Latest Articles for Engineering

A look into modeling complex systems affected by randomness.

Learn the essentials of heat flux and its importance in various fields.

A new flexible tool changes how aeroengines are inspected, enhancing efficiency and safety.

Learn how defects can enhance the properties of metamaterials.

Understanding rounding errors is crucial for accurate calculations in computing.

Discover how the WKB method simplifies challenging equations in physics and mathematics.

Learn how Trefftz-like methods simplify complex mathematical problems.

Discover how electroactive polymers are reshaping technology and materials science.

New modeling technique enhances our grasp of soft robot movements.

Discover how hyper-dual numbers and ruled surfaces shape technology and design.

New methods predict distortion in metal 3D printing, enhancing efficiency and quality.

Learn how linear compartmental models track movement through various systems.

Learn how engineers detect defects in materials using advanced imaging methods.

Explore the fascinating world of nonlinear PDEs and their real-world applications.

A study reveals unique properties of cobalt-nickel-iridium thiospinels and their potential applications.

Understanding optical losses in gravitational-wave detectors improves their sensitivity and effectiveness.

Explore how cohesive models impact material safety and design.

Discover how automatic control keeps systems in check for smooth operation.

Exploring the impact of square waves in analyzing nonlinear systems.

Discover how engineers use MPM to understand material behavior under stress.

Learn how to handle the complexities of indefinite matrices with effective strategies.

Discover how multiphysics simulations enhance our understanding of complex systems.

Advanced alloys are reshaping the performance and reliability of gas turbine blades.

A new method offers faster solutions to linear parabolic equations in science.

An overview of semi-Pfaffian sets and their practical applications.

Discover how variable stiffness elbows are changing the lives of amputees.

Examining how titanium interacts with graphene in electronic applications.

Discover how µCT enhances ion-optics inspection in electrostatic thrusters.

A new approach enhances structure safety with less labeled data.

Innovative soft actuators adapt to fragile objects for safe handling.

Discover how SHAM simplifies complex optimization problems in various fields.

Discover the complex realm of hypergeometric functions and their significance in mathematics.

Explore how data-driven control is shaping the future of technology.

Navigating the complexities of estimating unknowns in seismic studies.

Discover how data-driven LQR transforms control systems without needing prior knowledge.

Discover how neural networks are transforming the approach to solving partial differential equations.

Explore how median-dual regions simplify complex geometry in fluid dynamics.

Discover how protected Delaunay meshes enhance data representation in higher dimensions.

Learn how to predict robot performance and lifespan with effective monitoring.

A new method boosts efficiency in solving optimal control problems using ParaOpt.