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To be truly useful, drones—that is, autonomous flying vehicles—will need to learn to navigate real-world weather and wind conditions.
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This white paper explains how precision timing solutions support reliable PNT architectures across aerospace, defense, and industrial systems.
Featuredpodcast
In this episode, we talk about how an app leveraging 3 sets of machine learning algorithms aims to reduce waste and emissions by creating 3D models of feet and the hoverfly inspired AI that will be keeping airfields safe from small drones via acoustic mapping and filtering.
Featured
Beyond leisure, drones offer enormous potential for developing a wide array of innovative applications that benefit society.
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Learn why growing hardware teams slow down as they scale, and how aligned workflows, parallel collaboration, and real-time design visibility restore speed and momentum.
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In this episode, we explore how the mechanics of bird wings are inspiring new approaches to prevent airplanes from stalling and learn how bio-mimetic designs from nature are paving the way for innovations in aviation, enhancing stability and safety for future flights.
Taking inspiration from bird feathers, Princeton engineers have found that adding rows of flaps to a remote-controlled aircraft’s wings improves flight performance and helps prevent stalling, a condition that can jeopardize a plane’s ability to stay aloft.
TAGGED WITH unmanned aerial vehicles (uavs)
How does connector design influence UAV performance in demanding environments? Harwin explores high-reliability connectors for next-generation UAVs.
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Latest Posts
To be truly useful, drones—that is, autonomous flying vehicles—will need to learn to navigate real-world weather and wind conditions.
4 minutes read
In this episode, we talk about how an app leveraging 3 sets of machine learning algorithms aims to reduce waste and emissions by creating 3D models of feet and the hoverfly inspired AI that will be keeping airfields safe from small drones via acoustic mapping and filtering.
Beyond leisure, drones offer enormous potential for developing a wide array of innovative applications that benefit society.
3 minutes read
An air-breathing jet engine (turbofan) is widely used in aircraft propulsion. AFP systems are used for making the fan blades and containment casing for these jet engines. Here step by step process of making a jet engine blade via the AFP process is explained.
4 minutes read
Could drones provide a safe and effective alternative to sending out ships, helicopters and cranes in future, and could they take some of the pressure off of maintenance staff?
3 minutes read
This is a multicopter that can fly close to bridges, overpasses, and other pieces of large infrastructure to perform high-pressure washing. Water is pumped to high pressure on the ground, then sent to the drone via a hose.
New Airspeeder EXA pilot Fabio Tischler AKA @fabreezy has been training hard in our Speeder flight simulator, in preparation for his first-ever flight test in the field.
2 minutes read
The research objective is to accurately represent the three-dimensional flows and turbulence in the lowest layer of the atmosphere.
3 minutes read
In this episode, we talk about how UAVs are being deployed to control destructive pigeon populations and to study bottlenose dolphin populations.
University of Aberdeen has partnered with Duke University to develop a UAV system capable of studying bottlenose dolphins to determine how environmental changes impact the populations
Alauda Aeronautics and Airspeeder Founder and CEO Matt Pearson looks back on the successes of 2021 and early 2022: from our partnerships with IWC and Telstra, to our EXA Series Drag Race and recruitment of our first pilots.
3 minutes read
To satisfy the increasing requirements for speed and accuracy of Quadcopters, a Ph.D. student proposed novel designs and approaches in estimation and control algorithms.
Alauda Aeronautics Embedded Software Engineer Florian Breut runs through the steps to validate the new control layouts: through simulation, smaller drones and then in full-scale integration with the Mk3C in flight and race testing environments.
2 minutes read
What happens when the radio connection to a drone is interrupted? How can drones fly autonomously even in congested traffic? These and other questions were addressed by the German Aerospace Center (DLR) in the final phase of its City Air Traffic Management (City-ATM) project.
5 minutes read
Protolab's supported General Drones with the creation of numerous high-density and low-porosity parts that made up the Auxdron LFG; a purpose-built drone which responds to emergencies at sea.
4 minutes read
