Researchers monitor a heat and wind experiment with ANDI, an Advanced Newton Dynamic Instrument, at Arizona State University (ASU) during a record heat wave in Phoenix, Arizona, on 20 July, 2023
Researchers monitor a heat and wind experiment with ANDI, an Advanced Newton Dynamic Instrument, at Arizona State University (ASU) during a record heat wave in Phoenix, Arizona, on 20 July, 2023

A sweaty robot may help humans understand impact of soaring heat

What happens to the body when a human gets heatstroke? How can we protect ourselves in a warming planet? To answer these burning questions, Arizona researchers have deployed a robot that can breathe, shiver and sweat.

The southwestern state's capital Phoenix is currently enduring its longest heat wave in history: on Friday, the mercury exceeded 110 degrees Fahrenheit (43 degrees Celsius) for the 22nd day in a row, an ominous demonstration of what's to come in a world impacted by climate change.

For humans, such heat represents a potentially lethal threat, one that is still not fully understood. But for ANDI -- a one-of-a-kind humanoid robot at Arizona State University -- it's a lovely day out.

"He's the world's first outdoor thermal mannequin that we can routinely take outside and ... measure how much heat he is receiving from the environment," mechanical engineering professor Konrad Rykaczewski told AFP.

ANDI is "a very realistic way to experimentally measure how a human person responds to extreme climate" without putting people themselves at risk, Rykaczewski says.

At first glance, ANDI -- which stands for Advanced Newton Dynamic Instrument -- resembles a simple crash-test dummy.

But its epoxy/carbon fiber skin conceals a treasure trove of technology, such as a network of connected sensors that assess heat diffused through the body.

ANDI also has an internal cooling system and pores allowing it to breathe and sweat. There are 35 independent thermal zones and, like humans, the robot -- which cost more than half a million dollars to build -- sweats more from its back.

Until now, only a dozen or so mannequins of this type existed, and none of them could venture outdoors.

They were mainly used by sports equipment manufacturers to test their technical clothing in thermal chambers.

Hyperthermia, a 21st century condition

Researchers hope the robot will provide a better understanding of hyperthermia -- that is, when a body overheats, a condition that is threatening a growing proportion of the world's population as a result of global warming.

For obvious ethical reasons, "nobody measures core temperature increase while somebody's getting heatstroke," says Rykaczewski. But the effects of heat on the human body are still not fully comprehended. ANDI gives researchers a chance to understand.

Accompanied by MaRTy (Mean Radiant Temperature), a mobile weather station that measures the heat reflected by the buildings around it, the robot is taking its first steps outside in Phoenix -- an ideal laboratory in which to prepare for tomorrow's climate.

"How do we change what we wear? How do we change our behavioral patterns, and adjust them to temperatures that are of this order of magnitude?" says Rykaczewski.

Andi is also infinitely reprogrammable. The research team can make "digital twins of the mannequin to look at different segments of the population," explains Jennifer Vanos, a climatologist involved in the project.

For example, the older you get, the less you sweat. Young people will need different protection from athletes or people in poor health. With ANDI, scientists can simulate the thermoregulatory mechanisms specific to each individual.

Phoenix, test lab for the future

They can also test the robot in a variety of situations. For example, Phoenix is dry -- what about humid heat? How does the human body cope in hot winds?

Their research will be useful for designing heat-resistant clothing, rethinking urban planning and protecting the most vulnerable.

In Phoenix, which opens dozens of cooling centers for the homeless every summer, their findings could guide the actions of social workers.

"How long should a person stay in a cooling center to cool off, so that their core temperature goes down to a level that's safe again? We can answer that question with Andi," says Vanos.

The team also dreams of developing low-cost sensors to be used on building sites to adjust working hours according to the heat actually felt on site and the health of the workers -- rather than based on general weather conditions.

That could be a "step towards better safety than just these blank recommendations per city, per state, per country," Rykaczewski says.

Such specific, tailored solutions could have global impacts, redrawing entire cities.

"If the future of Paris looks like Phoenix now, we can learn a lot about how we design buildings," says Rykaczewski.