Ertugrul Basar, Senior Member, IEEE Abstract—In this paper, the paradigm of thermal noise commu-nication (TherCom) is put forward for future wired/wireless net-works with extremely low power
However, ambient light noise due to indirect sunlight and fluorescent light is a major concern that affects the performance of the communication
Mentioning: 55 - We investigate the effect of environmental noise, caused by solar radiations under water, on the performance of underwater wireless optical communication (UWOC) systems.
In this paper, we calculate and measure the SNR theoretically and experimental for digital full duplex optical communication systems for different
Modern satellite navigations systems utilize high-orbit (mostly geostationary) and low-orbit satellites. Both satellite types have their advantages and disadvantages. A global communication
The grid integration of large scale photovoltaic (PV) power plants represents many challenging tasks for system stability, reliability and power
In satellite communication systems, low-noise amplifiers (LNAs) are essential components that enhance weak signals received from satellites while
Abstract: In the field of solar radio, the high performance solar radio receiver which has high sensitivity, large dynamic range is necessary to observe the radio storm fine structure. The low noise floor solar
The authors propose a residual carrier modulation scheme to overcome laser phase noise in coherent optical systems. The method improves bitrate and spectral efficiency by 41% using low
Solar noise as an innegligible interference in underwater wireless optical communication (UWOC) systems is a significant concern. But there are no studies on the Channel Impulse Response (CIR) in
To establish communication with LEO satellites for our extended space mission, in this study, we designed and developed an all-free-space ground terminal that accounts for solar radiation noise.
Satellite communication, or SATCOM, is expanding quickly and piques the interest of researchers due to the growing need for greater data transmission speeds. In satellite
This work demonstrates a mirror-assisted non-line-of-sight (NLOS) optical communication system employing a LASER (Light Amplification by Stimulated Emission of
The current communication method is by using radio frequency communication But due to various drawbacks of radio frequency such as the limitation of bandwidth, less secure and also we cannot
Renewable energy solutions leverage natural, constantly replenished sources for power generation with solar energy being one of the most prominent techniques. Solar panels convert sunlight into
Abstract Absorption, scattering, turbulence, and ambient light affect the performance of underwater optical wireless communication (UOWC) systems. Solar light is a form of undersea
Solar cell applications in communication reduce costs while improving data rates and energy efficiency. The paper reviews multiple studies confirming solar cells'' integral role in modern communication
Satellite communication systems rely on low-noise amplifiers (LNAs) to boost weak signals with the least amount of extra noise possible. Achieving low
Orientation-based solar noise impact on underwater and free-space optical wireless communication systems: experimental investigations. To read the
Abstract In Undersea visible light communication (UVLC) system, we investigate the efect of ambient noise, caused by solar noise under oceanic water. We investigate how undersea visible light
High frequency microwave is crucial for communication and radar applications. The authors develop a compact Kerr comb for photonic THz generation with near quantum limited noise
Abstract With the development of deep space exploration technologies, main space agencies all over the world are working hard to develop the solar system interplanetary communication networks
This work discusses the impact of solar light on the UOWC system with its Rx facing different orientations. It is found that the Rx orientation plays a significant role in determining the
To this end, this paper proposes a unified model for underwater channel characterization and system performance analysis in the presence of solar noises utilizing a photon tracing algorithm.
The method, which accounts for multiple reflections of any order, enables accurate analysis of the effects of multipath dispersion on high-speed indoor optical communication systems.
The experimental outcomes depict the signal''s noise content, spectral leakage, and roll-off rate variation at multiple Rx orientations. We also demonstrate the solar noise interference in
Contact us for competitive quotes on any of our fiber optic products
Get a Quote