers’ workloads (Broman & Bäck, 

2008). The alternative curricula also spread as many teachers preferred applied 

programming (Nilsson, 2008; also introductory quotation). These long curricular struggles 

and strong trade union resistance protracted establishing the curriculum, which is typical 

for strong state-centered government and the era’s ideal of politically anchoring reform 

(Englund, 2012). 

The exchange with other countries also made influential actors suggest a Swedish school 

computer infrastructure, something frequently echoed in the interviews. One pioneer 

referred to how comparisons pushed the idea forward: “Denmark had Pickoline, Finland 

Mikro-Mikro, and England the BBC computer. Norway had joined the Swedish project” 

(Nydahl, 2008). During the mid-1980s, the Swedish government and municipalities co-



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financed secondary school computer infrastructure (SEK 60 million 1984–1987) in parallel 

with the prolonged implementation of the new subject. The development of relevant 

software for the assigned computers brought problems, however. In the mid-1980s, the 

Swedish Ministry of Education (MoE) initiated a school software project and a Nordic 

expert group to exchange software. Although severe usability and interoperability 

problems occurred (characteristic for micro-computers then), these Nordic-produced 

state-financed programs later “turned into popular market products.” Because “all these 

software programs were freely accessible as the organization ended” (Nydahl, 2008), the 

commercial sector could make a profit from them. One of the interviewees stated that the 

software projects were also outmaneuvered by new types of operating systems, Microsoft 

Office packages, and new focus on information search and process writing in schools. Two 

different interviews included similar retrospective comments: 

We probably had our doubts that it was a dead-end project from the beginning, to 

make a Swedish blue-and-yellow computer. (Nilsson, 2008) 

A Swedish school computer named Compis [Computer in School, procured in 1982], 

which one now, a few years after and with the facts at hand, regards as one of the 

biggest flops in Swedish technology development history. That computer was 

completely impossible to use. (Boström, 2008) 

Hence, a Swedish-profiled school computer brand, similar to other countries, and schools 

and students having an automated teaching machine were considered ideal by government 

and industry at the time, and while the output can be considered limited in retrospect, the 

materialization of this strong imaginary was pervasive. The National Agency of Education 

(NAE, the public agency after NBE) called the 1980s investments “almost textbook 

examples of technological push; computers were pushed onto schools and teachers that 

never asked for it” (NEA, 1999, p. 24). Taken together, state-initiated reforms and 

industry-oriented curriculum characterize this first digitalization reform period. This 

includes extensive power struggles over knowledge content on computerization and 

programming, where materialization of school computers gained important impact 

through the imaginary of Swedish society. 

ICTs, networks, and IT—billions in the 1990s 
decentralized curriculum 
The 1990s, particularly 1994, comprised several major reforms in Swedish politics and 

curricula. The period before had been characterized by power struggles over interests and 

investments, but is often described as a time of undecided matters for school digitalization 

(Jedeskog, 1996). A major education and public sector reform had begun in the 1980s, the 

decentralization and deregulation reform (Englund, 2012, 2018). With it, the responsibility 

for schools was regionally transferred to municipalities, including allocation of funds, 



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which affected the school digitalization issues in the mid-1990s and onward. The overall 

curriculum was reduced to goal-oriented strategies to be operationalized by local schools 

and teachers. Local schools were also to provide for strategies and infrastructure, which 

according to one pioneer, made regional technological capacity better but more unevenly 

distributed. In 1994, when the second major reform of digitalization took off, due to 

decentralization, the municipalities were entrusted with responsibility for implementation, 

while the state-controlled NEA was responsible for coordination. 

The new terminology was information technologies (IT). The curriculum prescribed 

students’ ability to use IT as a “tool for knowledge seeking and learning” (MoE, 1994). 

