updated on 20 November 2018
QuestionWhat can we expect from technology in 2050?
Like it or not, the future seems to be rushing upon us with an ever increasing speed. It is difficult enough to keep up with everything that has to be done on a daily basis, but every now and then it is useful to look around and see what is coming up. In that regard, the recently-published report by Balfour Beatty, Innovation 2050: A Digital Future for the Infrastructure Industry, offers some interesting insights into the way the industry is heading. While some of the report is, as you might expect, an advertisement for what Balfour Beatty is doing, it also usefully draws together various strands of technological development which are undoubtedly going to have an effect on everyone. What then, can we expect next?
The Balfour Beatty report contains a number of predictions for 2050. As is so often the case with things that look forward to the future, I suspect that some of these will not actually have taken place by then but there will be other developments which will be far more advanced than we would dare to predict now. Here are some of the highlights:
Inevitably, as technology continues to accelerate and affect the industry directly, the sector will need a more agile workforce with new skills. Among all this talk of "digital natives" and the IT-savvy, technologically aware workforce, there lurks a spectre of what is often euphemistically referred to as "jobless growth": companies increasing their profits without increasing the workforce. Further, while new jobs and new industries will be created, some will disappear. Humans are likely to be replaced in repetitive, unskilled jobs by robots and AI, and certain aspects of traditional industries such as manufacturing are likely to decline as new industries emerge. It is predicted that 65% of children at school today will work on jobs that do not yet exist. There may be a greater need for more specialisation, particularly in skills that require technological input and understanding. Flexibility and desire to upskill regularly will become vital attributes in the jobs market.
The Balfour Beatty report also considers that the use of 3D and 4D printing will result in a significant increase in the speed and ease with which the construction process can take place. If (like me) you had no idea what 4D printing is, apparently it refers to self-transforming objects which alter their shape in response to a stimulus, such as a change in heat, sound or moisture. This could lead to the creation of smart objects that react to changing environmental conditions.
It is suggested that all surfaces will become potential interface points with computers, devices and networked technology. This will be part of new materials technologies bringing about changes in the way the built environment looks. Certain technologies already enable flooring to harness the energy of vehicles or people moving on surfaces and this is likely to become commonplace. The materials used in the construction process are likely to become far more flexible in their use and increasingly, via the Internet of Things, able to communicate with each other and their owners through the use of self-healing and self-maintaining technologies.
Obviously there are challenges posed by these new developments. There will be a massive increase in energy consumption given the colossal amounts of data which will need to be processed. This means that infrastructure design will need to take account of climate projections and impacts, the use of renewable energy will need to increase significantly and new ways of storing data will have to be developed. At the same time, processing and using the data in real time will get more difficult simply because there will be so much of it.
The inevitable debates around privacy versus the benefits of data are bound to become far more acute and cyber security will become even more important. We are already aware of the effects of hacking and cyberattack. Earlier this year the "WannaCry" ransomware attack hit 150 countries – the worst attack ever on critical infrastructure. Regular assaults of this sort are likely to become the norm as new ways are found to exploit cyber weapons which target old, weak and under-protected software systems. Sadly, the NHS will continue to be a major target for this reason.
For the construction industry, this will pose a particular challenge. Large projects increasingly rely upon supply chains and contractors from a number of different countries collaborating on the collating and sharing of large amounts of data. Internet connected solutions and remotely accessible systems such as BIM open up the risk of cyberattack. At particular risk are Building Management Systems on which many, hospitals, government buildings, banks, research facilities and prisons are increasingly reliant. Cyber security as an aspect of every day construction work will become increasingly prevalent.
Ultimately, this is not a question of choice about whether we accept what is happening or not: it is going to happen anyway and the question is really how best to approach it. Given its inevitability, the issue is how you cope, not whether or not you embrace technology at all.
Simon Rowland is a partner in the construction and engineering team of Womble Bond Dickinson. This article was originally published in SpecFinish Magazine in November 2017.