The Impact of the Fourth Industrial Revolution on Southern African Higher Education

1. Introduction

The technology, the internet, and the online services are of great importance in today’s global society. The impact of the Fourth Industrial Revolution (4IR) is now being felt in all parts of the world. Developed countries are now integrating 4IR technologies, and this is changing the way humans interact with the physical world in many different ways. This includes digital mobile devices and the internet, 3D printing, distributed control systems such as smart electricity grids and manufacturing systems, machine learning and artificial intelligence, management of big data, algorithms, and the internet of things and cyber-physical systems (Babane, 2022; Dagada, 2024; Dlamini & Kheswa, 2023). These technologies and the work associated with them are changing at a very fast pace. It is believed that there is still much that is not yet known while the boundaries between the physical, digital, and biological world are getting increasingly blurred (Borrageiro & Mennega, 2023).

The understanding and acceptance of 4IR technologies and their implementation will predominantly depend on the level of development of the applied discipline and the nation in which it is established hence education must now rethink its mission to take a more active role in improving innovation and the educational system to balance the broad knowledge economy (Alabi & Mutula, 2022). The perceived threats or opportunities for institutions of higher education have been addressed in many studies. There have been calls to universities to adopt this new industrial revolution; yet, there is need for academia to purchase, implement and competently use these sophisticated technologies (Moll, 2021). The technology divide, along with the skills institutions have available to confidently implement even today’s more straightforward technology, is a cause for concern (Marwala, 2021). Since the 4IR will significantly impact education systems, it is imperative to provide present and future students with the necessary knowledge and skills to succeed or even survive in the new world. Currently, there is a gap between knowledge and skills, and the concern is that a significant portion of the emerging workforce risk becoming redundant (Baijnath, Motala, & Menon, 2023). Hence, there is an urgent need to understand the implications of the 4IR for the mission, curricula, mode of delivery, and structure of higher education. Therefore, this study examined the impact of 4IR on the higher education sector with a specific focus on Southern Africa.

2. Background to the Problem

Southern Africa, in contrast to other sub-Saharan African regions, has a relatively well-established higher education system, which is characterized by an increasing demand for access. The southern African region comprises of countries such as Botswana, eSwatini, Lesotho, Namibia, South Africa, and Zimbabwe, each with its own distinct history and context of higher education. South Africa is the most industrialized country and has the most developed higher education system in the region. It is well known for its strong research output and high publication rates. This is in line with the fact that South Africa holds the majority of public and private higher education resources and has the highest number of researchers, research doctorate graduates, and journal publications in the region. However, after years of significant growth and expansion of the higher education system, the South African government has recently focused on the improvement of the quality of the system, particularly in the area of research output and postgraduate education.

The Fourth Industrial Revolution (4IR) is the most recent and widely discussed knowledge revolution that is expected to bring about far-reaching change to all aspects of society, including, but not limited to, the economy, higher education, and everyday life. According to Dagada, (2024) 4IR is driven by the increasing digitalisation and interconnection of products, processes, and services that are fusing the physical, digital, and biological spheres, leading to the creation of new technologies and concepts such as artificial intelligence (AI), the Internet of Things (IoT), and autonomous vehicles. In terms of its impact on higher education, the 4IR is perceived as a major opportunity to transform and improve teaching, learning, and knowledge transfer in universities worldwide. It is widely argued that the integration of advanced digital technologies such as virtual and augmented reality, 3D printing, and intelligent tutoring systems into the teaching and learning process can help students improve critical thinking, collaboration, and innovation (Ngoqo, 2022). Also, the adoption of modern technologies can help learners and educators alike to develop ‘21st-century skills’, such as complex problem-solving, digital literacy, and emotional intelligence (Borrageiro & Mennega, 2023). However, 4IR also presents challenges to higher education, many of which are yet to be properly addressed, especially in the context of Southern Africa. For example, according to the Mosia (2022), one of the defining features of the 4IR is the increasing digitalisation and interconnection of the world across geographical, cultural, and income lines. This means that nations and societies that are already behind in terms of technological development will fall even further back, as the ‘first movers’ of the 4IR, such as those in the developed world, are advancing at an exponential rate. This phenomenon is often referred to as the ‘4IR paradox of globalization’, whereby certain parts of the world continue accumulating the benefits of technological advancement while others are left further behind (Lewis, 2020). This is particularly relevant to Southern African countries (Maringe & Chiramba, 2022a), as the region still faces considerable challenges such as poverty, political instability, and lack of infrastructure that are preventing the region from fully participating in the 4IR. Also, limited scholarly attention has been given to explore and understand the 4IR in the context of Southern African higher education. As a result, there is currently very little evidence or literature that systematically investigates the challenges and opportunities that the 4IR poses to this region, which means that higher education leaders and policymakers are working in an evidence vacuum when addressing the issue.