According to the new primary school curriculum, Lpo94 (MoE, 1994), in line with 

imagined future needs, students should be “able to orient themselves in a complex reality, 

with a large flow of information and a rapid rate of change.” These represent a will to 

reform connected to the back to the future argument. Education was to foster an IT-savvy 

citizen who contributed to the skills and knowledge of the information society, and IT was 

also used to substantiate such competence. The difference this time was the technology-

saturated future economy imagined. 

In 1994, the white paper “Wings for Human Ability” (IT Commission, 1994) epitomized the 

far-flung technology-positive ideas from the mid-1990s. Persuasive visions of school use of 

IT or ICT added to these ideas. The internet and web had been introduced, and the 

information superhighway was a common socio-technical imaginary at the time. 

Arguments around global connectedness and investments in lifelong learning through 

individuals’ digital skills became linked to economic competitiveness agendas (MoE, 

2001), echoing the trans- and supra-national 21st century skills curriculum discourse in 

the United States, the Organization for Economic Co-Operation and Development (OECD), 

European Commission, and more. A new economic sector and strong national confidence 

had emerged with IT businesses establishing in Sweden, in a short-lived IT boom, and IT 

in schools gained new momentum (Karlsohn, 2009). For IT and education businesses, 

schools were increasingly seen as market investments, or “a gateway for future sales to 

companies,” as one interviewee put it (Boström, 2008), in the belief that “students would 

prefer the computers they had used before” when they entered work life. Hence, the socio-

technical imaginary here draws on new forms of incentives for the desired future and 

schools as marketplaces. As part of this, networking became a renewed political tactic, and 

the public sector formed networks with private IT and education businesses. The NEA was 

commissioned to coordinate information networks, such as the national School Data 

Network, the resource-sharing platform Multimedia Department, and the Nordic Odin 

network. Networking also became part of the new curriculum by communicating the need 

to network humans and digital resources to support teaching and school development. 

Social and digital networks also characterized how major investment was motivated in the 

1990s. Important financial initiatives and efforts to digitize schools came from the 



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Knowledge and Skills Development Foundation, The KK Foundation (SEK 1 billion), based 

on employee funds set up by the former left-wing government, now liquidated by the right-

wing government. During a political hearing (IT Commission, 1998) comments were made 

about investments of the Lighthouse Project, set up to be a role model in 1995: 

The one billion already is a lot of money, add to this the extraordinarily large sums 

that Swedish municipalities also spend, estimated to be another three billion from 

1996 to the turn of the millennium (IT Commission, 1998, p. 21) 

Added to these billions, teacher professionals who had made extra contributions to school 

development and renewal were issued an extra SEK 6 billion during the contract period, 

debatably referred to as forced reform adaptation for teachers. Other tensions included 

only 28 municipalities (out of over 280 then) having access to KK Foundation funding; the 

remainder had to make their own investments. As many municipalities refrained from 

investing in digitalization, the dissemination of results and experiences became more 

difficult, and the opportunities to reform were unevenly distributed economically and 

nationally. 

A follow-up to the KK initiative was another large initiative (SEK 1.7 billion), “Tools for 

Learning, National Program for IT in Schools (ITIS)” (MoE, 1998). The idea was to 

improve schools’ internet access, support teacher work teams with learning resources, and 

school development, also by appointing teacher education institutions. Students’ learning 

was highlighted and set against traditional teaching, and the schools and teachers were 

guided to redefine their work on such grounds. All municipalities participated, but the 

investment did not take place generally and flexibly, meaning large investments in teacher 

PCs (SEK 700 million) was unevenly distributed. Even if funding provided a basic digital 

infrastructure in more schools, it also forced many municipalities into infrastructure 

agreements where technology providers got major influence over political decisions 

(National Audit Office, 2002). Similar to earlier initiatives, ITIS was criticized for 

neglecting earlier reforms and results and for being too quickly and sub-standardly 

prepared relative to the decentralized municipalities. It even started before the earlier KK 

