A. Silburt et al/Arxiv.org 2018
Coming to a clinic near you
In April, the U.S. Food and Drug Administration permitted marketing of the first artificial intelligence that diagnoses health problems at primary care clinics without specialist supervision (SN: 3/31/18, p. 15). The program, which inspects eye images for signs of diabetes-related vision loss, could be a boon for people in remote or low-resource areas where ophthalmologists are scarce. Other eye-inspecting AI programs are learning to recognize everything from age-related vision loss to heart problems.
One artificial intelligence is a celestial cartographer after Galileo’s own heart. The algorithm studied a third of the moon’s surface to learn what craters look like (SN Online: 3/15/18). When playing crater “I Spy” with a different third of the lunar landscape, the AI found 92 percent of previously discovered craters and spotted about 6,000 pockmarks that humans had missed. If focused on rocky planets and icy moons, this program could give new insight into the solar system’s history.
Ear to the ground
Artificial intelligence that predicts where earthquake aftershocks will hit could help people in high-risk areas better prepare for these dangerous seismic shake-ups. A program that studied characteristics of over 130,000 earthquakes and their aftershocks learned to predict aftershock locations much more accurately than traditional techniques (SN Online: 8/29/18).
Seeing is not believing
Of course, smarter artificial intelligence isn’t always good news. One AI that raised eyebrows in 2018 generates realistic fake video footage by making the subject of one video mirror the motions and expressions of someone else in a different clip (SN: 9/15/18, p. 12). In the wrong hands, this AI could be a powerful tool for spreading misinformation (SN: 8/4/18, p. 22).
Automated camera traps, which snap photos of animals in their natural habitats, can help researchers and conservationists track animal behavior. But these wildlife-watching systems take more photos than any human has time to review. Enter a master naturalist artificial intelligence that learned to identify wildlife by studying 1.4 million hand-labeled images collected by the Snapshot Serengeti citizen science project. This algorithm, described in June in the Proceedings of the National Academy of Sciences, labels the number, species and activity of animals in each new picture.
Designing artificial intelligence to mimic the activity in specific regions of the brain could help scientists better understand how our minds work. An AI programmed with virtual versions of specialized brain cells called grid cells found shortcuts through a virtual maze better than an AI without the mapping cells (SN: 6/9/18, p. 14). The grid cell–equipped AI’s nimble navigation suggests that grid cells in mammal brains do more than give animals an internal coordinate system. The nerve cells may also help us map the shortest route to our destination.
Competing companies join forces
A new artificial intelligence lets competing drug companies share information without revealing secrets (SN Online: 10/18/18). This secure setup using a novel cryptography system may encourage drug companies to pool their resources, creating larger libraries of training data to beget smarter AI. Programmers have used the system to train an AI that predicts which drugs will interact with which proteins in the human body to develop new medical treatments. AI could also use this system to analyze confidential hospital health records to devise patient treatment plans and make prognoses.
Humans are naturally good at ignoring background babble to focus on what a single person is saying. Computers, not so much. But now, an artificial intelligence analyzes both audio and visual cues, like lip movements, to pick out what individual speakers are saying in noisy videos (SN: 7/7/18, p. 16). Such keen-eared AI could write more accurate captions and power virtual assistants that better understand voice commands in loud settings.
M. Temming. Artificial intelligence crowdsources data to speed up drug discovery. Science News Online, October 18, 2018.
M. Temming. A new computer program generates eerily realistic fake videos. Science News. Vol. 194, September 15, 2018, p. 12.
C. Gramling. Artificial intelligence could improve predictions for where quake aftershocks will hit. Science News Online, August 29, 2018.
M. Temming. People are bad at spotting fake news. Can computer programs do better? Science News. Vol. 194, August 4, 2018, p. 22.
M. Temming. A new AI can focus on one voice in a crowd. Science News. Vol. 194, July 7, 2018, p. 16.
M.S. Norouzzadeh et al. Automatically identifying, counting, and describing wild animals in camera-trap images with deep learning. Proceedings of the National Academy of Sciences. Vol. 115, June 19, 2018, p. 5716. doi: 10.1073/pnas.1719367115.
M. Temming. This AI uses the same kind of brain wiring as mammals to navigate. Science News. June 9, 2018, p. 14.
M. Temming. In the future, an AI may diagnose eye problems. Science News. Vol. 193, March 31, 2018, p. 15.
M. Temming. AI bests humans at mapping the moon. Science News Online, March 15, 2018.
M. Temming. ‘Machines That Think’ predicts the future of artificial intelligence. Science News. Vol. 193, February 17, 2018, p. 28.
M. Temming. Anshumali Shrivastava uses AI to wrangle torrents of data. Science News. Vol. 194, October 13, 2018, p. 26.
M. Temming. Ask AI: How not to kill online conversations. Science News. Vol. 193, February 3, 2018, p. 5.