News by Subject Technology & Engineering

News Release 17-Oct-2019

Darn you, R2! When can we blame robots?

A recent study finds that people are likely to blame robots for workplace accidents, but only if they believe the robots are autonomous.

Journal: Human Factors: The Journal of the Human Factors and Ergonomics Society

News Release 17-Oct-2019

Giving robots a faster grasp

Massachusetts Institute of Technology

MIT engineers have found a way to significantly speed up the planning process required for a robot to adjust its grasp on an object by pushing that object against a stationary surface. Whereas traditional algorithms would require tens of minutes for planning out a sequence of motions, the new team's approach shaves this preplanning process down to less than a second.

Journal: International Journal of Robotics Research
Funder: Mathworks, MIT-HKUST Alliance, National Science Foundation

News Release 17-Oct-2019

Bio-circuitry mimics synapses and neurons in a step toward sensory computing

DOE/Oak Ridge National Laboratory

Researchers at the Department of Energy's Oak Ridge National Laboratory, the University of Tennessee and Texas A&M University demonstrated bio-inspired devices that accelerate routes to neuromorphic, or brain-like, computing. Their discovery could support the emergence of computing networks modeled on biology for a sensory approach to machine learning.

Journal: Nature Communications

News Release 17-Oct-2019

Highest throughput 3D printer is the future of manufacturing

Northwestern University

Northwestern University researchers have developed a new, futuristic 3D printer that is so big and so fast it can print an object the size of an adult human in just a couple of hours.

Journal: Science
Funder: Air Force Office of Scientific Research, US Department of Energy, Sherman Fairchild Foundation

News Release 16-Oct-2019

Clingfish biology inspires better suction cup

University of California - San Diego

A team of engineers and marine biologists built a better suction cup inspired by the mechanism that allows the clingfish to adhere to both smooth and rough surfaces. Researchers reverse engineered the clingfish's suction disk and developed devices that cling well to wet and dry objects both in an out of water. The devices can hold up to hundreds of times their own weight.

Journal: Bioinspiration & Biomimetics
Funder: Office of Naval Research grant number N000141712062

News Release 16-Oct-2019

Assembler robots make large structures from little pieces

Massachusetts Institute of Technology

Systems of tiny robots may someday build high-performance structures, from airplanes to space settlements.

Journal: IEEE Robotics and Automation Letters

News Release 16-Oct-2019

Do we trust artificial intelligence agents to mediate conflict? Not entirely

University of Southern California

We may listen to facts from Siri or Alexa, or directions from Google Maps or Waze, but would we let a virtual agent enabled by artificial intelligence help mediate conflict among team members? A new study says not just yet.

Meeting: IEEE International Conference on Robot & Human Interactive Communication
Funder: Air Force Office of Scientific Research

News Release 15-Oct-2019

Putting the power of a film director in an autonomous drone

Carnegie Mellon University

Commercial drone products can tackle some automated tasks, but one thing those systems don't address is filming artistically. A team led by Carnegie Mellon University researchers has proposed a complete system for aerial cinematography that learns humans' visual preferences. The fully autonomous system does not require scripted scenes, GPS tags to localize targets or prior maps of the environment.

Meeting: International Conference on Intelligent Robots and Systems

News Release 15-Oct-2019

AI could offer warnings about serious side effects of drug-drug interactions

Penn State

Researchers at Penn State have developed a machine learning system that may be able to warn doctors and patients about possible negative side effects that might occur when drugs are mixed.

Journal: Biomedical and Health Informatics

News Release 14-Oct-2019

Protecting smart machines from smart attacks

Princeton University, Engineering School

Machines' ability to learn by processing data gleaned from sensors underlies automated vehicles, medical devices and a host of other emerging technologies. But that learning ability leaves systems vulnerable to hackers in unexpected ways, researchers at Princeton University have found.

Meeting: 26th ACM Conference on Computer and Communications Security (CCS)
Funder: National Science Foundation, Intel Corporation, Office of Naval Research

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