Robotics & Automation
Our design addresses the challenge of efficiently handling rings that are either stacked or randomly spread on the floor. Manual handling of such small items can be labor-intensive, error-prone, and time-consuming, especially in industrial and logistical settings where precision and efficiency are critical.
First-person view (FPV) drone racing is a televised sport where professional competitors pilot high-speed aircraft through a three-dimensional circuit, achieving astonishing speeds. We built the first AI pilot that flies faster than human world champions: Swift.
This breakthrough represents a significant step forward in robotics research.
NASA Langley Research Center has developed multiple ways for amorphous robots to autonomously move across a surface without needing conventional wheels or legs. Amorphous robots are useful in dusty and sandy environments in which greater mobility, passive shape changing, and immunity to dust and contamination are important.
Innovation:
A team from Caltech, JPL and Dow have designed an autonomous, quadruped, climbing robot that can inspect the interior of complex chemical plant equipment. The motivation is for a safer alternative to human entry into confined spaces.
Over 1,000,000 people are killed each year during urban disasters. 2,500,000 people will be permanently disabled or displaced, and the affected communities will take 20 to 30 years to recover and billions of dollars in economic losses.
The increasing popularity of helium-assisted blimps for extended monitoring or data collection applications is hindered by a critical limitation -- single-point failure when the balloon malfunctions or bursts. We introduce Janus,
The Self-Driving Robot for the Blind (SDRB) is a purpose-built device aimed to assist individuals with visual impairments to navigate safely from a point to another. The navigation of the robot is guided by instructions transmitted from the user's mobile phone,
Crest Robotics' Robotic Puller is a new product for the energy sector designed to assist linemen and riggers with maintaining and upgrading our energy infrastructure. As an evolution on an existing product known as a 'traction motor,' our puller is lighter, stronger, more efficient, and more intelligent,
The LayMaster 3000, designed by Engr. Obasogie Okpamen, is an innovative pipeline construction truck engineered to streamline the process of laying and welding pipelines in difficult terrains. This all-in-one mobile platform integrates essential pipeline construction functions, significantly enhancing efficiency, safety, and operational effectiveness in the field.
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