Latest Articles for Signal Processing

Exploring NOMA and dynamic metasurface antennas for improved connectivity.

This approach enhances indoor positioning accuracy using self-supervised deep reinforcement learning.

Introducing a new algorithm to improve quantum phase estimation accuracy and efficiency.

Fluid antennas offer new flexibility for modern wireless systems.

A new framework enhances wireless signal recognition using limited labeled data.

Comparing QSVT and window functions to improve quantum phase estimation success rates.

Research enhances methods for extracting frequencies from noisy signals.

This study sheds light on Gabor frames and their relationship with Hermite functions.

Researchers enhance signal detection in noisy environments using Expectation Propagation techniques.

New method enhances feature extraction for diagnosing bearing faults in machinery.

Explore the role of spectral moments in reverberation chamber testing and the impact of noise.

SVAM enhances beam alignment in mmWave systems using innovative sensing techniques.

A new approach for managing communication in 6G systems.

Investigating deep learning models to analyze MEG data for improved brain signal understanding.

Examining the difficulties of measuring cosmic signals from the early universe.

A new method enhances parameter tracking in adaptive systems with limited data variation.

OTFS modulation is changing the landscape of wireless communication with improved performance.

Innovative surfaces improve signal performance in wireless systems.

A new method using neural networks improves optical communication performance.

Learn how simpler functions can help analyze complex data effectively.

Learn how FDOA techniques help locate moving signal sources accurately.

A method to recover both magnitude and phase of complex signals while quantifying uncertainty.

Exploring multi-hop multi-RIS systems for improved wireless connectivity.

New strategies improve channel estimation in BD-RIS, enhancing wireless communication.

A concise overview of the intersection of topology and vector spaces.

A new method improves calibration efficiency for quantum devices in changing environments.

Explore the role of random tensors in analyzing complex, multi-dimensional data.

New methods improve speed and accuracy in recovering sparse signals.

Advanced techniques aim to reduce seismic noise for better gravity wave detection.

Learn about sound localization techniques and their uses in various fields.

This paper discusses proximity operators and their role in optimization for signal recovery.

A method enhances image clarity by addressing Poisson noise in imaging data.

A new method enhances GSVD calculations for large datasets, improving speed and accuracy.

A look at signal modeling techniques for urban satellite communication.

A guide to understanding sheaves and their role in mathematics.

New theory sheds light on OECT hysteresis and its applications.

Exploring the role of RIS in advancing wireless communication systems.

A study on pilot signals and channel estimation in MU-MIMO systems.

PRANK enhances the accuracy of vibration measurements by reducing noise.

A new method enhances recovery of information from noisy measurements in various fields.