3. Purpose of the Study

This section, explains the purpose of the study, the reasons behind the decision to research this particular field, and the significance of the study. The purpose of the study is to examine the impact of the Fourth Industrial Revolution (4IR) on higher education in Southern Africa. The research identifies the challenges faced by Southern African countries as they adapt to the requirements of 4IR in the higher education sector. The study is important in the sense that the findings of the research will help to understand the real situation of Southern African countries in terms of adapting to the 4IR in higher education. It will contribute to the existing body of knowledge in the field of 4IR and the higher education sector in the context of Southern African countries. The research outcomes will provide clear recommendations to policymakers and the leaders of the higher education institutions in the region. It will support them to take strategic actions to align their vision, missions, and structures with the demands of 4IR. With these initial insights onto the purpose of the study in mind, the article will go on to discuss the essential concepts and implications of 4IR in higher education later in the second section.

4. Conceptualising 4IR

The second section presents the definition of the Fourth Industrial Revolution and identifies its main characteristics. Described as a technological revolution that will fundamentally alter the way people live, work, and relate to one another (Cele, Bhana, & Matli, 2023) the Fourth Industrial Revolution is said to be different from the previous three revolutions in terms of its velocity, scope, and systems impact. It is identified in the literature as a revolution that is ‘fusing’ the physical, digital, and biological worlds together - and creating both opportunities and challenges across all sectors, including education (Maringe & Chiramba, 2022b). The main technologies that are driving the revolution, such as artificial intelligence, gene editing, and biotechnology, and the impact of these technologies on industry and society shows the power of 4IR.

5. Impact on Higher Education

The Fourth Industrial Revolution is having a transformative effect on the world. Unlike previous industrial revolutions which were driven largely by analogue and manual processes, the 4th is characterised by a range of new technologies that are fusing the physical, digital and biological worlds, impacting all disciplines, economies and industries (Mkansi & Landman, 2021). The creation of smart products such as smart cars, smart watches and smart houses has been made possible by the advancement of the internet. Companies and individuals can gather more and more data, use big data to their advantage and customise products and services for the end user. This has led to “smart factories” creating a so-called “fourth industrial revolution”. By being more efficient in this process of mass customisation and using smart technology to maintain a lean supply chain, the revolution is changing the way manufacturers market and sell products. Higher education is not spared of these rapid changes that are spearheaded by technology.

The current landscape of higher education is also shaped profoundly by the transition from an industrial economy to a knowledge economy. The shift requires a range of new skills and capabilities, including a re-imagining of the role of higher education (Tsakeni & Molotsi, 2022). Quality enhancement, student success, student learning and development, learning and teaching resource effectiveness and innovation in areas such as curriculum development and delivery are all major areas of focus for HEFCE - the Higher Education Funding Council for England. The purpose of this article is to discuss the research challenges facing Southern African higher education institutions in the context of the 4th Industrial Revolution (4IR).

6. Research Challenges in Southern African Higher Education

The previous section of this study discussed the opportunities and challenges presented by the Fourth Industrial Revolution in relation to higher education as a general concept. Moving from this general focus to the specific challenges faced by Southern African higher education institutions means moving from the theoretical to the practical; from thinking about the ways in which technology and the 4IR are affecting education worldwide, to considering how these large-scale shifts are impacting the day-to-day experiences and practices of teachers, students, and academic leaders in a particular part of the world (Mhlanga, Denhere, & Moloi, 2022; Mutekwe, 2022).

7. Findings and Discussion

The study was a comprehensive literature review, to examine the impact of 4IR on the Southern African higher education context. What became immediately apparent from the discussions are the multiple and competing definitions of the concept of 4IR, in both academic literature and the wider public discourse. However, upon analysis, it became clear that there is a broad consensus around what constitutes the key technological drivers of 4IR, including artificial intelligence, machine learning, Internet of Things, advanced wireless technology, robotics, and 3D printing, and their impacts on various aspects of life and work. This includes the emergence of ‘smart’ workplaces and communications, new employment and economic opportunities, and fundamental changes in the political and social fabrics of modern societies. While the impact of 4IR on the economy, society, and especially the labor market, has been widely debated and discussed, the implications for education, and in particular for the higher education sector, have not been adequately interrogated, especially with regards to the context of Sub-Saharan Africa. This study also found that there is a tendency among both the academic and practitioner communities to focus on exploring the potential of the technological advances associated with 4IR in ‘traditional’ disciplines and industries such as manufacturing and computer science, ignoring the emerging cross-disciplinary fields that are created and nurtured by the interactions between different technologies and technological applications. Results from the study suggested that the impact of 4IR on higher education can be encapsulated by its potentials in revolutionizing the way knowledge is produced, accessed, and disseminated, i.e., through innovative pedagogical approaches and cutting-edge research activities, and the way higher education institutions are governed and operated, commonly known as the digitalization of higher education.

