Economies around the world are preparing for the opportunities and challenges brought about by the next industrial revolution

 

The global economy is entering the Fourth Industrial Revolution (4IR), or Industry 4.0, based on the application of new digital and automated technologies in production processes and service delivery. These changes are bringing emerging markets improved productivity, as well as risks – namely, reshoring and the displacement of human labour by automation. Wealthier emerging markets, such as the Gulf states, which have the resources to invest in new technologies, and those with more established manufacturing sectors, such as countries in South-east Asia, appear best placed to reap the benefits of the 4IR. Many of these economies are creating strategies to manage and encourage the transition to Industry 4.0. Meanwhile, other regions have shown signs of so-called premature deindustrialisation. Latin America and Africa seem more vulnerable to threats arising from technological changes and are at greater risk of being left behind. To avoid such a fate, these regions need to adopt new strategies that will allow them to leapfrog existing stages of industrial and infrastructure development.

Background

Klaus Schwab, founder and executive chairman of the World Economic Forum (WEF) and author of the book The Fourth Industrial Revolution, states that the world has already gone through three industrial revolutions. The first involved water- and steam-powered mechanisms, followed by electricity-powered mass production. The third industrial revolution is also referred to as the digital revolution.

Schwab believes the world is entering into the 4IR, which is “characterised by a fusion of technologies that is blurring the lines between the physical, digital and biological spheres”. A number of emerging technologies are expected to play significant roles in such a revolution, including robotics, artificial intelligence (AI), the internet of things (IoT), machine-to-machine (M2M) communication, virtual reality and 3D printing.

Robotics

Arguably the most consequential area of 4IR-related technology in terms of its impact on labour markets and manufacturing jobs is robotics and other automated processes. Klaus Prettner, professor of economics at the University of Hohenheim in Germany, told OBG that the use of robotics and automated processes in manufacturing started to take off in the 1990s and has been expanding rapidly, posting annual growth rates of around 12%. “Uptake of robotics is very high, and there is currently no sign that it will level off any time soon,” Prettner said. “Until recently, robots were used largely for work that was too dangerous or difficult for humans, but now the technology is improving and becoming more cost-effective, allowing it to be used for an ever-wider range of applications.”

3D Printing

Also known as additive manufacturing, 3D printing is the computer-controlled production of three-dimensional objects from digital models. The technology is widely used to create a range of products, from prototypes to highly customised mechanisms, in a manner that is more efficient and cost-effective. An example is the manufacturing of hearing aids, which need to be individually moulded to the ear of the wearer. “Hearing aids used to be produced manually, which was a complicated process, but now manufacturers can simply scan the ear and use a 3D printer to make the product,” Prettner told OBG.

As a result of such useful applications, 3D printing has witnessed a significant boom since 2008. However, Prettner added that the technology is starting to mature and growth rates will likely level off.

Virtual Reality

Similar to the use of 3D printing for prototype production, virtual reality is particularly useful for the process prior to actual production, allowing designers to explore and interact with virtual renditions of their products, and to identify any design flaws and safety issues. This is particularly valuable in the case of industries producing large, complex and expensive goods. The technology is already being used for such purposes in the aviation manufacturing industry, for example, allowing designers to explore both the interiors of aircraft and complex individual components, such as jet engines.

AI, IOT & M2M: AI, IoT and M2M communication are at an earlier stage of development than robotics, making their impact on industry harder to gauge. AI is not as widely deployed in the services sector as anticipated, according to Prettner; nonetheless, it could have numerous applications in manufacturing and related activities, particularly in the field of autonomous vehicles, which combines AI and IoT technologies. “Autonomous vehicles, should they take off, have enormous potential to drastically change logistics and supply chains,” Prettner told OBG. He forecast such vehicles to be available on a large scale within 10-15 years. Additionally, IoT can enable machine parts in both industrial components and consumer products to automatically send alerts when they malfunction or need replacing, further improving efficiency and safety.

Pace of Change

While Schwab has argued that technological change is taking place at an exponential and unprecedented pace, other observers differ in their opinions regarding the likely extent to which the 4IR will transform international industry and the speed at which it will happen. For his part, Prettner believes the impact of 4IR-related technologies will be felt gradually. “There will not be a real revolution in the foreseeable future,” he told OBG. “While such technologies may work to reverse the decline in productivity growth that has been witnessed in recent decades, this will probably not bring them back to the levels seen in the mid-20th century.”

Efforts to automate industrial processes have not always gone smoothly. In April 2018 Elon Musk, CEO of electric car manufacturer Tesla, told local media that the company had engaged in “excessive automation” at its facilities, and that this partly contributed to its failure to meet production targets. He added that salaries for engineers to maintain robots could sometimes outweigh the savings involved in their use.

Risks

For emerging markets, one of the most prominent risks from automation is the reduced need for lower-cost and unskilled labour, making it less attractive for industry to outsource production. This risks exacerbating a trend already under way in some regions – notably in parts of Latin America and Africa – towards what economist Dani Rodrik has referred to as premature deindustrialisation. The process has been driven by various factors, including rising competition from China; however, increased automation in developed economies, which lessen the attractiveness of cheaper labour in developing countries, also appears to be a contributing factor. A March 2018 report by the Overseas Development Institute (ODI) found that even in the relatively low-tech furniture manufacturing industry, operating robots in the US could become cheaper than paying workers in Kenya by 2033.

