Latest Articles for Engineering

Discover how curves interact with various surfaces and their applications.

Discover the dynamics of curves in dual space and their real-life applications.

A new method improves how robots learn safe behaviors.

Exploring the game-changing potential of graphene nanoribbons in electronics and materials science.

RoboFail helps robots foresee failures, ensuring safer performances in unexpected situations.

New model sheds light on microcrack formation in materials to enhance durability.

Discover how wireless control systems function and the challenges they tackle.

A new method improves understanding of fluid dynamics affected by magnetic fields.

Discover the evolution of bilevel optimization and its impact on various fields.

Discover the magic of ferrofluids and their stunning behaviors in magnetic fields.

Discover the role of radially-compressed Toeplitz operators in mathematics and applications.

Discover how optimal transport transforms logistics and engineering design.

Discover how light and matter interact in two-dimensional photonic crystal waveguides.

Combining evaluated and un-evaluated solutions can enhance optimization efficiency.

Learn how periodic solutions shape our understanding of dynamic systems.

Discover how testing methods ensure the safety of self-driving cars.

Learn how windowing techniques improve aerodynamic shape optimization for vehicles.

UAVs use smart rules to move safely and efficiently through obstacles without talking.

New methods enhance the study of electrical conductivity in materials.

Explore how temperature and density affect particle movement in liquid metals.

How algorithmic design influences Casimir-Polder forces for advanced technology.

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.