Three key opportunities which 4IR can deliver for higher education were identified from the study: innovative and technology-enhanced teaching and learning experiences (for example, adaptive learning and automated assessment), dynamic and multidisciplinary research and innovation environments (such as the emergence of ‘technopoles’ and research hubs), and enhanced operational and strategic efficiencies in higher education institutions (in areas ranging from effective resource management to data-informed strategic planning). However, it is equally important to recognize the critical challenges that may undermine effective implementation and realization of these identified opportunities. These include the slow pace of change and ‘future inertia’ amongst higher education communities, the lack of alignment between 4IR-driven innovation and the strategic priorities of both individual institutions and national higher education systems, and the emergence of technological ‘elitism’ and social and economic divide arising from the unbalanced development and adoption of advanced technology among different regions and social groups.

The 4IR has mostly important implications for those who remain connected around the industrial economy. In addition to the generally positive benefits that the 4IR offers to all, many of the potential concerns may result from a fostering of a bias for the already privileged and thereby exacerbate social inequality which is likely to disproportionately affect the poor. Given that the 4IR is not about a single variable - for example, automation, and as such, different trends or technologies may exert different pressures on the educational system and students in relation to their work as they transition through their lives. Due to the large heterogeneity of regional and national education systems, as well as the different levels of achievement, developmental trajectories of students and different economic and social situation of students, it is likely that the impacts of the 4IR are not uniform in the region and therefore there is no one-size-fits-all assessment. Higher education institutions must not only focus on pure skills delivery but must expand the depth and reach of their training to include liberal skills like creativity, empathy, mental flexibility, critical thinking and social, cultural and ethical values, all of which are important in delivering the humanistic, social and ethical elements of learning.

8. Implications and Recommendations

The research findings lead to a series of possible policy implications and recommendations for addressing the identified research challenges. By providing the policy makers and higher education institutions’ leadership with useful insights, this study could be leveraged to influence positive changes in the sector particularly in the wake of the impacts of technology on the higher education landscape, associated with the Fourth Industrial Revolution. Firstly, the study suggests that policy makers need to actively advocate for the provision of resources and development programmes to support technological capacity among faculty members within the Southern African higher education sector.

Secondly, the findings highlight that there should be a collaborative engagement among key stakeholders within the higher education sector to not only align the curriculum with the broader societal needs as stipulated in Vision 2030 of most of the Southern African countries, but technology based solutions for improving quality and accessing learning through innovation as well. The study therefore, implies that policy makers and the leadership of higher education institutions should start to foster multi-stakeholder collaboration for innovative, technology-driven approach to quality assurance and accreditation exercises. The study suggests that by reconceptualising quality management in the context of the Fourth Industrial Revolution, and emphasis on “adaptive”, “flexible” and “continues improvement” processes as opposed to “compliance” and “auditory” driven traditional quality assurance mechanisms, significant improvements in quality could be realised as we move from “off-line” towards “real-time” and “meta-level” quality control processes associated with the use of Big Data and Machine Learning driven analysis in learning and teaching activities. This would require the policy makers to embark on a progressive review of the current legislative and regulatory framework to accommodate digital transformation within the higher education landscape.

Last but not least, the study suggests that a national forum that could be state initiated under the guidance of the Ministry of Higher and Tertiary Education, Science and Technology Development, with active participations of innovation hubs, industry players and civic societies, should be established. Such a forum would be playing both an advisories as well as assessment roles tasked to spearhead the digitalisation of curriculum through considering state-of-the-art technologies for an inclusive and sustainable development of technological based learning environment within the Southern African countries.

9. Recommendations for Future Research

First, researchers should explore in more depth the specific research challenges facing higher education described in the paper. This may involve looking at how institutions in Southern Africa compare to those in other regional contexts, or may involve trying to measure the extent of the digital divide through large-scale data collection and analysis. Secondly, opportunities for comparative research should be explored. Experts have noted the unique position of higher and further education in the Southern African context, as facing a dual pressure to respond to the demands of 4IR while simultaneously addressing the huge social and economic disparities which exist in the region. By comparing policy and practices in a range of different global contexts, researchers may be able to develop a deeper understanding of how the challenges and opportunities articulated by 4IR are being negotiated in different kinds of institutional and socio-economic contexts.

Thirdly, and extending from discussing the idea of comparing different global contexts, research should explore the impacts of global interactions and digital networks. This might involve looking at diverse issues such as the development of online learning, the influence of higher education on global economic networks, or the increase in the use of digital tools and international collaborative projects to drive research-intensive agendas. This kind of work might involve going beyond the level of formal teaching and explore the potential of digital education to facilitate and encourage dialogue and peace building and the connections between higher education, the public and policy makers. Finally, exploring the experience and aspirations of students in higher education may be a rich area for future research. As students start to seek higher education opportunities in colleges and universities which will prepare them for lives and careers in a fast-changing digital world, researching the expectations and experiences of students and how institutions are seeking to provide new, digitally enhanced education may provide a relevant and engaging focus for both researchers and the public. By actively involving student communities in research, and by communicating the findings and implications of research to students, it is possible to contribute to the generation of knowledge that fosters deeper understandings and co-operative relationships between students, policy makers and higher education providers in the effort to navigate this rapidly changing landscape. Exploring each of these research areas would provide valuable contributions to our understanding of how 4IR is and might continue to shape higher education practices, policies and the student experience globally and in the unique context of Southern Africa.

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