Foundation project was ended and evaluated. One interviewee argued that the era’s 

political initiatives had continual “government problems, [as] project after project followed 

but without interconnection” and said, “It would have been better if the state and 

municipalities had had a better collaboration,” as “these changes are not made quickly” 

(Nydahl, 2008). Often depicted is the lack of national coordination but also the wait for 

local power distribution, given that decentralized municipalities were expected to 

strategically expand ICT into schools through their own large economic investments. One 

major municipality initiative became the local uptake of the global one-laptop-per-child 

movement in the early 2000s, connecting municipal schools with major technology 

providers like Apple. The purchases were supported by regional stakeholders (e.g., The 

Swedish Association of Local Authorities and Regions, 2019) and philanthropic non-



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governmental organizations, often processed by private broker companies, made possible 

via public procurement. Education and IT businesses now got new opportunities to sell 

hardware, software, and training directly to schools. In a sense, the curriculum was thereby 

changed as how and why digitalization was introduced in schools was substantiated by 

private interests (c.f. Picciano & Spring, 2013; Williamson et al., 2019). 

Compared to the early 1960s and 1970s curricula, the ambition in the 1990s (and 

continuing in the 2010s) was greater and centered around accelerating Sweden’s economic 

position in a global knowledge society and returning to the demand for current and future 

competitive citizen knowledge. The earliest reforms were more cautious and explored 

whether digital technology, mainly computers and computerization, came with issues that 

should be regarded in the curriculum. A more self-assured and internationally extended 

curriculum was established with the 1990s’ alternative societal imaginary, which came to 

symbolize a society and citizen ideal with strong technology-deterministic faith (Jasanoff, 

2015), confidently relying on individuals’ abilities to process and exchange information. IT, 

or ICT, in combination with decentralized municipal education governance, shaped the 

subsequent curriculum, which also created further differentiation in terms of 

individualization and the distribution of infrastructure and education resources. A growing 

dependence on private-sector initiatives was also established, which resurfaced in the 

2010s’ major school digitalization reform, presented next. 

Adequate competences, coding and platforms in 
monopolized centralist reform 
During the 2010s, the term “digitalization” gained wide curricular impact, often described 

as more than digitizing information and, again, with a new terminology of ideals of an 

emerging digital future, a socio-technical imaginary, used to regulate the current 

curriculum. In the Swedish upper secondary school syllabus, Gy11 (NAE, 2011), 

digitalization is described in terms of students being able to “orient and to act in a complex 

reality with a large flow of information, increased digitalization, and rapid pace of change,” 

and that students should “develop a critical and responsible approach to digital 

technology, to be able to see opportunities and understand risks and to value information.” 

The more critical approach to information, in comparison to 1990s curricula, was 

developed then, but mainly, the citizenship expressed is the individuals’ adaptability to an 

already present and changeable future society different from the 1960s ideal of a more 

stable, industrially prosperous society constituted by computers and scientifically informed 

knowledge. 

Major digitalization reform came in 2017, represented by the national strategy (MoE, 

2017), the overall aim of which was to increase equivalent (not equal) technological 

accessibility nationally. Modernization and a fundamental change of work methods, 



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teaching, and leadership, as well as improved school cost effectiveness, were expressed. It 

is also said that with overall digitalization reform, “Sweden continually should be a leader 

in digitalization and be digitally competent” (MoE, 2017, p. 3–4). As shown here, digital 

competence could be used to address students and the nation-state, framed as actionable 

elements that form part of a global society and economy imaginary. The new agency, 

School Inspection, controlling juridical matters and quality (Englund, 2018), suggested 

teachers have an “open approach to new technology, rather than any specific technical 

competences” and that the desired effects of school digitalization included providing 

“increased student motivation, skills, and independency and support group work” (School 

