Researchers from the Massachusetts Institute of Technology (MIT), who recently won the Rabobank-MIT Food and Agribusiness Innovation Prize in 2021, got a good indication that their efforts were paying off when a judge offered to have his company associate join them for an early demonstration.
The Development of an Algorithm that Helps Soft Robots Understand Their Surroundings
By Joan Nugent
How a Team from MIT is Using an AI Tool to Detect Melanoma
Using an AI Device and Platform to Help Combat Hand Weakness
Drone Imaging with MIPAR
From MIPAR Image Analysis
The Use of AI in Detecting Marine Litter
The Development of a Smart Smoking Cessation Device: LEVEL-X
Modern Drones Could Mimic 300-Million-Year-Old Dragonflies
Betting on Drones as Smart Agricultural Tools for Pesticide Use in Farms
New Underwater Robot Prevents People from Drowning
New Study Demonstrates Value of AI-Enabled EKG Algorithm in Routine Practice
People Patted by Robot While Conversing Report Better Emotional State
New Robotic Solution Wins Agribusiness Innovation Prize
New Small-Scale Robots can Fertilize, Weed, Cull Single Plants in Field
New Law of Physics Could Help Advance Wide Range of Robotic Technologies
Andrew Spielberg and Alexander Amini
Soft robot development could benefit from an algorithm that optimizes sensor placement allowing such machines to better ‘understand’ their environments.
Luis R. Soenksen Ph.D.
AZoRobotics speaks with Luis R. Soenksen, entrepreneur and medical device expert, currently acting as MIT's first Venture Builder in Artificial Intelligence and Healthcare. Luis was part of a team that has developed a system that uses neural networks to spot 'ugly duckling' pre-cancerous lesions on
AZoRobotics speaks with Ross O'Hanlon from BioLiberty. BioLiberty is a start-up company that is employing AI to help those who suffer from hand weakness.
This page discusses Celera Motion’s Capitan Series to their line of premium performance Ingenia servo drives.
This page details the capabilities of the TeraRanger Evo Mini, a single- and multi-pixel capability in one sensor.
The basis of the fiber alignment system is a very stiff set-up consisting of the H-811 hexapod and P-616 NanoCube® nanopositioner.