Sinha Namrata Ieee Access Repack Jun 2026

Key Research: "Understanding the Bibliometric Patterns of Publications in IEEE Access"

: Analyzing how researchers work together across different institutions and countries.

A follow-up paper—perhaps a second IEEE Access publication—would likely address one of these gaps.

"Miner Selection in an Internet of Medical Things Framework using Fuzzy Logic" in 2024, involving collaborators like Ditipriya Sinha IEEE Context IEEE Access sinha namrata ieee access

The intersection of advanced antenna design and next-generation wireless communications drives the continuous evolution of telecommunications. A prominent anchor in this academic landscape is the publication track record associated with the keyword phrase .

As a Gold Open Access journal, articles are immediately available to a global audience.

: The underlying research extensively bench-tests performance across multiple competitive machine learning paradigms, comparing Random Forest (RF), K-Nearest Neighbors (KNN), and Gradient Boosting (XGBoost) variants to deliver maximum F1 scores and clinical reliability. A prominent anchor in this academic landscape is

: Traditional telecommunication arrays rely on bulky, separate components to manage signal filtering and wave polarization. The research tracks a structural design paradigm known as a Switchable Slant Polarization Filtering Antenna (SIFA) . Mechanics of the Design :

But what exactly drives its success, and what do the numbers tell us about the global research landscape? A key paper titled —co-authored by Namrata Sinha —provides a deep dive into these very questions. The Core of the Research 🔍

By exploring Sinha Namrata's research contributions and publications in IEEE Access, this article aims to provide a comprehensive review of her work and its impact on the field of electrical engineering. As a researcher, Namrata continues to inspire and influence the research community, pushing the boundaries of knowledge and innovation. comparing Random Forest (RF)

Traditional wireless systems rely on horizontal or vertical polarization. However, multipath interference and signal fading degrade these signals in urban environments. Slant polarization delivers distinct advantages:

Comprehensive Research Guide: "Sinha Namrata IEEE Access" Navigating engineering, biomedical, and electronics literature requires specific keyword parameters to isolate particular high-impact publications. The keyword phrase serves as a vital focal point for identifying pioneering peer-reviewed studies published in the IEEE Access journal, a leading open-access destination covering all disciplines overseen by the Institute of Electrical and Electronics Engineers (IEEE).

The research methodology employed by Sinha and her peers typically involves a rigorous cycle of theoretical analysis, simulation, and experimental validation. This approach is particularly valuable for applications in , where antenna efficiency and signal polarization are critical for performance. IEEE Access - Decision on Manuscript ID Access-2020-31789