Latest Articles for Aerospace

This study presents a method to improve fluid-structure interaction predictions for engineering applications.

New method improves path planning for robots and aircraft.

Combining classical and quantum computing to improve fluid dynamics simulations.

This article explores new methods for simulating fluid flows with GPU technology.

Using quantum technology to improve materials against corrosion.

A look into shape optimization techniques and their real-world applications.

An overview of thin shell structures and their significance in engineering.

A new approach to anticipate harmful vibrations in machines to prevent failures.

Introducing disorder in metamaterials improves resistance to fracture and enhances toughness.

A look into weak and strong acoustic turbulence and their impacts.

MAARS framework enhances the security of timing-sensitive tasks in cyber-physical systems.

New method enhances modal analysis accuracy and efficiency for complex structures.

Neural networks improve design efficiency across various engineering fields.

New methods in lattice design improve strength while minimizing weight.

Examining gas dynamics in less dense conditions for better predictions and applications.

A new approach enhances UAV communication for tracking moving targets.

New techniques enable the production of lightweight mirrors for space exploration.

A new method using knowledge graphs and language models enhances data management for satellite testing.

Researching lightweight mirror designs for nanosatellites using additive manufacturing techniques.

A look into control systems, strong chain control sets, and their importance.

This paper discusses improving digital twins for reliable risk assessment and decision-making.

Embedding indicators in structures can alert to overload situations, enhancing safety.

Explore the complex behavior of freezing droplets and their interactions.

Exploring how drones are evolving to operate autonomously and efficiently.

Explore how scout particles enhance tracking and estimation in dynamic systems.

New software framework enhances UAV capabilities through advanced training scenarios.

This article discusses unusual turbulence behaviors observed from active grids in wind tunnels.

A new method enhances spacecraft path planning by addressing uncertainties efficiently.

A new framework combines data-driven techniques with multi-fidelity design for improved optimization.

A new framework enhances responsiveness in systems handling varied task priorities.

A new controller improves timing accuracy in safety-critical systems.

Learn how the Coriolis effect influences weather patterns and object movement on Earth.

A new algorithm enhances accuracy and efficiency in time integration for structural analysis.

Learn how to create a budget-friendly drone for 5G experiments and applications.

Learn how materials respond to forces through elasticity and finite element analysis.

Georgia Tech's GTXR team launches rocket Material Girl, facing challenges and learning opportunities.

Drones improve navigation and decision-making through enhanced localization technology.

A new controller helps drones fly smoothly, saving energy and improving performance.

Learn how MFSVD enhances turbulence analysis for various fields.

Hion controllers combine advanced algorithms with practical applications for managing complex systems.