Enhancing Angle Modulation Using Fractional Calculus: Theory and Performance Analysis
- Title
- Enhancing Angle Modulation Using Fractional Calculus: Theory and Performance Analysis
- Creator
- Mishra, Shalabh Kumar; Upreti, Kamal; Shankar, Uma; Radhakrishnan, Ganesh V.; Jain, Rituraj; Upreti, Shitiz
- Description
- Angle modulation originally forms part of the backbone of the telecommunication and signal processing, where current studies are being carried out to improve its susceptibility to noise interference. This paper aims to analyze the possibility of the application of fractional calculus for optimization of angle modulation, as a requirement for development of enhanced and flexible communication networks. The main purpose of this study is to design and model new angle modulation technique which are Fractional Phase Modulation (FPM) and Fractional Frequency Modulation (FFM) by using fractional calculus. A generalized form of angle modulation and an introduction to the use of fractional calculus was proposed and a mathematical analysis of FM and FFM detectors was done. In evaluating the findings, the interaction between the fractional order of ? and some performance parameters like Signal-to-Noise Ratio (SNR) and Figure of Merit (FoM) was also considered. It has been shown that FPM and FFM detectors also show high SNR and FOM performance, and when ? is replaced. The FPM detector demonstrated a steady trend and increased from SNR 0 to 1 when the ? was diverse, while the FFM detector had a huge increase in SNR from ?=-0.9 to 0. These results indicate that the angle provides additional benefits in partial stones, signaling purity and system flexibility for the modulation technique. Thus, the ability to achieve better stability in communication for modulation techniques indicates the ability to achieve better stone purity and system flexibility for modulation techniques. Since partial order ? can be adjusted to fit the application, the proposed method shows interesting applications in many communication settings, especially when the signal is noisy or dynamic. 2025, School of Electrical Engineering and Informatics. All rights reserved.
- Source
- International Journal on Electrical Engineering and Informatics;Volume;17;Issue;3;pp.516-532
- Date
- 01-01-2025
- Publisher
- School of Electrical Engineering and Informatics
- Subject
- Adaptive modulation; Angle modulation; Communication system; Partial stones; Short reduction; Signal processing
- Coverage
- Mishra S.K., ECED Department, Thapar Institute of engineering and Technology, Punjab, Patiala, India; Upreti K., Department of Computer Science, CHRIST University, Delhi NCR Campus, Ghaziabad, India; Shankar U., Department of Finance, Ramcharan School of Leadership, Dr. Vishwanath Karad MIT World Peace University, Pune, India; Radhakrishnan G.V., Department of Finance, Kalinga School of Management, KIIT Bhubaneswar, India; Jain R., Department of Information Technology, Marwadi University, Gujarat, Rajkot, India; Upreti S., Department of Management (MMIM), School of Computer Science & Engineering (SCSE), IILM University, Greater Noida, India
- Rights
- Restricted Access; Hardcopy may be available in the library
- Relation
- ISSN: 20856830;
- Format
- online
- Language
- English
- Type
- Article
Collection
Citation
Mishra, Shalabh Kumar; Upreti, Kamal; Shankar, Uma; Radhakrishnan, Ganesh V.; Jain, Rituraj; Upreti, Shitiz, “Enhancing Angle Modulation Using Fractional Calculus: Theory and Performance Analysis,” CHRIST (Deemed To Be University) Institutional Repository, accessed June 17, 2026, https://archives.christuniversity.in/items/show/23341.