Latest Articles for Telecommunications

New methods improve the simulation of dynamic electromagnetic materials and their applications.

Research investigates stability and behavior of bright solitons in fractional diffraction environments.

Discover the unique features and applications of Poincaré-Bessel beams in optics.

Bayesian techniques improve atomic clock precision for various applications.

Addressing challenges and proposing solutions for XR in upcoming mobile networks.

Innovative approaches enhance message passing in complex systems and real-world applications.

Learn how MPUE and beamforming improve 5G connectivity and performance.

Exploring how optical chirality affects light interaction in materials.

Discover how quantum technology is transforming clock synchronization through satellites.

A new method improves uplink synchronization for NB-IoT using change point detection.

Exploring the benefits of polychromatic T-matrix for light interaction analysis.

Liquid-crystal devices show promise for enhancing terahertz technology across different fields.

Examining how modulation instability influences wave behavior and real-world applications.

A method to generate multiple solitons from a single light pulse.

A new strategy to manage MAPs in 5G networks for better service.

A novel approach enhances the performance of one-bit massive MIMO systems.

Exploring the importance of XAI in enhancing O-RAN network efficiency.

Research shows low interference risk from indoor Wi-Fi 6E devices.

A novel method for creating smaller, cost-effective visible lasers.

New methods using GaAs WGMRs promise improved THz radiation applications.

New methods improve automatic speech recognition performance amid background noise.

Researchers improve quantum dash lasers using optical noise for better signal performance.

Explore advancements in graph connectivity and their practical applications across various fields.

Seq2Peak enhances predictions for peak-hour demand across various industries.

This article discusses using HRL to enhance O-RAN performance and efficiency.

A look into codes in graphs and their roles in various fields.

A new method improves network slicing management with attention mechanisms.

Learn about frames and their important role in signal representation and data analysis.

Discover the unique properties and applications of Helico-Conical Vector Beams.

A fresh approach to virtual network requests enhances resource management for service providers.

Researchers study how uneven light amplification affects pulse shape and behavior.

Research reveals methods to synchronize mechanical systems using magnetostriction in cavity magnomechanical setups.

Research highlights the benefits of GRIN fibers in improving light signal quality.

Examining vulnerabilities and solutions in the 5G communication landscape.

Exploring the potential of quantum-dot lasers for high-speed communication applications.

Exploring strategies for equitable resource distribution in modern wireless networks.

The next generation of networks focuses on customizable solutions for diverse applications.

Exploring a new architecture for 6G mobile networks to improve user signaling and data management.

Innovative photonic processors can combat RF interference for safer wireless communication.

Exploring network slicing and energy efficiency in next-generation telecom networks.