Abstract: Frequency Embedding Technology (FET) is an emerging paradigm in data transmission and analysis, revolutionizing conventional methods by embedding information within frequency domains. This research paper conducts an in-depth analysis of the underlying principle of FET, specifically focusing on its application through the Intrinsic Data Field Transfer (IDFT) method. IDFT is a novel approach that exploits inherent data fields for seamless information transfer, bypassing explicit encoding techniques.
The study aims to elucidate the theoretical framework and practical implications of FET utilizing the IDFT method. It explores the fundamental concepts of FET, delineating how information is strategically embedded into frequency domains to facilitate efficient data transmission and analysis. Through a comprehensive review of existing literature, the paper outlines the mechanics of FET and its integration with IDFT, highlighting their synergistic relationship and the advantages they offer over traditional data encoding methods.
Furthermore, the research delves into case studies and simulations, providing empirical evidence of FET's efficacy and performance in various applications such as telecommunications, signal processing, and data analysis. It critically evaluates the strengths and limitations of FET through the lens of IDFT, offering insights into its practical implications and potential areas for further refinement.
The findings of this study contribute significantly to understanding the intricate workings of FET and its synergy with IDFT, paving the way for enhanced data transmission methodologies and more efficient utilization of frequency domains for information embedding. This research serves as a valuable resource for researchers, engineers, and practitioners seeking to leverage FET through IDFT in diverse fields requiring robust data transfer and analysis techniques.
Title: Analysis of Principle Behind Frequency Embedding Technology Through Intrinsic Data Field Transfer Method
Author: Dr Krishnamoorthy Kannan, Dr Hemachandran Ravikumar
International Journal of Engineering Research and Reviews
ISSN 2348-697X (Online)
Vol. 11, Issue 4, October 2023 - December 2023
Page No: 48-53
Research Publish Journals
Website: www.researchpublish.com
Published Date: 23-November-2023
