Presentation Information
[9p-E203-7]A New Telecommunication Model Based on Gravitational Wave Frequency
〇Gh. Saleh1 (1.Saleh Research Centre, Netherlands)
Keywords:
Gravitational Waves,Telecommunication Systems,Photon Structure
This paper presents a theoretical framework for future telecommunication systems based on gravitational waves within the context of Saleh Theory. Unlike current wireless technologies that rely on electromagnetic radio frequencies, this study explores gravitational-wave frequencies as an alternative communication medium.
A theoretical model is proposed to estimate gravitational frequency through the relationship between kinetic and gravitational energy. According to the presented calculations, gravitational frequencies are placed in a high-frequency region of the electromagnetic spectrum. The study further proposes that gravitational waves originate from continuous and interconnected photon structures formed under extreme stellar conditions.
Based on this framework, gravitational-wave communication may provide advantages such as low attenuation, high penetration capability, reliable connectivity in adverse environments, reduced satellite requirements, and improved long-distance space communication. This work introduces an alternative theoretical perspective for future telecommunication technologies.
A theoretical model is proposed to estimate gravitational frequency through the relationship between kinetic and gravitational energy. According to the presented calculations, gravitational frequencies are placed in a high-frequency region of the electromagnetic spectrum. The study further proposes that gravitational waves originate from continuous and interconnected photon structures formed under extreme stellar conditions.
Based on this framework, gravitational-wave communication may provide advantages such as low attenuation, high penetration capability, reliable connectivity in adverse environments, reduced satellite requirements, and improved long-distance space communication. This work introduces an alternative theoretical perspective for future telecommunication technologies.