Inspection, 2011, p. 8–9). A strong governance feature of the school digitalization 

curriculum was how it addressed behavioral attitudes, for both students and teachers, as 

part of being competent. As the NEA (2019) introduced the revised syllabi for 

digitalization, it was clear that the term “digital competence” was borrowed from 

influential actors like the OECD (2005), which had promoted an economy-based 

understanding of how global workforces and digital markets secure digitally competent 

citizens and students. A particular attribution to digital competence was introduced in the 

Swedish curriculum (MoE, 2017), stating it should be “adequate,” a term for pointing out 

context adaptability and knowledge relevance. In line with Wahlström and Sundberg 

(2017), this suggests that the widespread competence concept from the mid-2000s was 

multidirectional and “domesticated” as it was transformed over time into particular 

situations, along with the Swedish context, and in line with globalized discourses. 

Programming was formally reintroduced in the digitalization curriculum (MoE, 2017), 

based on several new knowledge formulations, integrated in all school years and different 

subject areas, similar to the late 1960s and 1970s reforms. Similar to earlier initiatives, 

programming knowledge and learning to code were referred to as desirable but now, 

however, fully oriented toward individuals’ knowledge needs and future careers, as stated 

by a representative of NAE in 2018: 

Everyone needs basic knowledge in programming to be able to understand how 

society functions and to then being able to use it in one’s work life. That is why 

schools need to take this content into consideration so that every student will be 

taught this. There is an idea of progress in the programming curriculum from pre-

school class to upper secondary school, starting with the concrete step-wise 

instruction to being able to apply this programming for problem-solving in upper 

secondary school. (NAE, 2018-01-09) 

Socio-technical imaginaries are part of how programming is positioned in society, framed 

as work knowledge and categorized into curricular knowledge of school levels and content 

areas. Even so, it is posted on NAE:s own YouTube channel as a sign of how a public 

agency today pictured the imagined world. Somewhat similar to the 1970s’ curricular ideas 

of digital technology, programming knowledge is seen as an important aspect of a future 



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Seminar.net - International journal of media, technology and lifelong learning 13 

Vol. 16 – Issue 2 – 2020 

emerging society. The late 2010s ambition is, however, wider than the 1970s version and 

suggests more experimental initiatives; programming is now framed through aspects like 

contribution to a digitally-based economy. 

In many ways, programming and learning to code as digital competences draw on the 

language of computer science and the conception of programming as a problem-solving 

skill. A possible reason for this is how the curriculum process was politically governed. 

NAE was appointed to operationalize the curriculum and distribute an important part of 

the project, Triple Helix—National Coalition for School Digitalization. This was initiated by 

Swedsoft (2017), a large software interest organization of academics and industry people, 

where schools, industry, and universities were invited to participate in different 

workshops. This exemplifies a new form of education reform where public and private 

actors, based on different interests and during short and fragmented time contributions, 

had a large impact on major curricular decisions and technology-use, similar to other 

countries (Williamson et al., 2019). In Sweden, these processes replaced earlier, more 

publicly visible curriculum-making, which were slow processes, as exemplified in the late 

1960s reform. The 2010s’ state-led government decreased and transferred control to audits 

and inspections. These changes in Sweden and elsewhere exemplify a form of re-

centralization (Englund, 2012) of the curriculum in the 2010s. However, this re-

centralization is now supported via supra- and transnational organizations such as the 

OECD and other interest groups (Wahlström & Sundberg, 2017) rather than being limited 

to the nation-state and public government. In that sense, there are impacts and similarities 

in the curricular focus as well as differences between the forms of centralism that took 

place in the 1960s and 2010s reforms to follow Englund (2012). This transformation 

makes the possibilities of democratic influence and criticism of rapidly upcoming political 

proposals more difficult. 

The competence feature of the curriculum was paired with certain understandings of 

technology. Since the 1990s, Swedish school curriculum has commonly described digital 

technologies as tools for learning and work processes, a means of achieving other goals. 

