Skip to main content
  1. Home
  2. Emerging Tech
  3. News

A lightweight sensor can help sniff out survivors in disaster zones

Add as a preferred source on Google
American Chemical Society

There are a number of different ways that search and rescue teams look for survivors in the aftermath of disasters, such as earthquakes or bombings. A team of researchers from Austria, Switzerland, and Cyprus may have added a powerful new technology to the toolkit, however, in the form of an inexpensive sensor which can be used to help find people trapped in rubble.

The sensor is both light and portable enough that it can be carried by first responders or easily mounted onto a drone. It could help discover survivors in the all-important period of time immediately following an incident, which could mean the difference between life and death.

Recommended Videos

“In the aftermath of an earthquake, many victims are entrapped under collapsed structures and need rapid help, because survival rates drop dramatically within the first hours,” Sotiris Pratsinis, Professor of Process Engineering at ETH Zurich in Switzerland, told Digital Trends. “Currently indispensable for urban search and rescue are dogs with their superior ability to sniff entrapped humans from their scent. However, their availability and operational time are limited and they are rather stress-sensitive. Here, we built a palm-sized and inexpensive sensor array that can detect humans by sniffing their chemical signature as well.”

The team’s diminutive device consists of five sensors in all. Two of these are commercially available sensors for detecting humidity and carbon dioxide. There are also three tailor-made sensors, able to detect the specific breath and skin-emitted chemicals acetone, ammonia or isoprene at even tiny, trace-level concentrations. This is significantly better than the current bulky, expensive sensors currently used for this task, which can miss signals if they are not present at high enough concentrations.

“[We’ve so far] tested our sensors in a human entrapment simulation,” Pratsinis continued. “Volunteers were enclosed in a gas-tight chamber to accumulate their breath and skin emissions. The sensors rapidly detected human presence by sensing tiny amounts of these chemicals, at levels unprecedented for portable detectors — down to three parts per billion. The next step is to test the sensor array in the field with first responders under conditions similar to those expected in the aftermath of a calamity.”

A paper describing the project, “Sniffing Entrapped Humans with Sensor Arrays,” was recently published in the American Chemical Society journal Analytical Chemistry.

Luke Dormehl
I'm a UK-based tech writer covering Cool Tech at Digital Trends. I've also written for Fast Company, Wired, the Guardian…
Claude Code can now browse the web without opening Chrome
The desktop app now includes an in-app browser that can read websites, click links, and interact with web apps.
Claude Code Featured

Developers spend a surprising amount of time bouncing between their code editor, browser tabs, API documentation, GitHub issues, and design files. Anthropic thinks Claude Code should simply do all of that without constantly asking users to switch windows. The company has announced a new in-app browser for Claude Code on desktop, allowing its AI coding assistant to open websites, read documentation, inspect designs, and interact with web pages directly from within the application.

A browser built into Claude Code

Read more
Apple is suing OpenAI over theft of trade secrets in blockbuster lawsuit
The lawsuit claims OpenAI recruited Apple employees and obtained confidential information about unreleased products.
Apple store Apple Building Apple Logo

For the past two years, Apple and OpenAI have been presented as close AI partners. ChatGPT powers key Apple Intelligence features, Siri can hand complex queries over to OpenAI, and together the two companies helped bring generative AI to millions of Apple devices. Now, that partnership has taken a dramatic turn.

What is Apple accusing OpenAI of?

Read more
Home robots can already walk. The hard part is stopping them from crushing your glassware
1X’s NEO uses tactile sensing and force control to handle fragile objects, aiming at the kind of household work humanoids still struggle to do.
Baby, Person, Electronics

A robot can look convincing while walking across a stage and still be useless in a kitchen. Picking up a wet glass demands precision, quick corrections, and enough restraint to avoid squeezing too hard. 1X is tackling that problem with new tendon-driven hands for NEO, its humanoid home robot.

1X says each hand has 25 degrees of freedom, with 22 across the fingers and palm and another three in the wrist. Its joints can yield when pushed instead of staying rigid, giving NEO a better chance of handling household objects without treating every collision like a wrestling match.

Read more