South-East Asia

Of the emerging markets covered by OBG, Thailand is arguably leading the way in terms of technological development, thanks in large part to its already high level of industrial growth. For example, it is the sixth-largest vehicle producer in the world.

4IR activity is developing rapidly in Thailand. In 2014 it shipped 2646 multipurpose industrial robots, up 13% on the previous year, according to the “Executive Summary World Robotics 2017 Industrial Robots” report by the International Federation of Robotics. The figure is expected to increase to 5000 in 2020. Although Thailand is actively working on its transition into an increasingly digitalised world, more still needs to be done to ensure that the country maximises its potential. “There will always be a threat from technological disruption, but as we move into Thailand 4.0, the manufacturing sector that has underpinned Thailand’s growth will benefit from a stronger competitive edge,” Porametee Vimolsiri, former secretary-general at the National Economic and Social Development Board, told OBG. “However, in order for Thailand to upgrade its economy, further foreign direct investment is needed, which will require additional efforts to link multinationals with domestic innovators and local firms.”

A key requirement for any country transitioning to the 4IR will be reforming education and training systems to provide workers with skills that are valuable under the new paradigm, such as the ability to programme, maintain and interact with automated systems. “We are pushing for changes to education to develop digital manpower, such as AI and cybersecurity specialists,” Nuttapon Nimmanphatcharin, CEO of Thailand’s Digital Economic Promotion Agency, told OBG. “Universities are also developing curricula focused on topics such as AI, though there will also be a need for more informal and on-the-job forms of training, and an important step will be to encourage educational institutions to work with multinationals.”

Other countries in the region are following suit. In April 2018 Indonesia launched its 4IR-oriented strategy, Making Indonesia 4.0, which the government expects will help boost annual GDP growth by one to two percentage points. The strategy focuses on five priority sectors, namely food and drinks, automotive, textile, electronics and chemicals.

The Philippines’ Inclusive Innovation Industrial Strategy (i3S) is also geared in part towards preparing the country for Industry 4.0. Ramon Lopez, secretary of the Department of Trade and Industry, told OBG that the authorities were aiming to prepare the workforce for technological change. “This may be done through strengthened education modules that align with Industry 4.0, enhanced faculty training on innovation and entrepreneurship, and government subsidies for university research and extension,” he said.

Gulf

Meanwhile, in the Gulf, the UAE has repeatedly demonstrated its desire to remain at the forefront of technological advances and has put in place a raft of initiatives regarding 4IR-related technologies. In September 2017 the country launched the UAE Strategy for the 4IR, which outlines 18 priority areas, four of which focus on manufacturing. These include open additive manufacturing, 3D-printed construction, intelligent grids and intelligent supply chains. Furthermore, in January 2018 the government and the WEF agreed to establish the Centre for the 4IR to promote related technologies and develop a generation of experts, as well as a protocol to regulate the field.

Neighbouring Saudi Arabia, which is seeking to develop its manufacturing sector as part of its Vision 2030 plan, is also starting to look at various 4IR technologies. For example, officials from state energy company Saudi Aramco, speaking at a local symposium on 4IR in May 2018, said that the Kingdom could soon see the introduction of around 11,000 robots to carry out specialised industrial and technical work.

Latin America

Latin America, conversely, has been one of the principal regional examples of premature deindustrialisation. Mexico has historically been a prominent beneficiary of industrial offshoring trends, and is therefore arguably at particular risk from aspects of 4IR that could reduce its competitive advantage. Nevertheless, Mexico is one of the countries leading the charge towards Industry 4.0 in the region, with the government in the process of drawing up a legal framework to regulate the transition. The state of Nuevo León, the country’s pre-eminent hub for advanced industry and manufacturing, is the centre of 4IR-focused activity in the country. In 2016 the state government launched the Nuevo León 4.0 programme, which aims to build an advanced industrial base centred around innovative and automated technologies. In the private sector, the vehicle, aerospace and electronic appliance segments are the main drivers of 4IR activity, with IoT the most advanced technology being utilised.

Africa

Of all the emerging regions in the world, Africa is perhaps most at risk of being left behind by the 4IR. The continent is poorly industrialised, and many countries lack the resources and financing to invest heavily in new technologies. Infrastructure deficiencies, such as shortages or unreliable electricity supply, risk further hindering the transition. Nevertheless, there are some signs of 4IR-related development.

According to “The Future of Jobs and Skills in Africa” report published by the WEF in 2017, Kenya has a relatively high capacity to adapt to future jobs, though it is more immediately exposed to job disruptions caused by the 4IR. South Africa, one of the continent’s main manufacturing hubs, is also highly exposed to such future trends. One of the main themes of the 2017 edition of the AfricaCom conference, held in Cape Town, was exploring the path towards Industry 4.0.

The potential embedded in 4IR for countries to leapfrog previous development stages is one of the most promising aspects for Africa. Infrastructure deficiencies could even help to speed up such development, as was the case when the continent leapfrogged to mobile communications without first investing in costly fixed-line infrastructure. Prettner told OBG that the absence of a fixed-line network in Africa actually facilitated and accelerated the uptake of mobile communications and related technologies such as mobile banking, and suggested that this could also be the case with some 4IR technologies, such as 3D printing.

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