Keyword: Unmanned aerial vehicles

Briefs: Aerospace
Acoustic optimization for anti-phase asymmetric rotor.
Facility Focus: Electronics & Computers

Founded in 1876, the University of Colorado Boulder (CU Bolder) is a public research university in Boulder, CO. The College of Engineering and Applied Science at CU Boulder was founded in 1893. With an...

Briefs: Transportation

Substances such as plastics, metals, and wax are used in 3D printers to make products and parts for larger items. Products created through the 3D printing of plastics include every-thing from...

Facility Focus: RF & Microwave Electronics
Learn about the aviation, space, cybersecurity, and engineering achievements happening at Embry-Riddle.
Briefs: Electronics & Computers
A new fabrication technique helps improve the performance of flying micro-robots.
Briefs: Manufacturing & Prototyping
A new robot developed by Caltech researchers LEO carves out a new type of locomotion somewhere between walking and flying.
5 Ws: Sensors/Data Acquisition
About the size of a grain of sand, the flying microchip (or microflier) does not have a motor or engine.
Briefs: Test & Measurement
Applications include avionics, data storage, process control, reconfigurable manufacturing lines, and civil and structural engineering.
Briefs: Software
UAVs can land on moving unmanned ground vehicles without GPS.
Briefs: Sensors/Data Acquisition
A silicon chip provides a low-cost solution to help machines see the world clearly.
Briefs: AR/AI
The algorithm calculates time-optimal trajectories that fully consider the drones’ limitations.
Briefs: Aerospace
The new algorithm could enable fast, nimble drones for time-critical operations such as search and rescue.
Application Briefs: Unmanned Systems
Unmanned aircraft present a range of optics challenges.
Articles: Materials
A vision-based control algorithm saves a quadrotor after the complete loss of a single motor.
Briefs: Software
This evaluation tool for low-altitude air traffic operations can be used by the unmanned aerial vehicle (UAV) industry.
Briefs: Aerospace
This fuel cell could power a variety of transportation modes such as unmanned underwater vehicles, drones, and eventually electric aircraft.
Briefs: Unmanned Systems
The flexible antenna was designed for active aeronautical satellite communications.
Briefs: Test & Measurement
The system uses infrasonic acoustics for weather monitoring and for drone or UAV activity.
Briefs: Sensors/Data Acquisition
Dangerous “butterfly” landmines can be detected using low-cost drones and infrared cameras.
Briefs: Sensors/Data Acquisition
These tiny aerial robots can operate in cramped spaces and withstand collisions.
Q&A: Imaging
New autonomous robotic devices can survey hazardous or difficult-to-reach sites faster than humans.
NASA Spinoff: Robotics, Automation & Control
The interface enables one person to accomplish tasks that previously required two sets of hands.
Briefs: Aerospace
The new hinge is the key to get loadbearing, large quadrotors to climb a few dozen feet in seconds.
Briefs: Robotics, Automation & Control
Autonomous quadcopters can be trained using simulations to increase their speed, agility, and efficiency.
Briefs: Motion Control
Onboard cameras can be used to keep damaged quadcopters in the air and flying stably, even without GPS.
Briefs: Aerospace
“Smellicopter” uses a live moth antenna to avoid obstacles and seek out smells.
Briefs: Aerospace
The algorithms enable drones to quickly switch between hover and forward flight.
Briefs: Aerospace
NASA's phase-locked rotors reduce noise.
Briefs: Automotive
This detector could help robots, drones, and self-driving cars avoid collisions.

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