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Prof. Dr. Vander Resende, Doutorado em Lit Bras, pela UFMG; Mestre em Teorias Lit e Crít Cul, UFSJ

quinta-feira, 2 de abril de 2020

Coronavirus: what engineers could do?

02apr2020  26mar2020
... put a virologist, a social scientist and an engineer in the same room (or videoconference), and new ideas to delay transmission and safely allow wider elements of day-to-day life continue could emerge.
No country, has managed to deploy engineering solutions in a way that also helps day-to-day life continue in some safe way (in coronatimes). 

When you look at the potential that engineering can bring to this in
  • a public health (preventive) rather than
  • a medical (restorative) setting,
it shows how much we're actually missing.
SAGE for coronavirus comprises two groups,
one which draws on the epidemiology of historic pandemic flu,
and one that focuses on the social science of public health. These groups feature experts across medicine, epidemiology and social sciences only.

But engineers? Not likely, it seems. There are no dams here to fix … or are there? Clearly the infection needs to be contained, and allowed to trickle out in a controlled flow in order for the whole system to be managed safely into a less critical state.
That sounds like an engineering challenge to me.
When we look at which countries have done relatively well in tackling the virus, there are signs of (computer) engineering at work. In South Korea it is reported that an app—Corona 100m—helped mobilise crowdsourced information on infections, both possible and actual. In China, part of the "effectiveness" in containing the deaths from the virus is reportedly due to the rapid construction of new hospitals. No country, however, has managed to deploy engineering solutions in a way that also helps day-to-day life continue in some safe way.
Ultimately, we need to design creative, workable and effective responses that better balance protection from the virus with disruption to daily life. Instead, we have scientists with fantastically  about the biology and epidemiology of viruses, and maybe about the cognitive tricks that lean us towards doing one action over another.

What engineers could do
Let's pause for a moment and think about what could have been done to help slow the spread of COVID-19, without also shutting down the whole of society, with potentially huge, long-term economic and social consequences.
If virologists can give some insight into the main sources of transmission, could engineers design specific, deployable responses to that?
I'm not an engineer or a virologist, but I study how science, technology and engineering can be used in policy to change the world for the better. So while I don't have the answers, I can start the ball rolling.
What about focusing on the mass production and distribution of on-street hand sanitizer, or gloves treated with new, safe anti-viral coatings?
There may also be new ways of opening doors without grabbing the handle, or indeed pressing lift buttons.
Could we design better protective infrastructure for shop workers facing customers at tills?
What about bring-your-own trolley handles?
Or new kinds of easy-to-make and deploy protective face gear for the elderly and vulnerable?
Engineering solutions would have been especially effective early on during the outbreak, before measures like lockdown were introduced. But even during lockdown, they could help minimize the spread of the virus in the parts of society that are still open, such as banks and supermarkets.
Sat here on my own, I can't solve the problem, but put a virologist, a social scientist and an engineer in the same room (or videoconference), and new ideas to delay transmission and safely allow wider elements of day-to-day life continue could emerge.
When you look at the potential that engineering can bring to this in
  • a public health (preventive) rather than
  • a medical (restorative) setting,
it shows how much we're actually missing. It may be that these particular (disinfectant) solutions are not workable at scale, but the point is that engineers could probably come up with other design solutions that would work. It's their job.

The problem is, often social scientists just don't speak to or mix with engineers very much. It's a deep-rooted problem, like two parts of a family that fell out years ago over some obscure argument that nobody remembers, but everyone repeats.
I work at the Science, Technology, Engineering and Public Policy department at University College London. We see it as part of our mission to bring scientists and engineers together so everyone can benefit. The  case study shows now more than ever how much we need that kind of collaboration.

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