The School Regulation (MoE, 2010), for example, suggested “that schools apart from 

books, also should use other learning tools needed for an up-to-date education.” Similar 

expressions were used in 2017’s national digitalization strategy, but now teachers’ digital 

competence and their ability to choose and use digital tools (also referenced by the Teacher 

Union chair in the introductory quote) was more in focus. The tool metaphor used here to 

describe a preferred technology-based curricular repertoire that teachers should be able to 

choose from risks neutralizing the difference of digital technologies, software, hardware, 

and so on and how they are always inscribed and circumstanced with powers that make it 

hard to criticize or act upon the curricular repertoire. Even so, it presupposes a choice, 

preferably based on pedagogical (not solely economic) considerations. This stands in 

contrast to the establishment of a highly influential infrastructure, with learning platforms 

or learning management systems as a dominating technology (NAE, 2016). At first, these 



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Seminar.net - International journal of media, technology and lifelong learning 14 

Vol. 16 – Issue 2 – 2020 

platform infrastructures had served more local settings and internal school networks, but 

now they evolved as ideas of standardizing administrative and pedagogical processes in 

schools, and they were built into the platform used in school systems. 

Now a new form of global platform infrastructure, digital systems of hardware, software, 

and administration services in one package, has entered the growing competitive school 

market, mainly provided by major internet providers like Google or Microsoft. Major 

marketization reforms had opened the public education sector for commercial interests, 

including an independent profit-making school sector (Englund, 2018). The commercial 

logic of platform capitalism is that the “currency” and volume of data (Srnicek, 2017) 

generated by everyday school use of digital platform technologies and the infrastructures 

already in place make the price of the infrastructure affordable or “free” for schools in a 

costly public education sector (Williamson, 2017). Often, these private interests argue a 

philanthropic perspective that they contribute to the public good by, for example, 

monitoring data activity and student learning. In that sense, they impact considerably in 

imagining a digitalized education system as part of a society with a well-performing and 

well-managed digital economy. In Sweden, the media debate around this has concerned 

teacher workload costs and efforts and the disciplining assessment culture as the backside 

of standardized platform use (Swedish Teacher Union, 2019). More seldom questioned is 

how this “infrastructuralization” and data currency growing out of platform markets is 

changing power relations. The global platforms and school data practices instantiated and 

operating via private–public networks could now extract, assess, and compare local, 

national, or international performances (Hillman, Bergviken Rensfeldt & Ivarsson, 2020),  

working as part of a new global monopolization and centralized power (Englund, 2018). 

Conclusion 
Two main results appear from our analysis of similarities and differences in major Swedish 

school digitalization curriculum reforms over the past 50 years. 

One recurrent configuration is the back to the future argument, where curricula address 

ideal citizenships of emerging future societies and by such argumentative power give fuel 

to reform—starting with the industrial and welfare prosperity of the 1960s, to a break in 

1990s and 2010s societies with internationally oriented information and latest knowledge 

economy versions. The discursive figure is strongly intertwined with inscriptions of and 

investments in digital technologies through school computers, digital information 

networks, and learning platforms, often co-constituted by international digitalization 

discourses and networks. Such socio-technical imaginaries “naturalize ways of thinking 

about possible worlds” (Jasanoff, 2015, p. 24). The alternative and implicit imaginary 

produced is a value-laden counternarrative of a Sweden lagging behind others, having 

uninformed citizens, and poor societal and educational conditions and infrastructures for 

knowledge production and prosperity. Even if digitalization reforms are aligned with such 



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Seminar.net - International journal of media, technology and lifelong learning 15 

Vol. 16 – Issue 2 – 2020 

political tensions, interruptions, and resistance, we argue that there are converging visions 

over the 50 year period of meeting democratic and economic challenges by digital means in 

education. 

The other is that major divergences in digitalization curriculum formations are strongly 

related to governance transformations that had differentiating consequences for 

opportunity and equal accessibility around digitalization. These significant political and 

curricular transformations add to Englund’s analyses (2012, 2018) of the democratic role 

and purpose of education curricula. The pendulum movement between centralized and 

decentralized powers inherent in digitalization politics have been evident, in the 1960s by 

strongly state-led government and nation-oriented curricula, then followed by more locally 

distributed municipal power centers and curricular reform, and again re-centralized via 

more monopolized powers via supra-state and private actors influencing the curricular 

reform. Hence, one general insight is that the digitalization curriculum, often 

internationally oriented toward the economic aspirations of nation-states, such as 

competitiveness and human capital, in recent times is more challenged by and exposed to 

private interests (Picciano & Spring, 2013, p. 173). In the governance break around 1990, 

in particular, changes in political–administrative processes affected curricular processes, 

strongly consistent with (international or supra-based) contexts and a global market 

reform orientation and “generally favourable to decreasing the role of the state in direct 

provision of public services” (Verger et al., 2017, p. 328). Social networks and 

infrastructurally converging models, however, seem to have been internationally 

multidirectional since the early international exchanges around digitalization. As the 1990 

break opens up for private and commercial interests, these also gain influence over school 

infrastructures. Together, state and privatized initiatives have, over time, created a strong 

infrastructure base for Swedish schools, a development not without complications, 

however. Inequality issues and related democratic challenges of school digitization have 

appeared. 

Several of Englund’s analyses (e.g., 2012, p. 21; 2018) exemplify how the Swedish 

curriculum orientation from 1960 to the mid-1980s was driven by strong education 

reforms aimed at counterbalancing student inequalities, followed by the radical break 

around mid-1980s (Englund, 2018), with free school choice, for-profit schools, and more. 

Even if equal access to technology has similarly been a constant struggle in digitalization 

reform since the early 1960s, beginning in the 2010s, a new take on equivalent technology 

access has been used in strategies (e.g. MoE, 2017), allowing for differences and 

unresolved problems of interoperability, standardization, and accessibility of digital 

technologies. The main guarantees provided are market offers of digital competence 

resources and public procurement of global platform infrastructures where digitalization is 

considered a powerful instrument for improving, democratizing, and making different 

aspects of schooling more efficient and streamlined. Implicit in socio-technical imaginary 

is how the opportunity and capacity of technology for learning and competence 



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Vol. 16 – Issue 2 – 2020 

development is addressed toward students, schools, nations, and the future at the same 

time as the technologies are inscribed with certain uses and standards that counteract such 

concerns. 

In the actual implementation of school digitalization over time, the detailed regulation of 

instituting reform seems to decrease, while performativity and assessment regimes 

increase, especially the 2010s’ reform, which allows for different types of data 

introspection and exploitation from private and commercial interests. This includes the 

insertion of commercially provided platform technologies into public education, who can 

now profit from school-generated data activities and get direct access to public education 

sector performativity in different ways. Similarly, the latest decade’s fast and decentralized 

curricular transformations differ from the earlier, more slow-paced education reforms, 

where curricula and investments in, for example, school computers were commonly 

publicly discussed via official organizations of unions and employers. This shift in power 

struggles over curricula makes it important to include new, more ephemeral empirical 

material from private sector actors and ‘actants’ like infrastructures and platforms.  The 

education system and the schools may need to develop knowledge on these new forms of 

curricular changes and an approach to safeguard the interests of the public education 

sector and the values at stake, such as issues of equality, openness, personal integrity, and 

the utilization of schools’ digital work on platforms (Williamson, 2017; Hillman et al., 

2020).  

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	“Back to the future”: Socio-technical imaginaries in 50 years of school digitalization curriculum reforms
	Abstract
	Introduction
	Aim, questions and approach
	Materials and analysis
	Programming and school computers in 1960s centralized curriculum reform
	ICTs, networks, and IT—billions in the 1990s decentralized curriculum
	Adequate competences, coding and platforms in monopolized centralist reform
	Conclusion
	References